Michigan DNR reports Ogemaw County’s first CWD-positive deer in Klacking Township, Ogemaw County
Michigan DNR reports Ogemaw County’s first CWD-positive deer in Klacking Township, Ogemaw County
Oct. 31, 2023
Contact: Chad Stewart, 517-282-4810
DNR reports Ogemaw County’s first CWD-positive deer; hunters in north-central part of county encouraged to check deer A 4-year-old doe that was reported to be in poor condition – skinny, drooling and showing no fear of people – in Klacking Township, Ogemaw County, recently tested positive for chronic wasting disease. It is the first CWD-positive wild deer from that county, a finding confirmed by the University of Wisconsin Veterinary Diagnostic Laboratory in Madison, which works with the Michigan Department of Natural Resources to identify CWD in Michigan’s wild herd.
CWD is a fatal neurological disease that affects white-tailed deer, elk and moose. To date, the disease also has been detected in the following Michigan counties: Clinton, Dickinson, Eaton, Gratiot, Hillsdale, Ingham, Ionia, Isabella, Jackson, Kent, Midland and Montcalm.
“When we find chronic wasting disease in a brand-new location, where previous intensive surveillance has not yet been done, it becomes extremely important for wildlife disease managers to understand where additional cases might be within that county,” said DNR deer and elk specialist Chad Stewart. “In light of this new detection, we are offering additional opportunities for those interested in getting their deer tested for CWD in Ogemaw County.”
A drop box for CWD testing will be available at the Rifle River Recreation Area headquarters, located at 2550 Rose City Road in Lupton, starting Friday, Nov. 3. The check station typically operated at the DNR field office located at 410 Fairview Road in West Branch will be open Nov. 15-30 from 10 a.m. to 3 p.m. The field office will be closed Nov. 23-24 for the Thanksgiving holiday. Self-service test kits, typically available in other locations where CWD has been identified, will not be available in Ogemaw County due to concerns of bovine tuberculosis disease transmission in the county.
Stewart said that CWD is not common among deer in Michigan, and the hunting community can continue to play a key role in assisting the department in disease-testing efforts.
“The DNR sets surveillance goals – basically, a number of deer tested in a particular area – to understand the scale of infection in the local deer herd,” he said. “The closer we come to meeting these goals, the more data we have to identify where and to what extent chronic wasting disease exists in Michigan. Strong hunter participation in testing is critical to that learning, especially in areas where we haven’t yet met surveillance goals.”
Testing background, strategy In addition to testing around areas of known CWD positives, the DNR in 2021 began a rotational approach to testing around the state. A group of counties is selected each year, with the eventual aim of testing enough deer in every Michigan county.
The goal of this approach is early disease detection, as management has the potential to be most effective when the disease is caught early. Most of these areas have not had a CWD detection or have not previously been part of intensive testing efforts, so little is known about disease status or pathways in these locations. In 2021 and 2022, the rotational approach focused testing in areas of both the southwestern and southeastern Lower Peninsula.
This year, testing will focus on the northwestern Lower Peninsula and a few counties in other areas where additional herd information is still needed. The focal counties for 2023 CWD testing include Antrim, Benzie, Charlevoix, Emmet, Grand Traverse, Hillsdale, Isabella, Kalkaska, Lake, Leelanau, Manistee, Missaukee, Osceola and Wexford. These counties will have CWD testing drop boxes, staffed submission sites, and partner processors and taxidermists to assist with collection efforts.
In the rest of the state, testing is available through direct submission by hunters to a cooperating U.S. Department of Agriculture-approved diagnostic laboratory for a fee or through free self-sample shipping kits in counties where CWD has previously been detected.
Since CWD was first detected in 2015, over 103,000 deer have been tested for CWD in Michigan. There have been over 137,000 wild deer tested in total. The Ogemaw County deer is the Department’s 251st positive animal.
To date, there have been no reported cases of CWD infection in people. However, as a precaution, the U.S. Centers for Disease Control and Prevention recommend that infected animals not be consumed as food by either humans or domestic animals.
Hunters also are reminded to use caution when field-dressing or processing a deer. This includes practices such as wearing rubber gloves, minimizing contact with the deer’s brain and spinal tissue, and washing your hands with soap and warm water after handling any parts of the carcass.
Proper disposal of a deer carcass is critical to prevent the spread of chronic wasting disease. Deer carcasses should go directly to a landfill or be disposed of through your regular trash pickup to be taken to a landfill. Deer harvested from known CWD areas should never be disposed of on the landscape in non-CWD areas.
For more information on chronic wasting disease, visit Michigan.gov/CWD.
MDARD: Chronic Wasting Disease Confirmed in a Farmed White-Tailed Deer from Newaygo County Michigan
Dept of Agriculture & Rural Development sent this bulletin at 05/02/2023 11:15 AM EDT
For immediate release: May 2, 2023 Media contact: Jennifer Holton, 517-284-5724 or Chelsea Lewis, 517-331-1151
MDARD: Chronic Wasting Disease Confirmed in a Farmed White-Tailed Deer from Newaygo County LANSING, MI –The Michigan Department of Agriculture and Rural Development (MDARD) has confirmed chronic wasting disease (CWD) in one white-tailed deer from a farmed cervid facility in Newaygo County. The infected four-and-a-half-year-old deer was discovered through routine testing as part of the state’s CWD surveillance program for farmed deer.
“Limiting the spread and impact of CWD on Michigan’s farmed cervid herds hinges on the ability to detect the disease early and respond promptly,” said State Veterinarian Dr. Nora Wineland. “While regular CWD surveillance testing is central to accomplishing this goal, MDARD’s continued partnership with herd owners, hunters, and other state and federal partners is also crucial to effectively managing this disease. Ensuring the health of Michigan’s farmed cervid population is a team effort.”
CWD is a fatal neurological disease that affects different cervid species, including white-tailed deer, mule deer, elk, and moose. CWD can be transmitted directly from one animal to another and indirectly through the environment. While an infected animal may appear healthy for months or years, it will eventually display abnormal behavior, progressive weight loss, and physical debilitation in the later stages of the disease.
The presence of CWD in farmed cervid facilities and free-ranging deer is not new to Michigan. Since 2008, including this new case, CWD has been detected at 11 Michigan cervid farms in the following counties: Kent (2), Mecosta (4), Montcalm (3), and Newaygo (2).
With free-ranging deer, CWD was first discovered in May 2015; and cases have been found across 11 counties in Michigan’s Upper and Lower Peninsulas. To date, no free-ranging white-tailed deer have tested positive for CWD in Newaygo County.
As part of MDARD’s disease response, investigations are ongoing to rule out any possible exposure to other farmed cervids.
Currently, there have been no reported cases of CWD infection in humans. However, as a precaution, the World Health Organization and the U.S. Centers for Disease Control and Prevention recommend that CWD-infected animals should not be consumed as food by either humans or domestic animals.
More information about CWD can be found at Michigan.gov/CWD or Michigan.gov/MDARD-Cervid.
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Michigan MDARD: Chronic Wasting Disease Confirmed in a Farmed White-Tailed Deer from Newaygo County
Michigan MDARD Captive CWD Positives depopulated and quarantined
Michigan MDARD CWD
APPENDIX A: 2021 REPORTABLE DISEASES
Livestock Diseases: Small Animal, Equine and Exotic Diseases:
Disease Species Number of Animals
CWD (Chronic Wasting Disease) Cervid 19
Michigan MDARD CWD
APPENDIX A: 2020 REPORTABLE DISEASES Livestock Diseases:
Disease Species Number of Animals
CWD (Chronic Wasting Disease) Cervid 46
CHRONIC WASTING DISEASE CASESCWD STATUS OF CAPTIVE HERDS
Updated January 2023
4/19/2022 3 YR Female MI Mecosta WTD Shooter No No 275 Quarantine
11/4/2021 2, 3 Y Male MI Kent Elk Breeder Yes Yes 0 Depopulated
7/15/2021 4 Y Female MI Montcalm WTD Breeder No No 109 Quarantine
4/18/2021 2.5 Y Male MI WTD Shooter No No ukn Quarantine
3/3/2021 4 Y Male MI Montcalm WTD Shooter No NA 14 Quarantine
12/2019 3, 4.5 Y Males MI Newaygo WTD Shooter No No >600 Quarantine
4/2019 2.5 Y Female MI Montcalm WTD Breeder No NA 113 Depopulated
12/2017 1.5 Y Female MI Mecosta WTD Breeder Yes Yes 525 Quarantined
1/2017 2Y Female MI Mecosta WTD & Sika deer Shooter No NA 71 Depopulated
Michigan Chronic Wasting Disease CWD TSE Prion Totals Since 2015 To Present 242 Confirmed Cases
Michigan Department Ag. Captive Cervid
APPENDIX A: 2021 REPORTABLE DISEASES
Livestock Disease
Disease Species Number of Animals
CWD (Chronic Wasting Disease) Cervid 19
Michigan Department Ag. Captive Cervid
APPENDIX A: 2020 REPORTABLE DISEASES
Livestock Diseases: Disease Species Number of Animals
CWD (Chronic Wasting Disease) Cervid 46
ACCOMPLISHMENTS:
• Managing the CWD-positive deer farm identified in March 2019.
• In May 2019, the USDA released updated CWD Herd Certification Program Standards. Michigan is in the process of implementing these new changes.
ACCOMPLISHMENTS:
• Managed the disease investigation and removal of deer from the a CWD positive deer farm identified in December 2017.
• Due to multiple detections of CWD in free-ranging deer, the parameters for being in a designated special surveillance area were modified to include all herds in an affected county. This change created more comprehensive and efficient responses.
• Initiated a comprehensive program review with the DNR to streamline and improve the Farmed Cervid Program.
Since May 2015, the Depaitment has confirmed chronic wasting disease (CWD) in free-ranging white-tailed deer from Clinton, Eaton, Gratiot, Ionia, Ingham, Jackson, Kent, and Montcalm Counties in the Lower Peninsula. In October 2018, the Department confirmed CWD in a free ranging white-tailed deer from Dickinson County in the Upper Peninsula (UP). As of mid-April 2019, after testing approximately 60,545 free-ranging white-tailed deer, 118 were positively confirmed with CWD, with 62 occurring in 2018. Chronic wasting disease was also found in August 2008, at a Kent County privately-owned cervid (POC) facility and in two POC facilities in Mecosta County in 2017. In addition, CWD was found in March 2019 at a POC facility in Montcalm County.
Michigan MDARD: Chronic Wasting Disease Confirmed in a Farmed White-Tailed Deer from Mecosta County
For immediate release: May 9, 2022 Media contact: Chelsea Lewis, 517-331-1151 or Jennifer Holton, 517-284-5724
MDARD: Chronic Wasting Disease Confirmed in a Farmed White-Tailed Deer from Mecosta County
LANSING, MI – Today, the Michigan Department of Agriculture and Rural Development (MDARD) confirmed chronic wasting disease (CWD) in one white-tailed deer from a farmed cervid facility in Mecosta County. The infected three-year-old deer was discovered through routine testing as part of the state’s CWD surveillance program for farmed deer.
CWD is a fatal neurological disease that affects different cervid species, including white-tailed deer, mule deer, elk, and moose. The disease can be transmitted directly from one animal to another and indirectly through the environment. While an infected animal may appear healthy for months or years, it will eventually display abnormal behavior, progressive weight loss, and physical debilitation in the later stages of the disease.
“MDARD is committed to limiting the spread and impact of this disease. CWD surveillance testing plays an integral part in accomplishing this goal because it helps us to detect and respond to the disease promptly,” said State Veterinarian Dr. Nora Wineland. “In addition, our continued partnership with farmed cervid owners, hunters, and other state and federal partners is also essential to ensure the health of Michigan’s farmed deer population.”
The presence of CWD in farmed cervid facilities and free-ranging deer is not new to Michigan. Since 2008, including this new case, CWD has been detected at 10 Michigan cervid farms in the following counties: Kent (2), Mecosta (4), Montcalm (3), and Newaygo.
With free-ranging deer, CWD was first discovered in May 2015; and cases have been found across nine counties in Michigan’s Upper and Lower Peninsulas. To date, no free-ranging white-tailed deer have tested positive for CWD in Mecosta County.
As part of MDARD’s disease response, investigations are ongoing to rule out any possible exposure to other farmed cervids.
Currently, there have been no reported cases of CWD infection in humans. However, as a precaution, the U.S. Centers for Disease Control and the World Health Organization recommend that CWD-infected animals should not be consumed as food by either humans or domestic animals.
More information about CWD can be found at Michigan.gov/CWD or Michigan.gov/MDARD-Cervid.
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Michigan’s 2021 deer seasons included targeted CWD surveillance, 25 positive deer
April 14, 2022
Hunters encouraged to share harvest results via online survey
Buck walking through lush green forest
Though Michigan’s 2021 deer hunting seasons ended in late January 2022, the Michigan Department of Natural Resources is continuing to accept feedback from hunters about their experiences. Hunter harvest surveys have been sent to a random sample of the state’s deer hunters. In addition, hunters can take a brief online survey. Final harvest survey results will be presented later this summer.
Initial data from Michigan’s 2021 deer hunting seasons – including chronic wasting disease testing results and deer license sales information – was presented at Thursday’s meeting of the Michigan Natural Resources Commission in Lansing, with highlights shared below.
A shift in CWD testing
The DNR has finalized its 2021 surveillance efforts for chronic wasting disease, ultimately testing just over 7,200 deer. The more targeted testing goals are part of the department’s new region-by-region strategy aimed at detecting new outbreaks rather than revisiting known ones.
“We want to thank hunters for their cooperation in helping us meet our CWD surveillance goals,” said DNR Director Dan Eichinger. “Strategic testing for chronic wasting disease is of primary importance for the department, and we couldn’t meet these goals without the committed assistance of deer hunters.”
Eichinger also praised the work of deer processors, taxidermists and local businesses that help collect samples for testing, and other key partners who provide necessary assistance to the department.
In all, 25 CWD-positive deer were confirmed in 2021. Three cases of CWD were detected in Isabella County, which represents a new county where the disease has been found. (Since Michigan’s first confirmation of a CWD-positive wild deer in 2015, CWD has been detected in white-tailed deer in Clinton, Dickinson, Eaton, Gratiot, Ingham, Ionia, Jackson, Kent and Montcalm counties.)
Doe walking through late summer forest “It was not unexpected to find positive cases in Isabella County, as these detections were fairly close to where we’ve identified cases in Montcalm and northern Gratiot County,” said DNR deer and elk specialist Chad Stewart. “Our main areas of infection remain in parts of Montcalm and northeast Kent counties, as well as southern Jackson County, where we knew CWD existed going into the 2021 hunting season.”
Despite the department’s finding of 25 positive animals last year, Stewart cautioned against comparing the low number of positives with the high number of deer tested and concluding there is not a problem.
“The distribution of our samples greatly affects the number of positives we expect to find. Intensive collection of samples in known CWD locations like Montcalm and Kent counties would certainly lead to a high number of positives being detected,” he said. “Our goal this year was to begin to understand what CWD looks like in areas that are historically under-sampled, and we made a lot of strides on that front.”
Stewart said that chronic wasting disease is going to be a problem for parts of Michigan’s deer herd in the future: “Once it becomes established, it is unlikely that we can reverse course on the disease. Prevention and early detection remain our best options for CWD management.”
Hunter walking across plain while sun shines brightly CWD surveillance moving forward
For Michigan’s 2021 deer seasons, the DNR started a multiyear process of strategic, focused CWD surveillance in regions around the state. Last year’s surveillance occurred mainly in the three tiers of counties near the Ohio border. Over the next few years, the remainder of the state will be systematically sampled to determine if CWD is present in other areas where it hasn’t yet been identified.
Hunter numbers
While there was a temporary rise in hunter numbers during the COVID-19 pandemic, participation is declining in Michigan. The trend is not new, nor is it only being observed here. States across the country are feeling the financial pressure of reduced hunter numbers, because sales of hunting licenses comprise a large portion of the funding for critical conservation work.
“Nationwide, hunting has seen a gradual decline over the last several decades,” said Eichinger. “The trend is likely due to a combination of factors including generations of hunters who are aging out of the sport, and younger generations that are less likely to participate in hunting due to societal changes and more competition for their attention.”
Deer hunter numbers in 2021 were down nearly 4% over the previous year with close to 600,000 hunters purchasing a deer license. Hunter number declines are in line with past years going back to peak participation in the mid 90’s.
“While the trend in hunter participation is discouraging, we know that hunting remains an important part of Michigan’s outdoor heritage,” Eichinger said. “That’s why we encourage experienced hunters to introduce the sport to new hunters wherever they can. Spending time with veteran hunters can reduce the learning curve, increase safety and instill a sense of excitement and appreciation for our state’s natural resources.”
To learn more about deer management, CWD and deer hunting in Michigan, and to access the 2021 deer harvest survey, visitMichigan.gov/Deer.
see archived link;
Michigan Chronic Wasting Disease CWD TSE Prion Update
CWD in Michigan
Since May 2015 when the first CWD deer was found in Michigan, CWD has been confirmed in a number of townships in the Lower Peninsula. As of October 2018, a CWD positive deer was found in the Upper Peninsula in Dickinson County. CWD was also found in August 2008 at a Kent County deer farm facility and in January 2017 in two captive deer that were from a deer farm facility in Mecosta County.
see archived link;
see archived;
CWD TESTING RESULTS
Michigan CWD
Michigan CWD 2023
see page two link at the bottom;
Total tested and number of positives
Area Total Tested # Positive
Remainder of State* 954 6
Statewide Total for 2023** 1386 7
*These positive deer came from Gratiot (4), Jackson (1) and Midland (1) counties.
**Certain deer are not included (e.g., insufficient samples, fawns, missing gender/age) with those included, statewide total = 1693
Desperado Deer: The Persistent Problem of Captive Deer Running Wild
by Editor | May 8, 2018 | Conservation, Hunting
Cervid Escapees – Measuring the Problem
For starters, no one knows for sure how many deer escape from high-fence facilities each year. Neither the DNR nor the Michigan Department of Agriculture and Rural Development keep accurate, complete records of the number of escapees reported by citizens and/or investigated by DNR conservation officers. Only in 2017 did the DNR first begin using an electronic database to monitor escaped cervids.
Currently, there are 333 licensed captive cervid facilities in the state, most of which are breeding farms (161) or hunting ranches (132), holding over 21,000 whitetail deer, fallow deer, red deer, Sitka deer and elk. While the number of deer escapees voluntarily reported has declined over recent years, the numbers do not include escapees that are never reported.
Chronic wasting disease (CWD) is a transmissible neurological disease found in deer and elk populations that produces small lesions in brains of infected animals. As a result, CWD causes weight loss and a decline in body control. It is a species-specific disease, and there have been no cases in humans or other animals.
Currently, to determine the presence of CWD, brain and lymph node samples are taken by an accredited veterinarian after an animal dies. These samples are then submitted for testing.
As part of their operations, all privately-owned cervid (POC) facilities in Michigan are required to submit samples. The number of samples that must be submitted depends on what specific program that a producer participates in: the Chronic Wasting Disease Herd Certification Program (CWD HCP) or the Surveillance Program.
First, for the CWD HCP, all cervids 12 months of age and older that die for any reason must be tested for CWD.
Second, all facilities that are not a part of the CWD HCP must participate in the Surveillance Program. The Surveillance Program requires that all animals 12 months of age and older that die from illness, injury, or euthanasia due to disease must be tested for CWD. In addition, 25% of cervids slaughtered, hunted, or culled must be tested. This number is calculated on an annual basis. In general, all facilities that have at least one death must test at least this one animal.
Samples for either of these programs can be submitted to a private veterinarian, the Michigan State University Veterinary Diagnostic Lab, or an MDARD drop off location.
For more information, contact the MDARD Cervid Program.
General Questions/Concerns: MDARD-Cervid@Michigan.gov
Cervid Program Manager:
Dr. Jennifer Calogero CalogeroJ@Michigan.gov 517-284-5692
Cervid Program Secretary: Melanie Hart HartM1@Michigan.gov 517-284-5679
Privately Owned Cervidae
Raising deer and elk in captivity is jointly regulated by the DNR and the Michigan Department of Agriculture and Rural Development. The DNR oversees the registration of facilities containing farmed cervids and performs inspections of these operations. MDARD manages the disease programs for the state’s POC facilities. Participation in disease surveillance programs - such as those for chronic wasting disease (CWD) and the bovine tuberculosis (TB) - ensures for a robust industry by increasing the marketability of these animals by decreasing their potential for carrying disease. There are nearly 300 licensed facilities in 76 Michigan counties totaling over 63,000 fenced acres. The division conducts about 95 facility inspections per year to ensure that fencing and recordkeeping meet industry standards.
2021 Wildlife Health Section Accomplishments
Tested over 8,000 deer heads for bovine tuberculosis and
2,500 heads for chronic wasting disease.
While CWD is not known to be zoonotic, bTB can infect humans, domestic animals and wild animals beyond white-tailed deer.
***> Tested ...and 2,500 heads for chronic wasting disease.
MDNR estimates put the Michigan deer population around 1.75 million for 2019. Dec 25, 2019
Issues Pros and Cons Despite federal, state, and local regulations and other measures intended to prevent the spread or reduce CWD prevalence, the disease continues to be identified in captive cervid facilities certified as “low risk” through the United States Department of Agriculture (USDA) Herd Certification Program and the CFIA (Canadian Food Inspection Agency) Voluntary Herd Certification Programs (participating in a federally-approved CWD program was a measure of the ATA program). According to the USDA data reports, there were 22 new CWD-positive captive cervid facilities identified in FY2020; 41 percent of those were either enrolled or certified in the federal HCP program. There are a variety of unregulated processes used to collect urine, and they often result in the accumulation of a mixture of secretions, therefore providing concurrent contaminated risks. In addition, urine products are frequently batched/combined from multiple locations and distributed across the country, which increases the likelihood of CWDinfected urine entering the market. There are currently no standard regulations to ensure that urine collected for lures and attractants are disease-free.
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Biological
Nationally, CWD continues to be found in captive cervid facilities.
From the years 2012 to 2021, there have been 66 privately owned cervid facilities nationally where CWD has been identified.
Of those 66 facilities, 39 were enrolled in the HCP, and 32 of those facilities were HCP-certified (meaning there had been at least five years of disease monitoring and no rule violations) indicating low risk for CWD.
This national USDA CWD HCP is not mandatory, and more importantly, recent CWD events show that it does not and cannot guarantee that captive deer herds are CWD free.
To date, CWD has been found in more than 140 captive deer herds in 16 states and two Canadian provinces.
Front. Vet. Sci., 18 January 2022 | https://doi.org/10.3389/fvets.2021.824815
Evaluation of Real-Time Quaking-Induced Conversion, ELISA, and Immunohistochemistry for Chronic Wasting Disease Diagnosis
All, except one, CWD positive RLNs analyzed were from ten Counties geographically located in the West Michigan region of the Lower Peninsula. Taken together, we show evidence that the RT-QuIC assay is comparable to ELISA and IHC and could be helpful for routine CWD detection in surveillance programs. RT-QuIC also demonstrated that CWD prions are distributed across lymph nodes in a variety of anatomic locations.
Michigan:
September, 2019: NVSL confirmed CWD in a two year old female white-tailed deer in Montcalm County. The doe was a natural addition to the breeding herd which consists of 50 white-tailed deer. This herd is not enrolled in the Federal HCP, is within a CWDendemic area, and is under quarantine.
Michigan: One new CWD positive herd
Hunt preserve of >600 WTD, not in HCP, populated and under quarantine
Farmed Cervid Chronic Wasting Disease Management and Response Activities 2021 Cooperative Agreements
archived link;
archived page;
APHIS also conducts monitoring and surveillance activities to detect diseases that affect cervids, including chronic wasting disease (CWD) and tuberculosis (TB). APHIS’ voluntary national CWD Herd Certification Plan (HCP) works with States, Tribes, and the cervid industry to control CWD in farmed cervids by allowing the interstate movement only from certified herds.
Currently, 28 States participate in the national CWD HCP. In FY 2019 APHIS tested more than 11,000 farmed cervids for CWD.
As a result, APHIS identified 17 new CWD positive farmed cervid herds.
Wild Cervid Chronic Wasting Disease Management and Response Activities 2021
Funding Opportunity USDA APHIS Wildlife Services announced awards for two opportunities for the control and prevention of CWD in wild cervids under the titles of “Wild Cervid CWD Management and Response Activities 2021” and “Tribal Nations Wild Cervid CWD Opportunities 2021.” See information below. Wild Cervid CWD FOA Wild Cervid CWD FAQs Wild Cervid CWD Management and Response Activities 2021 Cooperative Agreements Wild Cervid CWD 2021 Project Executive Summaries Tribal Nations Wild Cervid Chronic Wasting Disease Opportunities 2021 Funding Opportunity Tribal Nations Wild Cervid CWD FOA Tribal Nations Wild Cervid CWD FAQs Tribal Nations Wild Cervid CWD Opportunities 2021 Cooperative Agreements Wild Cervid Tribal CWD 2021 Project Executive Summaries
VS Farmed Cervid Chronic Wasting Disease Management and Response Activities 2021 Funding Opportunity RISK, UNCERTAINTY AND DECISION-MAKING: ASSESSING CHRONIC WASTING DISEASE OCCURRENCE RISK ACROSS AN EMERGENCE SPECTRUM
Exposure hazards included point locations of captive cervid facilities, deer processors and taxidermists, and out-of-area hunting connectivity.
As of 2018, there were a total of 296 ranch and full-registration facilities in Michigan. In terms of their spatial distribution, there were facilities in 196 out of 1240 townships, and 71 out of 83 counties (Fig. 2.1). There were 468 registered deer processors and taxidermists in 2017, the year for which data were available. Processors and taxidermists occurred in 696 out of 1240 townships, and 82 out of 83 counties (Fig. 2.2). Lastly, out-of-area hunting was based on both intrastate and interstate metrics. For intrastate hunting, the percentage of respondents that travelled from one county to another was scaled up to the total number of hunters that reside in a county. CWD positive counties included Clinton, Dickinson, Eaton, Gratiot, Ingham, Ionia, Jackson, Kent and Montcalm counties. The average number of hunters per resident county from 2013 – 2017 who travelled to a CWD positive county ranged from 0 – 3832 per year (Fig. 2.3). A low number (i.e., low connectivity) of interstate hunters ranged from 0 – 1059 for the 5-year average, whereas a high number ranged from 1060 – 3832 (Fig. 2.3). Interstate hunting was quantified as the number of Michigan resident hunters who purchased an out-of-state license in Wisconsin between years 2013 – 2017 (i.e., nonresident license). For interstate connectivity, I found that average annual number of Michigan county residents that traveled to Wisconsin between 2013 –2017 was 0 – 170 per year (Fig. 2.4). A low number (i.e., low connectivity) of interstate hunters ranged from 0 – 39 for the 5-year average, whereas a high number ranged from 40 – 170 (Fig. 2.4).
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In 2017, the Michigan Department of Natural Resources (MDNR) detected CWD in a 3- year-old white-tailed doe submitted during an early season youth hunt (MDNR 2017). Additional surveillance in the area during 2017 identified 45 total CWD-positive animals in a concentrated disease focus in the west-central Lower Peninsula of Michigan within Kent and Montcalm counties. Nine previous CWD detections had occurred in the state in 2015 and 2016; however, the 2017 detections were the first evidence that CWD might be widespread and established within Michigan. Based on a single year of observation, predicting the area affected by the cluster of disease with distance benchmarks would likely fail to fully encapsulate the affected area. Furthermore, based on the sparsity of data, fitting complex disease models was not possible. Thus, there was an immediate need for an alternative approach that could more appropriately estimate the extent of CWD and identify locations at high risk using limited available information
archived
Prion protein polymorphisms in Michigan white-tailed deer (Odocoileus virginianus)
Caitlin N. Ott-ConnORCID Icon,Julie A. Blanchong &Wes A. Larson
Pages 183-190 | Received 22 Jul 2021, Accepted 01 Oct 2021, Published online: 09 Nov 2021
Download citation https://doi.org/10.1080/19336896.2021.1990628
ABSTRACT
Chronic Wasting Disease (CWD), a well-described transmissible spongiform encephalopathy of the Cervidae family, is associated with the aggregation of an abnormal isoform (PrPCWD) of the naturally occurring host prion protein (PrPC). Variations in the PrP gene (PRNP) have been associated with CWD rate of infection and disease progression. We analysed 568 free-ranging white-tailed deer (Odocoileus virginianus) from 9 CWD-positive Michigan counties for PRNP polymorphisms. Sampling included 185 CWD-positive, 332 CWD non-detected, and an additional 51 CWD non-detected paired to CWD-positives by sex, age, and harvest location. We found 12 polymorphic sites of which 5 were non-synonymous and resulted in a change in amino acid composition. Thirteen haplotypes were predicted, of which 11 have previously been described. Using logistic regression, consistent with other studies, we found haplotypes C (OR = 0.488, 95% CI = 0.321–0.730, P < 0.001) and F (OR = 0.122, 95% CI = 0.007–0.612, P < 0.05) and diplotype BC (OR = 0.340, 95% CI = 0.154–0.709, P < 0.01) were less likely to be found in deer infected with CWD. As has also been documented in other studies, the presence of a serine at amino acid 96 was less likely to be found in deer infected with CWD (P < 0.001, OR = 0.360 and 95% CI = 0.227–0.556). Identification of PRNP polymorphisms associated with reduced vulnerability to CWD in Michigan deer and their spatial distribution can help managers design surveillance programmes and identify and prioritize areas for CWD management.
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Results
PRNP sequences were determined for 568 free-ranging white-tailed deer from 9 CWD-positive Michigan counties. Of these samples, 185 were CWD-positive, 332 were CWD non-detected, and an additional 51 CWD non-detected were paired to CWD-positives to control for sex, age, and harvest location (Figure 1). Within the analysed 625bp region of the PRNP gene, we detected 12 single nucleotide polymorphisms (SNPs), 9 of which had been previously reported [22, 29, 33, 36, 38–41]. Of the 12 SNPs, 5 were non-synonymous, resulting in a change to the amino acid sequence (Table 1). BLAST and literature searches indicated that 589A/G, 642 G/A, and 643 C/A had not previously been reported. Full associated sequences have been deposited in GenBank under accession numbers MZ913400 – MZ913401.
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As CWD detections continue to increase the areas under surveillance, the use of regionally specific data to allocate testing efforts and funding will be pivotal for success. Identification of PRNP polymorphisms associated with reduced vulnerability to CWD and their spatial distribution and prevalence may help managers design surveillance programmes to identify and prioritize areas for CWD management when partnered with movement data and anticipated deposition of prions onto the landscape over time.
77. Assessing chronic wasting disease strain differences in free-ranging cervids across the United States
Kaitlyn M. Wagnera, Caitlin Ott-Connb, Kelly Strakab, Bob Dittmarc, Jasmine Battend, Robyn Piercea, Mercedes Hennessya, Elizabeth Gordona, Brett Israela, Jenn Ballarde and Mark D Zabela
aPrion Research Center at Colorado State University; bMichigan Department of Natural Resources; cTexas Parks and Wildlife Department; dMissouri Department of Conservation, 5. Arkansas Game and Fish Commission CONTACT Kaitlyn M. Wagner miedkait@rams.colostate.edu
ABSTRACT
Background/Introduction: Chronic wasting disease (CWD) is an invariably fatal prion disease affecting captive and free-ranging cervids, including white-tailed deer, mule deer, moose, elk, and reindeer. Since the initial description of the disease in the 1960’s, CWD has spread to 23 states, 3 Canadian Provinces, South Korea, Norway and, most recently, Finland. While some outbreaks of CWD were caused by transport of infected animals from endemic regions, the origin of CWD in other epizootics is unclear and has not been characterized. Previous studies have shown that there are two distinct strains of CWD. However, the continuous spread and the unclear origin of several outbreaks warrant continued surveillance and further characterization of strain diversity.
Materials and Methods: To address these knowledge gaps, we used biochemical tests to assess strain differences between CWD outbreaks in Michigan, Texas, Missouri, and Colorado, USA. Brain or lymph node samples were homogenized and digested in 50 µg/mL proteinase K (PK). These samples were then run on a Western blot to assess glycoform ratio and electrophoretic mobility. Texas samples were digested in 100 µg/mL PK. To assess conformational stability, brain or lymph node homogenates were incubated in increasing concentrations of guanidine hydrochloride from 0 M to 4 M in 0.5 M increments. Samples were then precipitated in methanol overnight, washed and PK digested in 50 µg/mL PK before slot blotting.
Results: Our results have found significant differences in glycoform ratio between CWD from Michigan and Colorado, but no differences were observed in conformational stability assays. Interestingly, when testing our CWD isolates from Texas to analyse electrophoretic mobility and glycoform ratio, we found that these samples did not exhibit the characteristic band shift when treated with PK, but PK resistant material remained. Additionally, results from our conformational stability assay demonstrate a unique profile of these Texas isolates. Testing of samples from Missouri is currently underway.
Conclusions: Thus far, our data indicate that there are strain differences between CWD circulating in Michigan and CWD in Colorado and provide important insight into CWD strain differences between two non-contiguous outbreaks. We have also identified a unique strain of CWD in Texas with biochemical strain properties not seen in any of our other CWD isolates. These results highlight the importance of continued surveillance to better understand this devastating disease. These results have important implications for CWD emergence, evolution and our understanding of prion strain heterogeneity on the landscape.
Special Surveillance Area (SSA) Counties for Farmed Deer
Calhoun (CA)
Clinton (CN)
Dickinson (DK)
Eaton (ET)
Gratiot (GT)
Hillsdale (HD)
Ingham (IN)
Ionia (IO)
Jackson (JK)
Kent (KN)
Lenawee (LN)
Livingston (LV)
Mecosta (MT)
Menominee (MO)
Montcalm (MT)
Newaygo (NW)
Saginaw (SG)
Shiawassee (SH)
Washtenaw (WA)
SSAs as of December 18, 2019
SSAs are established when a free-ranging or farmed deer is identified with chronic wasting disease.
Contact the Michigan Department of Agriculture and Rural Development’s Cervid Program at MDARD-Cervid@Michigan.gov or 517-284-5679.
Expanding Distribution of Chronic Wasting Disease ACTIVE
By National Wildlife Health Center February 5, 2022
Michigan CWD Testing Results Deer Harvested in 2021 Statewide Total 22 Positive To Date For Year in Wild
CWD Testing Results for Deer Harvested in 2021
Test results updated as of December 13, 2021.
Totals reflected in this update only include those with final test results.
Deer with pending results are not included in these totals.
Zone Total Tested Number Positive
UP CWD Core Surveillance Area 193 0
South Isabella + Gratiot 749 3
South Jackson 855 12
Totals 1797 15
Testing numbers above are part of the county totals in the larger table below.
County Name Total Tested Number Positive
Allegan 290 0
Barry 150 0
Berrien 77 0
Branch 104 0
Calhoun 139 0
Cass 64 0
Eaton 82 0
Hillsdale 204 0
N. Jackson 135 0
Kalamazoo 196 0
Lenawee 118 0
Livingston 68 0
Macomb 13 0
Monroe 34 0
Oakland 43 0
St. Joseph 81 0
Van Buren 155 0
Washtenaw 178 0
Wayne 9 0
Total to date 2106 0
These counties are open for hunter service testing November 15-18 ONLY. There are no surveillance goals.
County Name Total Tested Number Positive
Clinton 45 0
Dickinson (non-core) 3 0
Ingham 32 0
Ionia 35 1
Kent 47 1
Montcalm 53 5
Total to date 215 7 Deer tested in remainder of state 113 0 Positive
Statewide Total 3865 22 Positive
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Michigan MDARD Chronic Wasting Disease Confirmed in Two Farmed Elk from Kent County
For immediate release: November 18, 2021 Media contact: Chelsea Lewis-Parisio, 517-331-1151
MDARD: Chronic Wasting Disease Confirmed in Two Farmed Elk from Kent County
LANSING, MI – Today, the Michigan Department of Agriculture and Rural Development (MDARD) confirmed two cases of chronic wasting disease (CWD) in elk from a farmed cervid facility in Kent County. The two infected elk, a two-and-a-half-year-old and a three-and-a-half-year-old, were discovered through disease tracing efforts that resulted from finding CWD in a different Michigan farmed cervid herd. These are the first cases of CWD in Michigan elk.
CWD is a fatal neurological disease that affects different cervid species, including white-tailed deer, mule deer, elk, and moose. The disease can be transmitted directly from one animal to another and indirectly through the environment. While an infected animal may appear healthy for months or years, it will eventually display abnormal behavior, progressive weight loss, and physical debilitation in the latter stages of the disease.
“The discovery of chronic wasting disease in elk housed at a facility linked to a positive animal is not surprising,” said State Veterinarian Dr. Nora Wineland, DVM. “MDARD’s main priority is to limit the spread of this disease by working together with other state departments, farmers, and ranchers. These findings underscore how important it is to pay attention to CWD and the movement of animals that may allow the disease to spread.”
The presence of CWD in farmed cervid facilities and free-ranging deer is not new to Michigan. Since 2008, including these new cases, CWD has been detected at nine Michigan cervid farms in the following counties: Kent (2), Mecosta (3), Montcalm (3), and Newaygo.
No wild elk have tested positive for CWD in Michigan. The disease was first discovered in free-ranging deer in May 2015; cases have been found across nine counties in Michigan’s Upper and Lower Peninsulas. To date, 37 free-ranging white-tailed deer have tested positive for CWD in Kent County.
As part of MDARD’s disease response, investigations are ongoing to rule out any possible exposure to other farmed cervids.
Currently, there have been no reported cases of CWD infection in humans. However, as a precaution, the U.S. Centers for Disease Control and the World Health Organization recommend that animals that have tested positive for CWD should not be consumed as food by either humans or domestic animals.
More information about CWD can be found at http://Michigan.gov/CWD or http://Michigan.gov/MDARD-Cervid.
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Michigan CWD TSE Prion TOTAL WILD CERVID 220 POSITIVE TO DATE, CAPTIVE CWD TOTAL???
PERSONAL COMMUNICATION DNR...see;
Mon, Aug 9, 2021 11:46 am
''The interactive hot map you are referencing is updated regularly, at least once a month, but even more regularly during hunting season as that is when we receive most samples and theoretical positives. All 209 animals to date are wild. No captive cervid deer are listed in our testing metrics because they fall into a different category of management as overseen by Michigan Department of Agriculture and Rural Development (MDARD). Because they are captive they are treated as domestic animals – same as cows, horses, and pigs. If you were inquiring about CWD+ private cervids you will have to reach out to them as we don’t so much focus on total individuals positive as we do positive herds and locations (which again they would be best to ask).'' ''Our 2021 testing totals account for 11 positives this year, all USDA-APHIS or Disease Permit culled animals in Gratiot (3) and Jackson (8) counties. I am digging into when the interactive map was last updated now, but at a worst that would but our total positive at 220 over Michigan’s history of testing if it hadn’t been recently updated (which is possible as USDA-APHIS shooting just recently started up again in July after a multi-month break).''
YOU can see CWD here;
archived link;
Where has chronic wasting disease (CWD) been found in Michigan?
Since the initial finding of CWD on May 20, 2015, free-ranging deer in Clinton, Dickinson, Eaton, Gratiot, Ingham, Ionia, Jackson, Kent and Montcalm counties have been positively confirmed with CWD. Please visit Michigan.gov/CWD for more information on CWD and the latest news and testing updates. See pages 56-57 and 61-62 for important regulations pertaining to CWD.
Assessing drivers of spread and transmission of Chronic Wasting Disease in Michigan deer
Primary Contact: Dr. Dwayne Etter, DNR Wildlife Division, Lansing, Michigan
Email: etterd@michigan.gov
Phone: (517) 284-4720
DNR Financial Support: $120,149 in FY19, $502,737 total.
Study Area: South-central Lower Peninsula
Time Frame: 10/1/2017-9/30/2022
Abstract:
The occurrence of chronic wasting disease (CWD) in Michigan challenges the foundations of wildlife conservation, both in the short term and perhaps more significantly in the longer term. In the short term, CWD is causing reallocation of precious financial and staff-time resources and will be widely disruptive to existing programs of the Michigan Department of Natural Resources (DNR). In the longer term, diseases such as CWD pose a threat to the financial cornerstone of fisheries and wildlife programs because sales of deer hunting licenses represent a large proportion of annual revenue for the Division of Wildlife. Recognizing these threats, the Division of Wildlife included wildlife disease in its Guiding Principles and Strategies (Objective 1.3: monitor and preserve the health of Michigan’s wildlife) and prepared a comprehensive Surveillance and Response Plan for Chronic Wasting Disease of Free-ranging and Privately Owned Cervids.
Chronic wasting disease is a transmissible spongiform encephalopathy that infects North American cervids including white-tailed deer (Williams 2005). The infectious agent of CWD is a misfolded protein, a prion, which accumulates in the brainstem and lymphatic tissue of infected animals and results in neurodegeneration and eventual death. In states where CWD is established it has emerged as a major threat, reducing the health of populations and causing long-term population decline (Edmunds et al. 2016, Gross and Miller 2001, Manjerovic et al. 2014).
The discovery of CWD in Michigan creates an immediate need for population monitoring and surveillance of at-risk deer populations. Since 2015, nine infected individuals have been identified following collection through state surveillance efforts, representing key successes in targeted disease management. However, the continued discovery of infected individuals in 2016 suggests a high likelihood that additional infected individuals remain on the landscape. The occurrence of a small number of infected animals across a relatively small geographic region in mid-Michigan indicates that the disease is still emerging.
What distinguishes the research proposed here from extensive work done in other states is that CWD is still in an emergent phase in Michigan. Michigan discovered the disease early during a time when transmission of the disease may be more dependent on the density of deer on the landscape because most infections are through direct contact of infected animals with susceptible individuals. This situation is similar only to New York and Minnesota. In all other states where CWD has been discovered, the disease was already well established, and transmission included infection mediated by contact of susceptible individuals with severely contaminated environments. Our research in Michigan is intended to explore management options for the control of an emerging occurrence of CWD through better understanding of behavior and population dynamics of deer inhabiting areas of known infection.
The goal of this research is to improve the cost-efficiency of detecting CWD when it is still rare and removing animals from the landscape to control the spread of disease, by reducing contact among deer and potentially eliminating infectious animals. We intend to take a multi-pronged approach to accomplish this goal and the work described here will complement another study that seeks to develop new methods for detecting and removing diseased animals. The effort described here is designed to accumulate a dataset on movement behavior of deer that is of high temporal and spatial resolution to address questions about dispersal rates, directions and distances; evaluate hypotheses about environmental factors that are likely influences on dispersal behavior; parameterize risk maps of first-order contact for Michigan in concert with data and prior research in New York State; and create models of the interaction of landscape contexts (e.g., suburban, rural) and habitat characteristics that can be used to direct hunters and biologists to increase the efficiency of surveillance and removal actions. Our objectives address the strategic plans set forth by the Michigan DNR to “1.3.1: Develop and implement strategies to prevent and control diseases before they occur; 1.3.2: Respond to wildlife disease outbreaks; 1.3.4: Conduct research and monitoring to provide information to make management recommendations regarding wildlife disease; 1.3.5: Raise awareness regarding current and emerging wildlife health issues; and 1.3.6: Work with State and Federal agencies, and stakeholders to address wildlife health issues.”
12 IC4117 (Rev. 02/02/2021)
control of an emerging occurrence of CWD through better understanding of behavior and population dynamics of deer inhabiting areas of known infection.
The goal of this research is to improve the cost-efficiency of detecting CWD when it is still rare and removing animals from the landscape to control the spread of disease, by reducing contact among deer and potentially eliminating infectious animals. We intend to take a multi-pronged approach to accomplish this goal and the work described here will complement another study that seeks to develop new methods for detecting and removing diseased animals. The effort described here is designed to accumulate a dataset on movement behavior of deer that is of high temporal and spatial resolution to address questions about dispersal rates, directions and distances; evaluate hypotheses about environmental factors that are likely influences on dispersal behavior; parameterize risk maps of first-order contact for Michigan in concert with data and prior research in New York State; and create models of the interaction of landscape contexts (e.g., suburban, rural) and habitat characteristics that can be used to direct hunters and biologists to increase the efficiency of surveillance and removal actions.
Our objectives address the strategic plans set forth by the Michigan DNR to “1.3.1: Develop and implement strategies to prevent and control diseases before they occur; 1.3.2: Respond to wildlife disease outbreaks; 1.3.4: Conduct research and monitoring to provide information to make management recommendations regarding wildlife disease; 1.3.5: Raise awareness regarding current and emerging wildlife health issues; and 1.3.6: Work with State and Federal agencies, and stakeholders to address wildlife health issues.”
Management of Chronic Wasting Disease in Michigan
Primary Contact: Dr. Kelly Straka, DNR Wildlife Division, Lansing, Michigan
Email: StrakaK1@michigan.gov
Phone: (517) 336-5030
DNR Financial Support: $50,000 in FY19, $250,000 total.
Study Area: Statewide.
Time Frame: 10/01/2016-09/30/2022
Abstract: Chronic Wasting Disease (CWD) is a transmissible spongiform encephalopathy that infects North American cervids including white-tailed deer (Williams 2005). The infectious agent of CWD is a misfolded protein, a prion, that accumulates in the brainstem and lymphatic tissue of infected animals and results in neurodegeneration and eventual death. In states where CWD is established, it has emerged as a major threat, reducing the health of populations and causing long-term population decline (Edmunds et. al. 2016, Gross and Miller 2001, Manjerovic et. al. 2014). 15 IC4117 (Rev. 02/02/2021)
The occurrence of CWD in Michigan challenges the foundations of wildlife conservation, both in the short term and perhaps more significantly in the longer term. In the short term, CWD is causing reallocation of precious financial and staff-time resources and will be widely disruptive to existing programs. In the longer term, diseases such as CWD pose a threat to the financial cornerstone of fisheries and wildlife programs because sales of deer hunting licenses represent such a large proportion of annual revenue. Recognizing these threats, the Wildlife Division included wildlife disease in its Guiding Principles and Strategies (Objective 1.3: Monitor and preserve the health of Michigan’s wildlife) and prepared a comprehensive Surveillance and Response Plan for Chronic Wasting Disease of Free-ranging and Privately Owned Cervids.
The discovery of CWD in Michigan creates an immediate need for tools that better assess the return-oninvestment of funds for surveillance and management of CWD. We propose building on risk assessment and modeling that was previously developed during a CWD outbreak in New York. There, we showed how costs of CWD containment could be reduced dramatically by using risk modeling procedures and mapping areas where management action would have the greatest impact on disease control (Williams et. al. 2014). We plan to expand on those efforts by adapting them to Michigan and drawing on newly emerging tools for population estimation and risk analysis procedures that we have been using on other research (e.g., local-scale monitoring of deer populations using distance sampling and evaluation of wild turkey harvest regulations using statistical risk modeling).
Our objectives address the strategies set forth in the Wildlife Division’s Guiding Principles and Strategies to “1.3.1: Develop and implement strategies to prevent and control diseases before they occur, 1.3.2: Respond to wildlife disease outbreaks, 1.3.4: Conduct research and monitoring to provide information to make management recommendations regarding wildlife disease, 1.3.5: Raise awareness regarding current and emerging wildlife health issues and 1.3.6: Work with State and Federal agencies and stakeholders to address wildlife health issues.” Specifically, we will provide managers with decision tools to: (1) evaluate the risk of spread of disease against the geographic extent of management action and attendant financial and political costs, (2) evaluate management alternatives to control CWD and assess the risk of local cases of CWD transitioning from emergent status to established status (where the disease becomes a self-sustaining reservoir within a population) and (3) monitor management outcomes for deer population abundance and disease prevalence.
Quantifying Upper Peninsula deer movements and abundance: preparing for CWD management
Primary Contact: Dr. Dean Beyer Jr., DNR Wildlife Division, Marquette, Michigan
Email: beyerd@michigan.gov
Phone: (906) 228-6561
DNR Financial Support: $117,759 in FY19, $613,001 total.
Study Area: Upper Peninsula
Time Frame: 10/1/2017-9/30/2021
Abstract:
Chronic wasting disease (CWD) occurs in free-ranging white-tailed deer in Lower Michigan, and in our neighboring state of Wisconsin where the disease is endemic. Although wildlife managers have not documented CWD in the Upper Peninsula, managers found infected deer in two Wisconsin captive cervid facilities near the Michigan border. Officials identified the disease in a facility in Oneida County, Wisconsin, about 40 km from our Iron County border and a second positive deer in Oconto County, Wisconsin, about 50 km from our Menominee County border.
While it is not possible to predict if or when we will find CWD in the Upper Peninsula, preparations seem prudent. A scientifically based understanding of deer movements and estimates of population abundance are critical for developing management recommendations in response to CWD. Deer movements and abundance can influence the probability of disease occurrence, contact rates which can affect transmission rate, and geographic extent of an outbreak (e.g., Oyer et al. 2007, Skult et al. 2008, Webb et al. 2010). Importantly, these data take time to gather and managers need this information at the time of first discovery. Thus, waiting for a disease outbreak before gathering these data would put managers at a disadvantage. Important deer movements to understand include seasonal home ranges, migration (especially important in the Upper Peninsula), dispersal, transient, and exploratory.
Information on these movements would inform decisions on identification of CWD management zones. The current strategy is to establish a 16-km radius circle around the location of an infected cervid and include entire counties whose boundaries intersect this circle as part of the CWD management zone. Further, if results from local population surveys or other credible scientific data suggest that cervids from within the radius are likely to move beyond the management zone boundary, the boundary should be expanded accordingly. In the Upper Peninsula, deer can seasonally migrate 50 km (Van Deelen et al. 1998), with overall movements exceeding 80 km (Doepker et al. 2015). These migratory movements, as well as other movements (e.g., dispersal), are currently unknown and certainly not aligned with or contained within county boundaries. Although some information exists on deer movements in the UP, most of this work relied on tag returns that do not provide the needed level of spatial and temporal resolution to inform management responses to a disease outbreak.
Consequently, If CWD was detected in the UP, large areas would likely be under surveillance and management that would not contain infected deer and large areas with potential for infected deer would not be within the prescribed surveillance zone, rendering the current management zone less effective. The Upper Peninsula Region (UPR), Biological and Social Sciences Section (BSSS), Wildlife Health Section (WHS), and Mississippi State University (MSU) wish to develop a program to address the need for information on deer movements. The core work would entail deploying GPS collars on deer in select wintering complexes and conditional winter range (starting along WI border) and documenting movements over three years. To complete the capture and collaring work, we would work cooperatively with interested sportspersons.
archived link;
WEDNESDAY, SEPTEMBER 01, 2021
Michigan CWD TSE Prion 211 Cases To Date
Michigan CWD TSE Prion 211 Cases To Date
Deer Tested for Chronic Wasting Disease Since Detection of First Positive Free-ranging Deer (May 2015)
https://www.michigan.gov/emergingdiseases/0,4579,7-186-76711_78204-357110--,00.html Total Deer Tested and Total Positives Cases CWD Testing Results for Deer Harvested in 2020 CWD Testing Results for Deer Harvested in 2019 CWD Testing Results for Deer Harvested in 2018 Michigan Lower Peninsula townships where free-ranging deer have tested positive for CWD https://www.michigan.gov/emergingdiseases/0,4579,7-186-76711_78204-357110--,00.html
Chronic Wasting Disease (CWD) Surveillance Chronic wasting disease (CWD) is a transmissible neurological disease found in deer and elk populations that produces small lesions in brains of infected animals. As a result, CWD causes weight loss and a decline in body control. It is a species-specific disease, and there have been no cases in humans or other animals.
Currently, to determine the presence of CWD, brain and lymph node samples are taken by an accredited veterinarian after an animal dies. These samples are then submitted for testing.
As part of their operations, all privately-owned cervid (POC) facilities in Michigan are required to submit samples. The number of samples that must be submitted depends on what specific program that a producer participates in: the Chronic Wasting Disease Herd Certification Program (CWD HCP) or the Surveillance Program.
First, for the CWD HCP, all cervids 12 months of age and older that die for any reason must be tested for CWD.
Second, all facilities that are not a part of the CWD HCP must participate in the Surveillance Program. The Surveillance Program requires that all animals 12 months of age and older that die from illness, injury, or euthanasia due to disease must be tested for CWD. In addition, 25% of cervids slaughtered, hunted, or culled must be tested. This number is calculated on an annual basis. In general, all facilities that have at least one death must test at least this one animal.
Samples for either of these programs can be submitted to a private veterinarian, the Michigan State University Veterinary Diagnostic Lab, or an MDARD drop off location.
For more information, contact the MDARD Cervid Program.
Special Surveillance Area (SSA) If a free-ranging or privately-owned cervid (POC) tests positive for chronic wasting disease (CWD), then a buffer circle is created around that positive animal. This buffer circle is referred to as a Special Surveillance Area (SSA). POC facilities that fall within a SSA will have increased CWD testing requirements.
More specifically, if a free-ranging cervid is found to be positive for CWD, a 15-mile radius circle is created around the positive animal. And, if a POC is found to be positive for CWD, a 5-mile radius circle is created around the positive animal. Further, for both cases, the SSA extends to the entirety of the county of the infected animal and any county that the 15-mile or 5-mile circle touches.
For a complete list of counties that are included within a particular SSA, please review the map below.
Livestock Diseases:
Disease Species Number of Animals
CWD (Chronic Wasting Disease) Cervid 46
Number of herds involved in special surveillance zones around CWD positive free-ranging deer 84 84
MDARD CWD Confirmed at Farmed Deer Facilities in Mecosta and Montcalm Counties
... Rural Development (MDARD) has confirmed two cases of chronic wasting disease (CWD) at two separate farmed deer facilities, one ... 123 free-ranging deer from Montcalm County. "Since chronic wasting disease can significantly impact all Michigan deer, it is ...
MDARD CWD Identified in Newaygo County Farmed Deer
... Agriculture and Rural and Development (MDARD) has confirmed chronic wasting disease (CWD) in three white-tailed deer from a ... rule out exposure of any other farmed deer. "Chronic wasting disease is a serious disease affecting both farmed and ...
MDARD CWD identified in a Montcalm County farmed deer
... Rural Development (MDARD) has confirmed a case of chronic wasting disease (CWD) in a four-year-old white-tailed ... 123 free-ranging deer in Montcalm County. "As chronic wasting disease affects both farmed and free-ranging deer, MDARD ...
Michigan CWD Confirmed at Farmed Deer Facilities in Mecosta and Montcalm Counties
CWD Confirmed at Farmed Deer Facilities in Mecosta and Montcalm Counties
For immediate release: August 11, 2021 Media contact: Jennifer Holton, 517-284-5724
LANSING, MI - The Michigan Department of Agriculture and Rural Development (MDARD) has confirmed two cases of chronic wasting disease (CWD) at two separate farmed deer facilities, one in Mecosta County and one in Montcalm County. The two infected deer, a two-year-old and a four-year-old, were discovered through routine testing as part of the state's CWD surveillance program for farmed deer.
CWD is a fatal neurological disease that affects white-tailed deer, mule deer, elk, and moose. The disease can be transmitted directly from one animal to another, as well as indirectly through the environment. While an infected deer may appear healthy for months or years, it will eventually display abnormal behavior, progressive weight loss, and physical debilitation in the latter stages of the disease.
The presence of CWD in farmed and free-ranging deer is not new to Michigan. Since 2008, and including these new cases, CWD has been detected at eight Michigan deer farms in the following counties: Kent, Mecosta (3), Montcalm (3), and Newaygo.
With free-ranging deer, CWD was first discovered in May 2015, and cases have been found across nine counties in Michigan's Upper and Lower Peninsulas. To date, while no free-ranging white-tailed deer have tested positive for CWD in Mecosta County, the disease has been detected in 123 free-ranging deer from Montcalm County.
"Since chronic wasting disease can significantly impact all Michigan deer, it is vitally important to detect the disease as early as possible," said State Veterinarian Nora Wineland, DVM. "Early detection allows MDARD and the Michigan Department of Natural Resources to work in collaboration with farmers and hunters to stem the spread and manage this serious disease."
As part of MDARD's disease response, investigations are being conducted to rule out exposure to any other farmed deer.
Currently, there have been no reported cases of CWD infection in humans. However, as a precaution, the U.S. Centers for Disease Control and the World Health Organization recommend that infected animals should not be consumed as food by either humans or domestic animals.
More information about CWD can be found at Michigan.gov/CWD or Michigan.gov/MDARD-Cervid.
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https://www.michigan.gov/mdard/0,4610,7-125--565732--,00.html
CWD identified in a Montcalm County farmed deer
For immediate release: March 12, 2021 Media contact: Jessy Sielski, 517-331-1151
LANSING, MI - The Michigan Department of Agriculture and Rural Development (MDARD) has confirmed a case of chronic wasting disease (CWD) in a four-year-old white-tailed deer from a Montcalm County deer farm. The case was found through samples that were submitted for routine testing as part of the state's CWD surveillance program for farmed deer.
CWD is a fatal neurological disease that affects white-tailed deer, mule deer, elk, and moose. CWD can be transmitted directly from one animal to another, as well as indirectly through the environment. While an infected deer may appear healthy for months or years, it will eventually display abnormal behavior, progressive weight loss, and physical debilitation in the latter stages of the disease.
The discovery of CWD in farmed and free-ranging deer is not new to the state of Michigan. Since 2008, and including this new case, CWD has been detected at six Michigan deer farms in the following counties: Kent, Mecosta (2), Montcalm (2), and Newaygo.
With free-ranging deer, CWD was first discovered in May 2015, and cases have been found across nine counties in both the Upper and Lower Peninsulas. To date, CWD has been detected in 123 free-ranging deer in Montcalm County.
"As chronic wasting disease affects both farmed and free-ranging deer, MDARD works in partnership with the Michigan Department of Natural Resources and the state's deer farmers to detect and manage this serious disease," said State Veterinarian Nora Wineland, DVM. "Due to the nature of the disease, it is imperative that farmers, hunters, DNR, and MDARD continue to work in collaboration to protect all of Michigan's deer."
As part of MDARD's disease response, an investigation will be conducted to rule out exposure of any other farmed deer.
Currently, there have been no reported cases of CWD infection in humans. However, as a precaution, the U.S. Centers for Disease Control and the World Health Organization recommend infected animals not be consumed as food by either humans or domestic animals.
More information about CWD can be found at Michigan.gov/CWD or Michigan.gov/MDARD-Cervid.
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APPENDIX A: 2020 REPORTABLE DISEASES
Livestock Diseases:
CWD (Chronic Wasting Disease) Cervid 46
CWD Identified in Newaygo County Farmed Deer
For Immediate Release: January 14, 2020 Media Contact: Jessy Sielski, 517-284-5725
LANSING, MI - The Michigan Department of Agriculture and Rural and Development (MDARD) has confirmed chronic wasting disease (CWD) in three white-tailed deer from a Newaygo County deer farm. All three deer were four-and-a-half years old. The samples were submitted for routine testing as part of the state's CWD surveillance program for farmed deer.
To date, CWD has not been detected in free-ranging deer in Newaygo County. As part of MDARD's disease response, an investigation will be conducted to rule out exposure of any other farmed deer.
"Chronic wasting disease is a serious disease affecting both farmed and free-ranging deer," said State Veterinarian Nora Wineland, DVM. "MDARD and the Michigan Department of Natural Resources work together, in partnership with the state's deer farmers, to ensure the protection of all of Michigan's deer."
Since 2008, CWD has been detected in four additional privately-owned cervid facilities from Kent, Mecosta, and Montcalm Counties. The deer farm in Newaygo County is the fifth Michigan farm in which CWD has been detected.
CWD is a fatal neurological disease that affects white-tailed deer, mule deer, elk, and moose. CWD can be transmitted directly from one animal to another, as well as indirectly through the environment. Infected animals may display abnormal behavior, progressive weight loss and physical debilitation. To date, there have been no reported cases of CWD infection in humans. However, as a precaution, the U.S. Centers for Disease Control and the World Health Organization recommend that infected animals not be consumed as food by either humans or domestic animals.
More information about CWD can be found at Michigan.gov/CWD.
Total Deer Tested and Total Positives Cases CWD Testing Results for Deer Harvested in 2020 CWD Testing Results for Deer Harvested in 2019 CWD Testing Results for Deer Harvested in 2018 Michigan Lower Peninsula townships where free-ranging deer have tested positive for CWD
Greenville man charged with violating CWD deer requirements
By Elisabeth Waldon | on February 03, 2021
Eric Snyder
EUREKA TOWNSHIP — A Greenville man is facing half a dozen charges related to his alleged improper handling of deer with chronic wasting disease (CWD).
Eric David Snyder, 51, is charged with three counts of animal industry acts (privately owned cervidae) two counts of animal industry acts (felony violation) and one count of animals burial.
According to Montcalm County Prosecutor Andrea Krause, the alleged crimes occurred between March 2019 and February 2020. The Department of Natural Resources investigated, however, Snyder wasn’t charged until December 2020 and he wasn’t arraigned until Jan. 21. Krause said the coronavirus pandemic likely played a role in the delay.
According to Krause, Snyder owned Fieldview Whitetails, a deer farm/ranch in Eureka Township.
“He had a deer test positive for CWD,” Krause said. “(Snyder) dumped the deer outside the farm in violation of the law. He also violated a quarantine of the other deer he had on his farm.”
A deer with CWD in Montcalm County was discovered in October 2017 and as a precaution in January 2018, all privately owned deer facilities were put into mandatory quarantine if they were within 15 miles of a deer that tested positive, according to Krause. In March 2019, a deer at Snyder’s farm was discovered to have CWD, and a follow-up investigation later that month discovered the alleged violations at the farm, according to Krause.
Snyder is being represented by attorney Jeff Crampton. If convicted, Snyder faces to from 90 days to five years prison and/or fines and costs.
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SUNDAY, JANUARY 22, 2023
Michigan Chronic Wasting Disease CWD TSE Prion Totals Since 2015 To Present 242 Confirmed Cases
THURSDAY, APRIL 14, 2022
Michigan’s 2021 deer seasons included targeted CWD surveillance, 25 positive deer
WEDNESDAY, NOVEMBER 10, 2021
Prion protein polymorphisms in Michigan white-tailed deer (Odocoileus virginianus)
WEDNESDAY, OCTOBER 27, 2021
Michigan shifts approach to monitor spread of deadly deer disease deer CWD TSE Prion 220 cases confirmed in WILD to date, captive?
FRIDAY, OCTOBER 22, 2021
Michigan CWD TSE Prion TOTAL WILD CERVID 220 POSITIVE TO DATE, CAPTIVE CWD TOTAL
MONDAY, JUNE 28, 2021
Michigan Total CWD Positive/Suspect Positive Deer 209 Cases To Date
FRIDAY, NOVEMBER 27, 2020
Michigan, to date, CWD TSE Prion has been detected in 197 cervid
SUNDAY, OCTOBER 11, 2020
Michigan Chronic Wasting Disease CWD TSE Prion increases to 191 positive to date
TUESDAY, SEPTEMBER 22, 2020
Michigan CWD TSE Prion 189 Positive To Date UPDATE September 2020
WEDNESDAY, MARCH 25, 2020
Michigan CWD TSE Prion Total Suspect Positive Deer Moves Up To 188 with total deer tested 80,687 to date
THURSDAY, JANUARY 30, 2020
Michigan CWD TSE Prion Total Suspect Positive Deer Jumps To 181 to date
MONDAY, JANUARY 27, 2020
Michigan CWD TSE Prion MDARD 3 positive white-tailed deer from a Newaygo County deer farm depopulation and quarantine efforts update?
TUESDAY, JANUARY 14, 2020
Michigan MDARD has confirmed chronic wasting disease (CWD) in 3 white-tailed deer from a Newaygo County deer farm
TUESDAY, JANUARY 07, 2020
Michigan Total CWD TSE Prion Positive Suspect-Positive Deer Jump To 174 confirmed to date
THURSDAY, DECEMBER 12, 2019
Michigan Total CWD TSE Prion Positive Suspect-Positive Deer Jump To 162 confirmed to date
FRIDAY, NOVEMBER 22, 2019
Michigan Total CWD TSE Prion Positive/Suspect-Positive Deer 140 To Date
WEDNESDAY, NOVEMBER 06, 2019
Michigan Total CWD TSE Prion Positive, Suspect Positive, Deer 136 To Date
2019 CWD Testing Goals and Results as of October 18, 2019
THURSDAY, OCTOBER 24, 2019
Michigan DNR reports CWD-positive deer in Hamilton Township, Gratiot County
SATURDAY, OCTOBER 05, 2019
Michigan MSU SCIENTISTS ARE TESTING A FASTER WAY TO DETECT CHRONIC WASTING DISEASE
SUNDAY, SEPTEMBER 22, 2019
Michigan TWO MORE CWD TSE PRION POSITIVES Total Now At 124 Positive
TUESDAY, SEPTEMBER 17, 2019
Michigan House Bill 4687 State Legislators Turn To Draft Dodger Ted Nugent To Make Scientific Decisions over DNR on CWD TSE Prion
SATURDAY, AUGUST 24, 2019
Michigan Chronic Wasting Disease CWD TSE Prion Two More Cases Total 122 To Date https://chronic-wasting-disease.blogspot.com/2019/08/michigan-chronic-wasting-disease-cwd.html THURSDAY, MAY 23, 2019
Michigan Osceola County deer farm/ranch owner arraigned on several violations
THURSDAY, MAY 09, 2019
Michigan CWD TSE Prion increases to 120 Cases to Date
THURSDAY, MARCH 28, 2019
Michigan CWD Identified in a Montcalm County Farmed Deer
March 30, 2018
Contact: Lt. David Shaw, 616-218-3762
Mecosta County man sentenced following DNR investigation
Game ranch owner falsified information related to chronic wasting disease testing
A Mecosta County game ranch owner has been sentenced on charges resulting from an investigation by the Michigan Department of Natural Resources Law Enforcement Division, in cooperation with the Michigan Department of Agriculture and Rural Development.
Lester Jay Gemmen, 64, of Morley was charged with providing false information regarding the origin of two deer heads that were submitted for disease testing, and for failing to properly maintain fencing at the Super G Ranch. The ranch is a privately owned cervid (POC) facility, a designation that includes game ranches and hunting ranches.
He was sentenced by the 77th District Court to 60 days in jail for each count, ordered to pay $775 in fines and costs and must perform 80 hours of community service.
The investigation began in 2017 after two of the six deer heads submitted by Gemmen tested positive for chronic wasting disease (CWD).
“I commend the detectives from our Special Investigations Unit and our field conservation officers for their thorough, professional approach to this investigation,” said 1st Lt. David Shaw, supervisor of the Special Investigations Unit of the DNR Law Enforcement Division.
The facility’s remaining deer were depopulated and tested, but no further evidence of CWD was found. The facility remains under quarantine, currently preventing ownership of farmed cervids.
The Privately Owned Cervid Program is jointly managed by the DNR and MDARD. There is mandatory CWD testing in all registered herds in Michigan, under the oversight of MDARD. The DNR oversees POC registration and performs inspections of POC facilities. Proper maintenance of POC facilities is critical to protecting Michigan’s free-ranging and privately owned cervid herds.
CWD is a fatal central nervous system disease that affects white-tailed deer, mule deer, elk and moose. It attacks the brain of infected animals, creating small lesions in the brain, which result in death. It is transmitted through direct animal-to-animal contact or by contact with saliva, urine, feces, blood, carcass parts of an infected animal or infected soil. To date, there have been no reported cases of CWD infection in humans. However, as a precaution, the U.S. Centers for Disease Control and Prevention and the World Health Organization recommend that infected animals not be consumed as food by humans or domestic animals.
Since May 2015, CWD-positive deer have been found in Michigan. As of mid-March 2018, 57 free-ranging deer have tested positive for the disease. CWD has not been found in the Upper Peninsula, though it has been discovered in Wisconsin, approximately 40 miles from the western Upper Peninsula border.
The DNR is working with stakeholders to address the status of CWD in Michigan. In the coming weeks, the DNR and the Michigan Natural Resources Commission will host a series of public engagement meetings across the state on CWD. The sessions will provide hunters, business owners and residents with opportunities to share their ideas and observations.
In addition, the DNR, NRC and MDARD are evaluating recommendations from the CWD Working Group, which was created after last year’s CWD Symposium. The symposium brought national and international experts to Michigan to discuss CWD. During the coming months, the DNR, NRC and MDARD will work with stakeholders to develop new CWD regulation recommendations.
Visit www.michigan.gov/cwd for more information about the disease, preventive measures and the public meeting schedule.
2023 ENVIRONMENTAL AND ZOONOSIS FACTORS FOR CHRONIC WASTING DISESASE CWD TSE PrP
PRION CONFERENCE 2023 ENVIRONMENTAL FACTORS FOR CWD TSE PRION
CWD TSE PRION CERVID ENVIRONMENTAL RISK FACTORS 2023
"Additionally, we have determined that prion seeding activity is retained for at least fifteen years at a contaminated site following attempted remediation."
Detection of prions in soils contaminated by multiple routes
Stuart Siegfried Lichtenberg1,2 , Heather Inzalaco3 , Sam Thomas4 , Dan Storm5 , Dan Walsh6
1Department of Veterinary and Biomedical Sciences, University of Minnesota, St. Paul, Minnesota, U.S.A. 2Minnesota Center for Prion Research and Outreach, University of Minnesota, St. Paul, Minnesota, U.S.A. 3 Wisconsin Cooperative Wildlife Research Unit, Department of Forest and Wildlife Ecology, University of Wisconsin-Madison, Madison, Wisconsin, U.S.A 4Department of Soil Science, University of Wisconsin-Madison, Madison, Wisconsin, U.S.A. 5Wisconsin Department of Natural Resources, Eau Claire, Wisconsin, U.S.A. 6U.S. Geological Survey, Montana Cooperative Wildlife Research Unit, University of Montana, Missoula, Montana, U.S.A.
Aims: Free-ranging animals afflicted with transmissible spongiform encephalopathies frequently shed infectious prions into the broader environment. The quintessential example is chronic wasting disease, the TSE of cervids. Over the course of the disease, an infected animal will shed infectious prions in blood, urine, saliva, and feces. Upon death, the total prion load interred in the animal’s tissues will be deposited wherever the animal falls. This contamination creates substantial risk to naïve animals, and likely contributes to disease spread. Identification and quantification of prions at contamination hotspots is essential for any attempt at mitigation of environmental transmission.
Materials and Methods: Surfactant extraction of soils followed by precipitation yields a sample that is amenable to analysis by real-time quaking induced conversion. However, differences in extraction yield are apparent depending on the properties of the matrix from which the prions are being extracted, principally soil clay content.
Results: We are able to detect prion seeding activity at multiple types of environmental hotspots, including carcass sites, contaminated captive facilities, and scrapes (i.e. urine and saliva). Differences in relative prion concentration vary depending on the nature and source of the contamination.
Additionally, we have determined that prion seeding activity is retained for at least fifteen years at a contaminated site following attempted remediation.
Conclusions: Detection of prions in the environment is of the utmost importance for controlling chronic wasting disease spread. Here, we have demonstrated a viable method for detection of prions in complex environmental matrices. However, it is quite likely that this method underestimates the total infectious prion load in a contaminated sample, due to incomplete recovery of infectious prions. Further refinements are necessary for accurate quantification of prions in such samples, and to account for the intrinsic heterogeneities found in the broader environment.
Funded by: Wisconsin Department of Natural Resources
"Additionally, we have determined that prion seeding activity is retained for at least fifteen years at a contaminated site following attempted remediation."
=====end
The detection and decontamination of chronic wasting disease prions during venison processing
Marissa S. Milstein1,2, Marc D. Schwabenlander1,2, Sarah C. Gresch1,2, Manci Li1,2, Stuart Lichtenberg1,2, Rachel Shoemaker1,2, Gage R. Rowden1,2, Jason C. Bartz2,3 , Tiffany M. Wolf2,4, Peter A. Larsen1,2
Presenting author: Tiffany M. Wolf 1 Department of Veterinary and Biomedical Sciences, College of Veterinary Medicine, University of Minnesota, St. Paul, Minnesota, USA 2 Minnesota Center for Prion Research and Outreach, College of Veterinary Medicine, University of Minnesota, St. Paul, Minnesota, USA 3 Department of Medical Microbiology and Immunology, School of Medicine, Creighton University, Omaha, Nebraska, USA 4 Department of Veterinary Population Medicine, College of Veterinary Medicine, University of Minnesota, St. Paul, Minnesota, USA
Aims: There is a growing concern that chronic wasting disease (CWD) prions in venison pose a risk to human health. CWD prions accumulate in infected deer tissues that commonly enter the human food chain through meat processing and consumption. The United States (US) Food and Drug Administration and US Department of Agriculture now formally consider CWD-positive venison unfit for human and animal consumption. Yet, the degree to which prion contamination occurs during routine venison processing is unknown. Here, we use environmental surface swab methods to: a) experimentally test meat processing equipment (i.e., stainless steel knives and polyethylene cutting boards) before and after processing CWD-positive venison and b) test the efficacy of five different disinfectant types (i.e., Dawn dish soap, Virkon-S, Briotech, 10% bleach, and 40% bleach) to determine prion decontamination efficacy.
Materials and Methods: We used a real-time quaking-induced conversion (RT-QuIC) assay to determine CWD infection status of venison and to detect CWD prions in the swabs. We collected three swabs per surface and ran eight technical replicates on RT-QuIC.
Results: CWD prions were detected on all cutting boards (n= 3; replicates= 8/8, 8/8, 8/8 and knives (n= 3; replicates= 8/8, 8/8, 8/8) used in processing CWD-positive venison, but not on those used for CWD-negative venison. After processing CWD-positive venison, allowing the surfaces to dry, and washing the cutting board with Dawn dish soap, we detected CWD prions on the cutting board surface (n= 3; replicates= 8/8, 8/8, 8/8) but not on the knife (n= 3, replicates = 0/8, 0/8, 0/8). Similar patterns were observed with Briotech (cutting board: n= 3; replicates= 7/8, 1/8, 0/8; knife: n= 3; replicates = 0/8, 0/8, 0/8). We did not detect CWD prions on the knives or cutting boards after disinfecting with Virkon-S, 10% bleach, and 40% bleach.
Conclusions: These preliminary results suggest that Dawn dish soap and Briotech do not reliably decontaminate CWD prions from these surfaces. Our data suggest that Virkon-S and various bleach concentrations are more effective in reducing prion contamination of meat processing surfaces; however, surface type may also influence the ability of prions to adsorb to surfaces, preventing complete decontamination. Our results will directly inform best practices to prevent the introduction of CWD prions into the human food chain during venison processing.
Acknowledgement: Funding was provided by the Minnesota Environment and Natural Resources Trust Fund as recommended by the Legislative-Citizen Commission on Minnesota Resources (LCCMR), the Rapid Agriculture Response Fund (#95385/RR257), and the Michigan Department of Natural Resources.
Theme: Animal prion diseases
=====end
Prion 2023 Abstracts
***> Infectious agent of sheep scrapie may persist in the environment for at least 16 years
***> Nine of these recurrences occurred 14–21 years after culling, apparently as the result of environmental contamination, but outside entry could not always be absolutely excluded.
JOURNAL OF GENERAL VIROLOGY Volume 87, Issue 12
Infectious agent of sheep scrapie may persist in the environment for at least 16 years Free
Rapid recontamination of a farm building occurs after attempted prion removal
First published: 19 January 2019 https://doi.org/10.1136/vr.105054
The data illustrates the difficulty in decontaminating farm buildings from scrapie, and demonstrates the likely contribution of farm dust to the recontamination of these environments to levels that are capable of causing disease.
snip...
This study clearly demonstrates the difficulty in removing scrapie infectivity from the farm environment. Practical and effective prion decontamination methods are still urgently required for decontamination of scrapie infectivity from farms that have had cases of scrapie and this is particularly relevant for scrapiepositive goatherds, which currently have limited genetic resistance to scrapie within commercial breeds.24 This is very likely to have parallels with control efforts for CWD in cervids.
***>This is very likely to have parallels with control efforts for CWD in cervids.
Front. Vet. Sci., 14 September 2015 | https://doi.org/10.3389/fvets.2015.00032
Objects in contact with classical scrapie sheep act as a reservoir for scrapie transmission
In conclusion, the results in the current study indicate that removal of furniture that had been in contact with scrapie-infected animals should be recommended, particularly since cleaning and decontamination may not effectively remove scrapie infectivity (31), even though infectivity declines considerably if the pasture and the field furniture have not been in contact with scrapie-infected sheep for several months. As sPMCA failed to detect PrPSc in furniture that was subjected to weathering, even though exposure led to infection in sheep, this method may not always be reliable in predicting the risk of scrapie infection through environmental contamination.
172. Establishment of PrPCWD extraction and detection methods in the farm soil
Conclusions: Our studies showed that PrPCWD persist in 0.001% CWD contaminated soil for at least 4 year and natural CWD-affected farm soil. When cervid reintroduced into CWD outbreak farm, the strict decontamination procedures of the infectious agent should be performed in the environment of CWD-affected cervid habitat.
SUBJECT MATTER: Chronic Wasting Disease Carcass Disposal Dumpster Management and Biosecurity
BACKGROUND INFORMATION:
State and tribal wildlife agencies may identify collection points (dumpsters) within an identified chronic wasting disease (CWD) management zone for the disposal of hunter-harvested cervid carcasses to remove potentially infected carcasses off the landscape for disposal by an approved method (Gillin & Mawdsley, 2018, chap.14). However, depending on their placement and maintenance these dumpsters could potentially increase the risk of CWD transmission.
In several different states, photographic evidence has shown dumpsters in state identified CWD management zones overflowing with deer carcasses and limbs scattered on the land nearby. This could provide an opportunity for scavengers to potentially move infected carcass material to non-infected zones or increase contamination of the ground material around the dumpster’s location.
Federal guidance does not explicitly address uniform standards for collection locations for carcasses of free-ranging cervids; however, the United States Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services Program Standards on CWD outlines procedures for carcass disposal, equipment sanitation, and decontamination of premises for captive cervid facilities.
RESOLUTION:
The United States Animal Health Association urges the Association of Fish and Wildlife Agencies (AFWA), Wildlife Health Committee to further refine the AFWA Technical Report on Best Management Practices for Prevention, Surveillance, and Management of Chronic Wasting Disease; Chapter 14, Carcass Disposal to address the placement and management of chronic wasting disease carcass disposal dumpsters or other carcass collection containers.
Reference:
1. Gillin, Colin M., and Mawdsley, Jonathan R. (eds.). 2018. AFWA Technical Report on Best Management Practices for Surveillance, Management and Control of Chronic Wasting Disease. Association of Fish and Wildlife Agencies, Washington, D. C. 111 pp.
THE tse prion aka mad cow type disease is not your normal pathogen.
The TSE prion disease survives ashing to 600 degrees celsius, that’s around 1112 degrees farenheit.
you cannot cook the TSE prion disease out of meat.
you can take the ash and mix it with saline and inject that ash into a mouse, and the mouse will go down with TSE.
Prion Infected Meat-and-Bone Meal Is Still Infectious after Biodiesel Production as well.
the TSE prion agent also survives Simulated Wastewater Treatment Processes.
IN fact, you should also know that the TSE Prion agent will survive in the environment for years, if not decades.
you can bury it and it will not go away.
The TSE agent is capable of infected your water table i.e. Detection of protease-resistant cervid prion protein in water from a CWD-endemic area.
it’s not your ordinary pathogen you can just cook it out and be done with.
***> that’s what’s so worrisome about Iatrogenic mode of transmission, a simple autoclave will not kill this TSE prion agent. I’m thinking tools used to dress a deer, knives with wooden handles, carcass disposal, burial only 3ft, scavengers, exposure of Cwd to soil and surrounding area, plants intake, …I could go on…Terry
1: J Neurol Neurosurg Psychiatry 1994 Jun;57(6):757-8
***> Transmission of Creutzfeldt-Jakob disease to a chimpanzee by electrodes contaminated during neurosurgery.
Gibbs CJ Jr, Asher DM, Kobrine A, Amyx HL, Sulima MP, Gajdusek DC.
Laboratory of Central Nervous System Studies, National Institute of
Neurological Disorders and Stroke, National Institutes of Health,
Bethesda, MD 20892.
Stereotactic multicontact electrodes used to probe the cerebral cortex of a middle aged woman with progressive dementia were previously implicated in the accidental transmission of Creutzfeldt-Jakob disease (CJD) to two younger patients. The diagnoses of CJD have been confirmed for all three cases. More than two years after their last use in humans, after three cleanings and repeated sterilisation in ethanol and formaldehyde vapour, the electrodes were implanted in the cortex of a chimpanzee. Eighteen months later the animal became ill with CJD. This finding serves to re-emphasise the potential danger posed by reuse of instruments contaminated with the agents of spongiform encephalopathies, even after scrupulous attempts to clean them.
PMID: 8006664 [PubMed - indexed for MEDLINE]
New studies on the heat resistance of hamster-adapted scrapie agent: Threshold survival after ashing at 600°C suggests an inorganic template of replication
Prion Infected Meat-and-Bone Meal Is Still Infectious after Biodiesel Production
Detection of protease-resistant cervid prion protein in water from a CWD-endemic area
A Quantitative Assessment of the Amount of Prion Diverted to Category 1 Materials and Wastewater During Processing
Rapid assessment of bovine spongiform encephalopathy prion inactivation by heat treatment in yellow grease produced in the industrial manufacturing process of meat and bone meals
THURSDAY, FEBRUARY 28, 2019
BSE infectivity survives burial for five years with only limited spread
5 or 6 years quarantine is NOT LONG ENOUGH FOR CWD TSE PRION !!!
QUARANTINE NEEDS TO BE 21 YEARS FOR CWD TSE PRION !
You can take this communication from my old files with how ever many grains of salt you wish…Terry
FRIDAY, APRIL 30, 2021
Should Property Evaluations Contain Scrapie, CWD, TSE PRION Environmental Contamination of the land?
***> Confidential!!!!
***> As early as 1992-3 there had been long studies conducted on small pastures containing scrapie infected sheep at the sheep research station associated with the Neuropathogenesis Unit in Edinburgh, Scotland. Whether these are documented...I don't know. But personal recounts both heard and recorded in a daily journal indicate that leaving the pastures free and replacing the topsoil completely at least 2 feet of thickness each year for SEVEN years....and then when very clean (proven scrapie free) sheep were placed on these small pastures.... the new sheep also broke out with scrapie and passed it to offspring. I am not sure that TSE contaminated ground could ever be free of the agent!! A very frightening revelation!!!
---end personal email early BSE days---end...tss
and so it seems...
Scrapie Agent (Strain 263K) Can Transmit Disease via the Oral Route after Persistence in Soil over Years
Published: May 9, 2007
snip...
Our results showed that 263K scrapie agent can persist in soil at least over 29 months. Strikingly, not only the contaminated soil itself retained high levels of infectivity, as evidenced by oral administration to Syrian hamsters, but also feeding of aqueous soil extracts was able to induce disease in the reporter animals. We could also demonstrate that PrPSc in soil, extracted after 21 months, provides a catalytically active seed in the protein misfolding cyclic amplification (PMCA) reaction. PMCA opens therefore a perspective for considerably improving the detectability of prions in soil samples from the field.
snip...
Dr. Paul Brown Scrapie Soil Test BSE Inquiry Document
Trucking CWD TSE PrP
Friday, December 14, 2012
DEFRA U.K. What is the risk of Chronic Wasting Disease CWD being introduced into Great Britain? A Qualitative Risk Assessment October 2012
snip...
The rate of transmission of CWD has been reported to be as high as 30% and can approach 100% among captive animals in endemic areas (Safar et al., 2008).
snip...
In summary, in endemic areas, there is a medium probability that the soil and surrounding environment is contaminated with CWD prions and in a bioavailable form. In rural areas where CWD has not been reported and deer are present, there is a greater than negligible risk the soil is contaminated with CWD prion.
snip...
In summary, given the volume of tourists, hunters and servicemen moving between GB and North America, the probability of at least one person travelling to/from a CWD affected area and, in doing so, contaminating their clothing, footwear and/or equipment prior to arriving in GB is greater than negligible. For deer hunters, specifically, the risk is likely to be greater given the increased contact with deer and their environment. However, there is significant uncertainty associated with these estimates.
snip...
Therefore, it is considered that farmed and park deer may have a higher probability of exposure to CWD transferred to the environment than wild deer given the restricted habitat range and higher frequency of contact with tourists and returning GB residents.
snip...
http://webarchive.nationa...
Published: 06 September 2021
***> Chronic wasting disease: a cervid prion infection looming to spillover
Alicia Otero, Camilo Duque Velásquez, Judd Aiken & Debbie McKenzie
Veterinary Research volume 52, Article number: 115 (2021)
Detection of chronic wasting disease prions in processed meats
Rebeca Benavente1 , Francisca Bravo1,2, J. Hunter Reed3 , Mitch Lockwood3 , Glenn Telling4 , Rodrigo Morales1,2 1 Department of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; 2 Universidad Bernardo O’Higgins. Santiago, Chile; 3 Texas Parks and Wildlife Department, Texas, USA. 4 Prion Research Center, Department of Microbiology, Immunology, and Pathology, Colorado State University, Fort Collins, CO, USA
Aims: identify the presence of CWD prions in processed meats derived from elk.
Materials and Methods: In this study, we analyzed different processed meats derived from a CWD-positive (pre-clinical) free-ranging elk. Products tested included filets, sausages, boneless steaks, burgers, seasoned chili meats, and spiced meats. The presence of CWD-prions in these samples were assessed by PMCA using deer and elk substrates. The same analyses were performed in grilled and boiled meats to evaluate the resistance of the infectious agent to these procedures.
Results: Our results show positive prion detection in all the samples analyzed using deer and elk substrates. Surprisingly, cooked meats displayed increased seeding activities. This data suggests that CWD-prions are available to people even after meats are processed and cooked.
Conclusions: These results suggest CWD prions are accessible to humans through meats, even after processing and cooking. Considering the fact that these samples were collected from already processed specimens, the availability of CWD prions to humans is probably underestimated.
Funded by: NIH and USDA
Grant number: 1R01AI132695 and APP-20115 to RM
Acknowledgement: We would like to thank TPWD personnel for providing us with valuable samples
"Our results show positive prion detection in all the samples analyzed using deer and elk substrates. Surprisingly, cooked meats displayed increased seeding activities."
end...
PRION 2023 CONTINUED;
Fortuitous generation of a zoonotic cervid prion strain
Manuel Camacho, Xu Qi, Liuting Qing, Sydney Smith, Jieji Hu, Wanyun Tao, Ignazio Cali, Qingzhong Kong. Department of Pathology, Case Western Reserve University, Cleveland, USA
Aims: Whether CWD prions can infect humans remains unclear despite the very substantial scale and long history of human exposure of CWD in many states or provinces of USA and Canada. Multiple in vitro conversion experiments and in vivo animal studies indicate that the CWD-to-human transmission barrier is not unbreakable. A major long-term public health concern on CWD zoonosis is the emergence of highly zoonotic CWD strains. We aim to address the question of whether highly zoonotic CWD strains are possible.
Materials and Methods: We inoculated several sCJD brain samples into cervidized transgenic mice (Tg12), which were intended as negative controls for bioassays of brain tissues from sCJD cases who had potentially been exposed to CWD. Some of the Tg12 mice became infected and their brain tissues were further examined by Western blot as well as serial passages in humanized or cervidized mice.
Results: Passage of sCJDMM1 in transgenic mice expressing elk PrP (Tg12) resulted in a “cervidized” CJD strain that we termed CJDElkPrP. We observed 100% transmission of the original CJDElkPrP in transgenic mice expressing human PrP. We passaged CJDElkPrP two more times in the Tg12 mice. We found that such second and third passage CJDElkPrP prions retained 100% transmission rate in the humanized mice, despite that the natural elk CWD isolates and CJDElkPrP share the same elk PrP sequence. In contrast, we and others found zero or poor transmission of natural elk CWD isolates in humanized mice.
Conclusions: Our data indicate that highly zoonotic cervid prion strains are not only possible but also can retain zoonotic potential after serial passages in cervids, suggesting a very significant and serious long-term risk of CWD zoonosis given that the broad and continuing spread of CWD prions will provide fertile grounds for the emergence of zoonotic CWD strains over time.
Funded by: NIH Grant number: R01NS052319, R01NS088604, R01NS109532
Acknowledgement: We want to thank the National Prion Disease Pathology Surveillance Center and Drs. Allen Jenny and Katherine O'Rourke for providing the sCJD samples and the CWD samples used in this study, respectively
"Our data indicate that highly zoonotic cervid prion strains are not only possible but also can retain zoonotic potential after serial passages in cervids, suggesting a very significant and serious long-term risk of CWD zoonosis given that the broad and continuing spread of CWD prions will provide fertile grounds for the emergence of zoonotic CWD strains over time."
PRION 2023 CONTINUED;
A probable diagnostic marker for CWD infection in humans
Xu Qi, Liuting Qing, Manuel Camacho, Ignazio Cali, Qingzhong Kong. Department of Pathology, Case Western Reserve University, Cleveland, USA
Aims: Multiple in vitro CWD-seeded human PrP conversion experiments and some animal model studies indicate that the species barrier for CWD to human transmission can be overcome, but whether CWD prion can infect humans in real life remains controversial. The very limited understanding on the likely features of CWD infection in humans and the lack of a reliable diagnostic marker for identification of acquired human CWD cases contribute to this uncertainty. We aim to stablish such a reliable diagnostic marker for CWD infections in humans should they occur.
Materials and Methods: A couple of PrPSc-positive spleens were identified from humanized transgenic mice inoculated with either CWD or sCJDMM1. Prions in these spleens were compared by bioassays in cervidized or humanized transgenic mice. A couple of PrPSc-positive spleens from UK sCJDMM1 patients were also examined similarly as controls with no exposure to CWD.
Results: We have detected two prion-positive spleens in humanized transgenic mice inoculated with some CWD isolates. Such experimentally generated splenic “humanized” CWD prions (termed eHuCWDsp) appear indistinguishable from prions in the brain of sCJDMM1 patients on Western blot. We compared eHuCWDsp with prions in the spleen from humanized mice infected with sCJDMM1 (termed sCJDMM1sp) by bioassays in cervidized or humanized transgenic mice. Significantly, we found that eHuCWDsp can efficiently infect not only the humanized mice but also cervidized transgenic mice, and cervidized mice infected by eHuCWDsp produced PrPSc and brain pathology that are practically identical to those of CWD-infected cervidized mice. In contrast, sCJDMM1sp, similar to prions from sCJDMM1 patient brains, is poorly transmissible in the cervidized mice.
Conclusions: Our data demonstrate that high transmissibility with CWD features of splenic prions in cervidized transgenic mice is unique to acquired human CWD prions, and it may serve as a reliable marker to identify the first acquired human CWD cases.
Funded by: NIH Grant number: R01NS052319, R01NS088604, R01NS109532
Acknowledgement: We want to thank the National Prion Disease Pathology Surveillance Center and Drs. Allen Jenny and Katherine O'Rourke for providing the sCJD samples and the CWD samples used in this study, respectively.
=====end
PRION 2023 CONTINUED;
Prion 2023 Experimental Oronasal Inoculation of the Chronic Wasting Disease Agent into White Tailed Deer
Author list: Sarah Zurbuchena,b , S. Jo Moorea,b , Jifeng Biana , Eric D. Cassmanna , and Justin J. Greenleea . a. Virus and Prion Research Unit, National Animal Disease Center, ARS, United States Department of Agriculture, Ames, IA, US b. Oak Ridge Institute for Science and Education (ORISE), U.S. Department of Energy, Oak Ridge, TN, United States
Aims: The purpose of this experiment was to determine whether white-tailed deer (WTD) are susceptible to inoculation of chronic wasting disease (CWD) via oronasal exposure.
Materials and methods: Six male, neutered WTD were oronasally inoculated with brainstem material (10% w/v) from a CWD-positive wild-type WTD. The genotypes of five inoculated deer were Q95/G96 (wild-type). One inoculated deer was homozygous S at codon 96 (96SS). Cervidized (Tg12; M132 elk PrP) mice were inoculated with 1% w/v brainstem homogenate from either a 96GG WTD (n=10) or the 96SS WTD (n=10).
Results: All deer developed characteristic clinical signs of CWD including weight loss, regurgitation, and ataxia. The 96SS individual had a prolonged disease course and incubation period compared to the other deer. Western blots of the brainstem on all deer yielded similar molecular profiles. All deer had widespread lymphoid distribution of PrPCWD and neuropathologic lesions associated with transmissible spongiform encephalopathies. Both groups of mice had a 100% attack rate and developed clinical signs, including loss of body condition, ataxia, and loss of righting reflex. Mice inoculated with material from the 96SS deer had a significantly shorter incubation period than mice inoculated with material from 96GG deer (Welch two sample T-test, P<0.05). Serial dilutions of each inocula suggests that differences in incubation period were not due to a greater concentration of PrPCWD in the 96SS inoculum. Molecular profiles from western blot of brain homogenates from mice appeared similar regardless of inoculum and appear similar to those of deer used for inoculum.
Conclusions: This study characterizes the lesions and clinical course of CWD in WTD inoculated in a similar manner to natural conditions. It supports previous findings that 96SS deer have a prolonged disease course. Further, it describes a first pass of inoculum from a 96SS deer in cervidized mice which shortened the incubation period.
Funded by: This research was funded in its entirety by congressionally appropriated funds to the United States Department of Agriculture, Agricultural Research Service. The funders of the work did not influence study design, data collection, analysis, decision to publish, or preparation of the manuscript.
Acknowledgement: We thank Ami Frank and Kevin Hassall for their technical contributions to this project.
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PRION 2023 CONTINUED;
The detection and decontamination of chronic wasting disease prions during venison processing
Marissa S. Milstein1,2, Marc D. Schwabenlander1,2, Sarah C. Gresch1,2, Manci Li1,2, Stuart Lichtenberg1,2, Rachel Shoemaker1,2, Gage R. Rowden1,2, Jason C. Bartz2,3 , Tiffany M. Wolf2,4, Peter A. Larsen1,2
Presenting author: Tiffany M. Wolf 1 Department of Veterinary and Biomedical Sciences, College of Veterinary Medicine, University of Minnesota, St. Paul, Minnesota, USA 2 Minnesota Center for Prion Research and Outreach, College of Veterinary Medicine, University of Minnesota, St. Paul, Minnesota, USA 3 Department of Medical Microbiology and Immunology, School of Medicine, Creighton University, Omaha, Nebraska, USA 4 Department of Veterinary Population Medicine, College of Veterinary Medicine, University of Minnesota, St. Paul, Minnesota, USA
Aims: There is a growing concern that chronic wasting disease (CWD) prions in venison pose a risk to human health. CWD prions accumulate in infected deer tissues that commonly enter the human food chain through meat processing and consumption. The United States (US) Food and Drug Administration and US Department of Agriculture now formally consider CWD-positive venison unfit for human and animal consumption. Yet, the degree to which prion contamination occurs during routine venison processing is unknown. Here, we use environmental surface swab methods to: a) experimentally test meat processing equipment (i.e., stainless steel knives and polyethylene cutting boards) before and after processing CWD-positive venison and b) test the efficacy of five different disinfectant types (i.e., Dawn dish soap, Virkon-S, Briotech, 10% bleach, and 40% bleach) to determine prion decontamination efficacy.
Materials and Methods: We used a real-time quaking-induced conversion (RT-QuIC) assay to determine CWD infection status of venison and to detect CWD prions in the swabs. We collected three swabs per surface and ran eight technical replicates on RT-QuIC.
Results: CWD prions were detected on all cutting boards (n= 3; replicates= 8/8, 8/8, 8/8 and knives (n= 3; replicates= 8/8, 8/8, 8/8) used in processing CWD-positive venison, but not on those used for CWD-negative venison. After processing CWD-positive venison, allowing the surfaces to dry, and washing the cutting board with Dawn dish soap, we detected CWD prions on the cutting board surface (n= 3; replicates= 8/8, 8/8, 8/8) but not on the knife (n= 3, replicates = 0/8, 0/8, 0/8). Similar patterns were observed with Briotech (cutting board: n= 3; replicates= 7/8, 1/8, 0/8; knife: n= 3; replicates = 0/8, 0/8, 0/8). We did not detect CWD prions on the knives or cutting boards after disinfecting with Virkon-S, 10% bleach, and 40% bleach.
Conclusions: These preliminary results suggest that Dawn dish soap and Briotech do not reliably decontaminate CWD prions from these surfaces. Our data suggest that Virkon-S and various bleach concentrations are more effective in reducing prion contamination of meat processing surfaces; however, surface type may also influence the ability of prions to adsorb to surfaces, preventing complete decontamination. Our results will directly inform best practices to prevent the introduction of CWD prions into the human food chain during venison processing.
Acknowledgement: Funding was provided by the Minnesota Environment and Natural Resources Trust Fund as recommended by the Legislative-Citizen Commission on Minnesota Resources (LCCMR), the Rapid Agriculture Response Fund (#95385/RR257), and the Michigan Department of Natural Resources.
Theme: Animal prion diseases
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Prion 2023 Abstracts
''Currently, there is scientific evidence to suggest that CWD has zoonotic potential; however, no confirmed cases of CWD have been found in humans.''
PART 2. TPWD CHAPTER 65. DIVISION 1. CWD
31 TAC §§65.82, 65.85, 65.88
The Texas Parks and Wildlife Commission in a duly noticed meeting on May 25, 2023 adopted amendments to 31 TAC §§65.82, 65.85, and §65.88, concerning Disease Detection and Response, without changes to the proposed text as published in the April 21, 2023, issue of the Texas Register (48 TexReg 2048). The rules will not be republished.
Currently, there is scientific evidence to suggest that CWD has zoonotic potential; however, no confirmed cases of CWD have been found in humans.
17 DETECTION OF CHRONIC WASTING DISEASE PRIONS IN PROCESSED MEATS.
Rebeca Benavente1, Francisca Bravo1,2, Paulina Soto1,2, J. Hunter Reed3, Mitch Lockwood3, Rodrigo Morales1,2
1Department of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Houston, USA. 2Universidad Bernardo O’Higgins, Santiago, Chile. 3Texas Parks and Wildlife, Austin, USA
Abstract
The zoonotic potential of chronic wasting disease (CWD) remains unknown. Currently, there are no known natural cases of CWD transmission to humans but increasing evidence suggests that the host range of CWD is not confined only to cervid species. Alarmingly, recent experimental evidence suggests that certain CWD isolates can induce disease in non-human primates. While the CDC strongly recommends determining CWD status in animals prior to consumption, this practice is voluntary. Consequently, it is plausible that a proportion of the cervid meat entering the human food chain may be contaminated with CWD. Of additional concern is that traditional diagnostic techniques used to detect CWD have relatively low sensitivity and are only approved for use in tissues other than those typically ingested by humans. In this study, we analyzed different processed meats derived from a pre-clinical, CWD-positive free-ranging elk. Products tested included filets, sausages, boneless steaks, burgers, ham steaks, seasoned chili meats, and spiced meats. CWD-prion presence in these products were assessed by PMCA using deer and elk substrates. Our results show positive prion detection in all products. To confirm the resilience of CWD-prions to traditional cooking methods, we grilled and boiled the meat products and evaluated them for any remnant PMCA seeding activity. Results confirmed the presence of CWD-prions in these meat products suggesting that infectious particles may still be available to people even after cooking. Our results strongly suggest ongoing human exposure to CWD-prions and raise significant concerns of zoonotic transmission through ingestion of CWD contaminated meat products.
***> Products tested included filets, sausages, boneless steaks, burgers, ham steaks, seasoned chili meats, and spiced meats.
***> CWD-prion presence in these products were assessed by PMCA using deer and elk substrates.
***> Our results show positive prion detection in all products.
***> Results confirmed the presence of CWD-prions in these meat products suggesting that infectious particles may still be available to people even after cooking.
***> Our results strongly suggest ongoing human exposure to CWD-prions and raise significant concerns of zoonotic transmission through ingestion of CWD contaminated meat products.
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9 Carrot plants as potential vectors for CWD transmission.
Paulina Soto1,2, Francisca Bravo-Risi1,2, Claudio Soto1, Rodrigo Morales1,2
1Department of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Houston, USA. 2Universidad Bernardo O’Higgins, Santiago, Chile
***> We show that edible plant components can absorb prions from CWD-contaminated soils and transport them to their aerial parts.
***> Our results indicate that edible plants could participate as vectors of CWD transmission.
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Transmission of prion infectivity from CWD-infected macaque tissues to rodent models demonstrates the zoonotic potential of chronic wasting disease.
Samia Hannaoui1,2, Ginny Cheng1,2, Wiebke Wemheuer3, Walter Schulz-Schaeffer3, Sabine Gilch1,2, Hermann Schatzl1,2 1University of Calgary, Calgary, Canada. 2Calgary Prion Research Unit, Calgary, Canada. 3Institute of Neuropathology, Medical Faculty, Saarland University, Homburg/Saar, Germany
***> Further passage to cervidized mice revealed transmission with a 100% attack rate.
***> Our findings demonstrate that macaques, considered the best model for the zoonotic potential of prions, were infected upon CWD challenge, including the oral one.
****> The disease manifested as atypical in macaques and initial transgenic mouse transmissions, but with infectivity present at all times, as unveiled in the bank vole model with an unusual tissue tropism.
***> Epidemiologic surveillance of prion disease among cervid hunters and people likely to have consumed venison contaminated with chronic wasting disease
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Transmission of Cervid Prions to Humanized Mice Demonstrates the Zoonotic Potential of CWD
Samia Hannaouia, Irina Zemlyankinaa, Sheng Chun Changa, Maria Immaculata Arifina, Vincent Béringueb, Debbie McKenziec, Hermann M. Schatzla, and Sabine Gilcha
Results: Here, we provide the strongest evidence supporting the zoonotic potential of CWD prions, and their possible phenotype in humans. Inoculation of mice expressing human PrPCwith deer CWD isolates (strains Wisc-1 and 116AG) resulted in atypical clinical manifestations in > 75% of the mice, with myoclonus as leading clinical sign. Most of tg650brain homogenates were positive for seeding activity in RT-QuIC. Clinical disease and presentation was transmissible to tg650 mice and bank voles. Intriguingly, protease-resistant PrP in the brain of tg650 mice resembled that found in a familial human prion disease and was transmissible upon passage. Abnormal PrP aggregates upon infection with Wisc-1 were detectable in thalamus, hypothalamus, and midbrain/pons regions.
Unprecedented in human prion disease, feces of CWD-inoculated tg650 mice harbored prion seeding activity and infectious prions, as shown by inoculation of bank voles and tg650 with fecal homogenates.
Conclusions: This is the first evidence that CWD can infect humans and cause disease with a distinctive clinical presentation, signature, and tropism, which might be transmissible between humans while current diagnostic assays might fail to detect it. These findings have major implications for public health and CWD-management.
The finding that infectious PrPSc was shed in fecal material of CWD-infected humanized mice and induced clinical disease, different tropism, and typical three banding pattern-PrPres in bank voles that is transmissible upon second passage is highly concerning for public health. The fact that this biochemical signature in bank voles resembles that of the Wisc-1 original deer isolate and is different from that of bvWisc-1, in the migration profile and the glyco-form-ratio, is valid evidence that these results are not a product of contamination in our study. If CWD in humans is found to be contagious and transmissible among humans, as it is in cervids [57], the spread of the disease within humans might become endemic.
Transmission of cervid prions to humanized mice demonstrates the zoonotic potential of CWD
Acta Neuropathol 144, 767–784 (2022). https://doi.org/10.1007/s00401-022-02482-9
Published
22 August 2022
Transmission of cervid prions to humanized mice demonstrates the zoonotic potential of CWD
Samia Hannaoui1 · Irina Zemlyankina1 · Sheng Chun Chang1 · Maria Immaculata Arifn1 · Vincent Béringue2 · Debbie McKenzie3 · Hermann M. Schatzl1 · Sabine Gilch1
Received: 24 May 2022 / Revised: 5 August 2022 / Accepted: 7 August 2022
© The Author(s) 2022
Abstract
Prions cause infectious and fatal neurodegenerative diseases in mammals. Chronic wasting disease (CWD), a prion disease of cervids, spreads efficiently among wild and farmed animals. Potential transmission to humans of CWD is a growing concern due to its increasing prevalence. Here, we provide evidence for a zoonotic potential of CWD prions, and its probable signature using mice expressing human prion protein (PrP) as an infection model. Inoculation of these mice with deer CWD isolates resulted in atypical clinical manifestation with prion seeding activity and efficient transmissible infectivity in the brain and, remarkably, in feces, but without classical neuropathological or Western blot appearances of prion diseases. Intriguingly, the protease-resistant PrP in the brain resembled that found in a familial human prion disease and was transmissible upon second passage. Our results suggest that CWD might infect humans, although the transmission barrier is likely higher compared to zoonotic transmission of cattle prions. Notably, our data suggest a different clinical presentation, prion signature, and tissue tropism, which causes challenges for detection by current diagnostic assays. Furthermore, the presence of infectious prions in feces is concerning because if this occurs in humans, it is a source for human-to-human transmission. These findings have strong implications for public health and CWD management.
Keywords Chronic wasting disease · CWD · Zoonotic potential · Prion strains · Zoonotic prions
HIGHLIGHTS OF THIS STUDY
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Our results suggest that CWD might infect humans, although the transmission barrier is likely higher compared to zoonotic transmission of cattle prions. Notably, our data suggest a different clinical presentation, prion signature, and tissue tropism, which causes challenges for detection by current diagnostic assays. Furthermore, the presence of infectious prions in feces is concerning because if this occurs in humans, it is a source for human-to-human transmission. These findings have strong implications for public health and CWD management.
In this study, we evaluated the zoonotic potential of CWD using a transgenic mouse model overexpressing human M129-PrPC (tg650 [12]). We inoculated tg650 mice intracerebrally with two deer CWD isolates, Wisc-1 and 116AG [22, 23, 27, 29]. We demonstrate that this transgenic line was susceptible to infection with CWD prions and displayed a distinct leading clinical sign, an atypical PrPSc signature and unusual fecal shedding of infectious prions. Importantly, these prions generated by the human PrP transgenic mice were transmissible upon passage. Our results are the first evidence of a zoonotic risk of CWD when using one of the most common CWD strains, Wisc-1/CWD1 for infection. We demonstrated in a human transgenic mouse model that the species barrier for transmission of CWD to humans is not absolute. The fact that its signature was not typical raises the questions whether CWD would manifest in humans as a subclinical infection, whether it would arise through direct or indirect transmission including an intermediate host, or a silent to uncovered human-to-human transmission, and whether current detection techniques will be suffcient to unveil its presence.
Our findings strongly suggest that CWD should be regarded as an actual public health risk. Here, we use humanized mice to show that CWD prions can cross the species barrier to humans, and remarkably, infectious prions can be excreted in feces.
Our results indicate that if CWD crosses the species-barrier to humans, it is unlikely to resemble the most common forms of human prion diseases with respect to clinical signs, tissue tropism and PrPSc signature. For instance, PrPSc in variable protease-sensitive prionopathy (VPSPr), a sporadic form of human prion disease, and in the genetic form Gerstmann-Sträussler-Scheinker syndrome (GSS) is defined by an atypical PK-resistant PrPSc fragment that is non-glycosylated and truncated at both C- and N-termini, with a molecular weight between 6 and 8 kDa [24, 44–46]. These biochemical features are unique and distinctive from PrPSc (PrP27-30) found in most other human or animal prion disease. The atypical PrPSc signature detected in brain homogenate of tg650 mice #321 (1st passage) and #3063 (2nd passage), and the 7–8 kDa fragment (Figs. 2, 4) are very similar to that of GSS, both in terms of migration profile and the N-terminal cleavage site.
CWD in humans might remain subclinical but with PrPSc deposits in the brain with an unusual morphology that does not resemble the patterns usually seen in different prion diseases (e.g., mouse #328; Fig. 3), clinical with untraceable abnormal PrP (e.g., mouse #327) but still transmissible and uncovered upon subsequent passage (e.g., mouse #3063; Fig. 4), or prions have other reservoirs than the usual ones, hence the presence of infectivity in feces (e.g., mouse #327) suggesting a potential for human-to-human transmission and a real iatrogenic risk that might be unrecognizable.
suggesting a potential for human-to-human transmission and a real iatrogenic risk that might be unrecognizable.
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Supplementary Information The online version contains supplementary material available at
snip...see full text;
EFSA Panel on Biological Hazards (BIOHAZ) Antonia Ricci Ana Allende Declan Bolton Marianne Chemaly Robert Davies Pablo Salvador Fernández Escámez ... See all authors
First published: 17 January 2018 https://doi.org/10.2903/j.efsa.2018.5132
also, see;
8. Even though human TSE‐exposure risk through consumption of game from European cervids can be assumed to be minor, if at all existing, no final conclusion can be drawn due to the overall lack of scientific data.
***> In particular the US data do not clearly exclude the possibility of human (sporadic or familial) TSE development due to consumption of venison.
The Working Group thus recognizes a potential risk to consumers if a TSE would be present in European cervids. It might be prudent considering appropriate measures to reduce such a risk, e.g. excluding tissues such as CNS and lymphoid tissues from the human food chain, which would greatly reduce any potential risk for consumers.. However, it is stressed that currently, no data regarding a risk of TSE infections from cervid products are available.
Research Paper
Cellular prion protein distribution in the vomeronasal organ, parotid, and scent glands of white-tailed deer and mule deer
Anthony Ness, Aradhana Jacob, Kelsey Saboraki, Alicia Otero, Danielle Gushue, Diana Martinez Moreno, Melanie de Peña, Xinli Tang, Judd Aiken, Susan Lingle & Debbie McKenzieORCID Icon show less
Pages 40-57 | Received 03 Feb 2022, Accepted 13 May 2022, Published online: 29 May 2022
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ABSTRACT
Chronic wasting disease (CWD) is a contagious and fatal transmissible spongiform encephalopathy affecting species of the cervidae family. CWD has an expanding geographic range and complex, poorly understood transmission mechanics. CWD is disproportionately prevalent in wild male mule deer and male white-tailed deer. Sex and species influences on CWD prevalence have been hypothesized to be related to animal behaviours that involve deer facial and body exocrine glands. Understanding CWD transmission potential requires a foundational knowledge of the cellular prion protein (PrPC) in glands associated with cervid behaviours. In this study, we characterized the presence and distribution of PrPC in six integumentary and two non-integumentary tissues of hunter-harvested mule deer (Odocoileus hemionus) and white-tailed deer (O. virginianus). We report that white-tailed deer expressed significantly more PrPC than their mule deer in the parotid, metatarsal, and interdigital glands. Females expressed more PrPC than males in the forehead and preorbital glands. The distribution of PrPC within the integumentary exocrine glands of the face and legs were localized to glandular cells, hair follicles, epidermis, and immune cell infiltrates. All tissues examined expressed sufficient quantities of PrPC to serve as possible sites of prion initial infection, propagation, and shedding.
ARS RESEARCH Generation of human chronic wasting disease in transgenic mice
Publication Acceptance Date: 9/8/2021
Research Project: Pathobiology, Genetics, and Detection of Transmissible Spongiform Encephalopathies Location: Virus and Prion Research
Title: Generation of human chronic wasting disease in transgenic mice
Author item WANG, ZERUI - Case Western Reserve University (CWRU) item QIN, KEFENG - University Of Chicago item CAMACHO, MANUEL - Case Western Reserve University (CWRU) item SHEN, PINGPING - Case Western Reserve University (CWRU) item YUAN, JUE - Case Western Reserve University (CWRU) item Greenlee, Justin item CUI, LI - Jilin University item KONG, QINGZHONG - Case Western Reserve University (CWRU) item MASTRIANNI, JAMES - University Of Chicago item ZOU, WEN-QUAN - Case Western Reserve University (CWRU)
Submitted to: Acta Neuropathologica Publication Type: Peer Reviewed Journal Publication Acceptance Date: 9/8/2021 Publication Date: N/A Citation: N/A
Interpretive Summary: Prion diseases are invariably fatal neurologic diseases for which there is no known prevention or cure. Chronic wasting disease (CWD) is the prion disease of deer and elk and is present in farmed and free ranging herds throughout North America. To date there is no clear evidence that the CWD agent could be transmitted to humans. This manuscript describes the use of an in vitro technique, cell-free serial protein misfolding cyclic amplification (sPMCA), to generate a CWD prion that is infectious to transgenic mice expressing the human prion protein. This study provides the first evidence that CWD prions may be able to cause misfolding in the human prion protein. This information will impact medical experts and those involved in making policy for farmed cervids and wildlife.
Technical Abstract: Chronic wasting disease (CWD) is a cervid spongiform encephalopathy or prion disease caused by the infectious prion or PrPSc, a misfolded conformer of cellular prion protein (PrPC). It has rapidly spread in North America and also has been found in Asia and Europe. In contrast to the zoonotic mad cow disease that is the first animal prion disease found transmissible to humans, the transmissibility of CWD to humans remains uncertain although most previous studies have suggested that humans may not be susceptible to CWD. Here we report the generation of an infectious human PrPSc by seeding CWD PrPSc in normal human brain PrPC through the in vitro cell-free serial protein misfolding cyclic amplification (sPMCA). Western blotting confirms that the sPMCA-induced proteinase K-resistant PrPSc is a human form, evidenced by a PrP-specific antibody that recognizes human but not cervid PrP. Remarkably, two lines of humanized transgenic (Tg) mice expressing human PrP-129Val/Val (VV) or -129Met/Met (MM) polymorphism develop prion disease at 233 ± 6 (mean ± SE) days post-inoculation (dpi) and 552 ± 27 dpi, respectively, upon intracerebral inoculation with the sPMCA-generated PrPSc. The brain of diseased Tg mice reveals the electrophoretic profile of PrPSc similar to sporadic Creutzfeldt-Jakob disease (sCJD) MM1 or VV2 subtype but different neuropathological patterns. We believe that our study provides the first evidence that CWD PrPSc is able to convert human PrPC into PrPSc in vitro and the CWD-derived human PrPSc mimics atypical sCJD subtypes in humanized Tg mice.
''The brain of diseased Tg mice reveals the electrophoretic profile of PrPSc similar to sporadic Creutzfeldt-Jakob disease (sCJD) MM1 or VV2 subtype but different neuropathological patterns.''
''We believe that our study provides the first evidence that CWD PrPSc is able to convert human PrPC into PrPSc in vitro and the CWD-derived human PrPSc mimics atypical sCJD subtypes in humanized Tg mice.''
Published: 26 September 2021
Generation of human chronic wasting disease in transgenic mice
Zerui Wang, Kefeng Qin, Manuel V. Camacho, Ignazio Cali, Jue Yuan, Pingping Shen, Justin Greenlee, Qingzhong Kong, James A. Mastrianni & Wen-Quan Zou
Acta Neuropathologica Communications volume 9, Article number: 158 (2021)
Abstract
Chronic wasting disease (CWD) is a cervid prion disease caused by the accumulation of an infectious misfolded conformer (PrPSc) of cellular prion protein (PrPC). It has been spreading rapidly in North America and also found in Asia and Europe. Although bovine spongiform encephalopathy (i.e. mad cow disease) is the only animal prion disease known to be zoonotic, the transmissibility of CWD to humans remains uncertain. Here we report the generation of the first CWD-derived infectious human PrPSc by elk CWD PrPSc-seeded conversion of PrPC in normal human brain homogenates using in vitro protein misfolding cyclic amplification (PMCA). Western blotting with human PrP selective antibody confirmed that the PMCA-generated protease-resistant PrPSc was derived from the human PrPC substrate. Two lines of humanized transgenic mice expressing human PrP with either Val or Met at the polymorphic codon 129 developed clinical prion disease following intracerebral inoculation with the PMCA-generated CWD-derived human PrPSc. Diseased mice exhibited distinct PrPSc patterns and neuropathological changes in the brain. Our study, using PMCA and animal bioassays, provides the first evidence that CWD PrPSc can cross the species barrier to convert human PrPC into infectious PrPSc that can produce bona fide prion disease when inoculated into humanized transgenic mice.
Snip...
It is worth noting that the annual number of sporadic CJD (sCJD) cases in the USA has increased, with the total number of suspected and confirmed sCJD cases rising from 284 in 2003 to 511 in 2017 (https://www.cdc.gov/prions/cjd/occurrence-transmission.html). The greatly enhanced CJD surveillance and an aging population in the USA certainly contributed to the observed increase in annual sCJD case numbers in recent years, but the possibility cannot be excluded that some of the increased sCJD prevalence is linked to CWD exposure.
In the present study, using serial protein misfolding cyclic amplification (sPMCA) assay we generate PrPSc by seeding CWD prions in normal human brain homogenates. Importantly, we reveal that two lines of humanized Tg mice expressing human PrP-129VV and 129MM develop prion diseases upon intracerebral inoculation of the abnormal PrP generated by sPMCA. We believe that our study provides the first opportunity to dissect the clinical, pathological and biochemical features of the CWD-derived human prion disease in two lines of humanized Tg mice expressing two major human PrP genotypes, respectively.
i thought i might share some news about cwd zoonosis that i got, that i cannot share or post to the public yet, i promised for various reasons, one that it will cause a shit storm for sure, but it was something i really already knew from previous studies, but, i was told that ;
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''As you can imagine, 2 and 5 (especially 5) may raise alarms. The evidence we have for 4 are not as strong or tight as I would like to have. At this point, please do not post any of the points publicly yet, but you can refer to points 1-3 in private discussions and all 5 points when discussing with relevant public officials to highlight the long-term risks of CWD zoonosis.''
====================
so, i figure your as about as official as it gets, and i think this science is extremely important for you to know and to converse about with your officials. it's about to burn a whole in my pocket. this is about as close as it will ever get for cwd zoonosis to be proven in my time, this and what Canada Czub et al found with the Macaques, plus an old study from cjd surveillance unit back that showed cjd and a 9% increase in risk from folks that eat venison, i will post all this below for your files Sir. i remember back in the BSE nvCJD days, from when the first BSE case in bovine was confirmed around 1984 maybe 83, i forget the good vets named that screwed it up first, Carol something, but from 83ish to 95 96 when nvCJD was linked to humans from BSE in cattle, so that took 10 to 15 years. hell, at that rate, especially with Texas and cwd zoonsis, hell, i'll be dead before it's official, if ever, so here ya go Sir. there was a grant study on cwd zoonosis that had been going on for some time, i followed it over the years, then the grant date for said study had expired, so, i thought i would write the good Professor about said study i.e. Professor Kong, CWRU et al. i will post the grant study abstract first, and then after that, what reply i got back, about said study that i was told not to post/publish...
CWD ZOONOSIS GRANT FIRST;
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Cervid to human prion transmission
Kong, Qingzhong
Case Western Reserve University, Cleveland, OH, United States
Abstract Prion disease is transmissible and invariably fatal. Chronic wasting disease (CWD) is the prion disease affecting deer, elk and moose, and it is a widespread and expanding epidemic affecting 22 US States and 2 Canadian provinces so far. CWD poses the most serious zoonotic prion transmission risks in North America because of huge venison consumption (>6 million deer/elk hunted and consumed annually in the USA alone), significant prion infectivity in muscles and other tissues/fluids from CWD-affected cervids, and usually high levels of individual exposure to CWD resulting from consumption of the affected animal among often just family and friends. However, we still do not know whether CWD prions can infect humans in the brain or peripheral tissues or whether clinical/asymptomatic CWD zoonosis has already occurred, and we have no essays to reliably detect CWD infection in humans. We hypothesize that: (1) The classic CWD prion strain can infect humans at low levels in the brain and peripheral lymphoid tissues; (2) The cervid-to-human transmission barrier is dependent on the cervid prion strain and influenced by the host (human) prion protein (PrP) primary sequence; (3) Reliable essays can be established to detect CWD infection in humans; and (4) CWD transmission to humans has already occurred. We will test these hypotheses in 4 Aims using transgenic (Tg) mouse models and complementary in vitro approaches.
Aim 1 will prove that the classical CWD strain may infect humans in brain or peripheral lymphoid tissues at low levels by conducting systemic bioassays in a set of humanized Tg mouse lines expressing common human PrP variants using a number of CWD isolates at varying doses and routes. Experimental human CWD samples will also be generated for Aim 3.
Aim 2 will test the hypothesis that the cervid-to-human prion transmission barrier is dependent on prion strain and influenced by the host (human) PrP sequence by examining and comparing the transmission efficiency and phenotypes of several atypical/unusual CWD isolates/strains as well as a few prion strains from other species that have adapted to cervid PrP sequence, utilizing the same panel of humanized Tg mouse lines as in Aim 1.
Aim 3 will establish reliable essays for detection and surveillance of CWD infection in humans by examining in details the clinical, pathological, biochemical and in vitro seeding properties of existing and future experimental human CWD samples generated from Aims 1-2 and compare them with those of common sporadic human Creutzfeldt-Jakob disease (sCJD) prions.
Aim 4 will attempt to detect clinical CWD-affected human cases by examining a significant number of brain samples from prion-affected human subjects in the USA and Canada who have consumed venison from CWD-endemic areas utilizing the criteria and essays established in Aim 3. The findings from this proposal will greatly advance our understandings on the potential and characteristics of cervid prion transmission in humans, establish reliable essays for CWD zoonosis and potentially discover the first case(s) of CWD infection in humans.
Public Health Relevance There are significant and increasing human exposure to cervid prions because chronic wasting disease (CWD, a widespread and highly infectious prion disease among deer and elk in North America) continues spreading and consumption of venison remains popular, but our understanding on cervid-to-human prion transmission is still very limited, raising public health concerns. This proposal aims to define the zoonotic risks of cervid prions and set up and apply essays to detect CWD zoonosis using mouse models and in vitro methods. The findings will greatly expand our knowledge on the potentials and characteristics of cervid prion transmission in humans, establish reliable essays for such infections and may discover the first case(s) of CWD infection in humans.
Funding Agency Agency National Institute of Health (NIH) Institute National Institute of Neurological Disorders and Stroke (NINDS) Type Research Project (R01) Project # 1R01NS088604-01A1 Application # 9037884 Study Section Cellular and Molecular Biology of Neurodegeneration Study Section (CMND) Program Officer Wong, May Project Start 2015-09-30 Project End 2019-07-31 Budget Start 2015-09-30 Budget End 2016-07-31 Support Year 1 Fiscal Year 2015 Total Cost $337,507 Indirect Cost $118,756
snip...
Professor Kongs reply to me just this month about above grant study that has NOT been published in peer reveiw yet...
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Here is a brief summary of our findings:
snip...can't post, made a promise...tss
On Sat, Apr 3, 2021 at 12:19 PM Terry Singeltary <flounder9@verizon.net> wrote:
snip...
end...tss
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CWD ZOONOSIS THE FULL MONTY TO DATE
International Conference on Emerging Diseases, Outbreaks & Case Studies & 16th Annual Meeting on Influenza March 28-29, 2018 | Orlando, USA
Qingzhong Kong
Case Western Reserve University School of Medicine, USA
Zoonotic potential of chronic wasting disease prions from cervids
Chronic wasting disease (CWD) is the prion disease in cervids (mule deer, white-tailed deer, American elk, moose, and reindeer). It has become an epidemic in North America, and it has been detected in the Europe (Norway) since 2016. The widespread CWD and popular hunting and consumption of cervid meat and other products raise serious public health concerns, but questions remain on human susceptibility to CWD prions, especially on the potential difference in zoonotic potential among the various CWD prion strains. We have been working to address this critical question for well over a decade. We used CWD samples from various cervid species to inoculate transgenic mice expressing human or elk prion protein (PrP). We found infectious prions in the spleen or brain in a small fraction of CWD-inoculated transgenic mice expressing human PrP, indicating that humans are not completely resistant to CWD prions; this finding has significant ramifications on the public health impact of CWD prions. The influence of cervid PrP polymorphisms, the prion strain dependence of CWD-to-human transmission barrier, and the characterization of experimental human CWD prions will be discussed.
Speaker Biography Qingzhong Kong has completed his PhD from the University of Massachusetts at Amherst and Post-doctoral studies at Yale University. He is currently an Associate Professor of Pathology, Neurology and Regenerative Medicine. He has published over 50 original research papers in reputable journals (including Science Translational Medicine, JCI, PNAS and Cell Reports) and has been serving as an Editorial Board Member on seven scientific journals. He has multiple research interests, including public health risks of animal prions (CWD of cervids and atypical BSE of cattle), animal modeling of human prion diseases, mechanisms of prion replication and pathogenesis, etiology of sporadic Creutzfeldt-Jacob disease (CJD) in humans, normal cellular PrP in the biology and pathology of multiple brain and peripheral diseases, proteins responsible for the α-cleavage of cellular PrP, as well as gene therapy and DNA vaccination.
qxk2@case.edu
SUNDAY, JULY 25, 2021
North American and Norwegian Chronic Wasting Disease prions exhibit different potential for interspecies transmission and zoonotic risk
''Our data suggest that reindeer and red deer from Norway could be the most transmissible CWD prions to other mammals, whereas North American CWD prions were more prone to generate human prions in vitro.''
MONDAY, JULY 19, 2021
***> U Calgary researchers at work on a vaccine against a fatal infectious disease affecting deer and potentially people
Prion Conference 2018 Abstracts
BSE aka MAD COW DISEASE, was first discovered in 1984, and it took until 1995 to finally admit that BSE was causing nvCJD, the rest there is history, but that science is still evolving i.e. science now shows that indeed atypical L-type BSE, atypical Nor-98 Scrapie, and typical Scrapie are all zoonosis, zoonotic for humans, there from.
HOW long are we going to wait for Chronic Wasting Disease, CWD TSE Prion of Cervid, and zoonosis, zoonotic tranmission to humans there from?
Studies have shown since 1994 that humans are susceptible to CWD TSE Prion, so, what's the hold up with making CWD a zoonotic zoonosis disease, the iatrogenic transmissions there from is not waiting for someone to make a decision.
Prion Conference 2018 Abstracts
P190 Human prion disease mortality rates by occurrence of chronic wasting disease in freeranging cervids, United States
Abrams JY (1), Maddox RA (1), Schonberger LB (1), Person MK (1), Appleby BS (2), Belay ED (1)
(1) Centers for Disease Control and Prevention (CDC), National Center for Emerging and Zoonotic Infectious Diseases, Atlanta, GA, USA (2) Case Western Reserve University, National Prion Disease Pathology Surveillance Center (NPDPSC), Cleveland, OH, USA.
Background
Chronic wasting disease (CWD) is a prion disease of deer and elk that has been identified in freeranging cervids in 23 US states. While there is currently no epidemiological evidence for zoonotic transmission through the consumption of contaminated venison, studies suggest the CWD agent can cross the species barrier in experimental models designed to closely mimic humans. We compared rates of human prion disease in states with and without CWD to examine the possibility of undetermined zoonotic transmission.
Methods
Death records from the National Center for Health Statistics, case records from the National Prion Disease Pathology Surveillance Center, and additional state case reports were combined to create a database of human prion disease cases from 2003-2015. Identification of CWD in each state was determined through reports of positive CWD tests by state wildlife agencies. Age- and race-adjusted mortality rates for human prion disease, excluding cases with known etiology, were determined for four categories of states based on CWD occurrence: highly endemic (>16 counties with CWD identified in free-ranging cervids); moderately endemic (3-10 counties with CWD); low endemic (1-2 counties with CWD); and no CWD states. States were counted as having no CWD until the year CWD was first identified. Analyses stratified by age, sex, and time period were also conducted to focus on subgroups for which zoonotic transmission would be more likely to be detected: cases <55 years old, male sex, and the latter half of the study (2010-2015).
Results
Highly endemic states had a higher rate of prion disease mortality compared to non-CWD states (rate ratio [RR]: 1.12, 95% confidence interval [CI] = 1.01 - 1.23), as did low endemic states (RR: 1.15, 95% CI = 1.04 - 1.27). Moderately endemic states did not have an elevated mortality rate (RR: 1.05, 95% CI = 0.93 - 1.17). In age-stratified analyses, prion disease mortality rates among the <55 year old population were elevated for moderately endemic states (RR: 1.57, 95% CI = 1.10 – 2.24) while mortality rates were elevated among those ≥55 for highly endemic states (RR: 1.13, 95% CI = 1.02 - 1.26) and low endemic states (RR: 1.16, 95% CI = 1.04 - 1.29). In other stratified analyses, prion disease mortality rates for males were only elevated for low endemic states (RR: 1.27, 95% CI = 1.10 - 1.48), and none of the categories of CWD-endemic states had elevated mortality rates for the latter time period (2010-2015).
Conclusions
While higher prion disease mortality rates in certain categories of states with CWD in free-ranging cervids were noted, additional stratified analyses did not reveal markedly elevated rates for potentially sensitive subgroups that would be suggestive of zoonotic transmission. Unknown confounding factors or other biases may explain state-by-state differences in prion disease mortality.
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P172 Peripheral Neuropathy in Patients with Prion Disease
Wang H(1), Cohen M(1), Appleby BS(1,2)
(1) University Hospitals Cleveland Medical Center, Cleveland, Ohio (2) National Prion Disease Pathology Surveillance Center, Cleveland, Ohio.
Prion disease is a fatal progressive neurodegenerative disease due to deposition of an abnormal protease-resistant isoform of prion protein. Typical symptoms include rapidly progressive dementia, myoclonus, visual disturbance and hallucinations. Interestingly, in patients with prion disease, the abnormal protein canould also be found in the peripheral nervous system. Case reports of prion deposition in peripheral nerves have been reported. Peripheral nerve involvement is thought to be uncommon; however, little is known about the exact prevalence and features of peripheral neuropathy in patients with prion disease.
We reviewed autopsy-proven prion cases from the National Prion Disease Pathology Surveillance Center that were diagnosed between September 2016 to March 2017. We collected information regarding prion protein diagnosis, demographics, comorbidities, clinical symptoms, physical exam, neuropathology, molecular subtype, genetics lab, brain MRI, image and EMG reports. Our study included 104 patients. Thirteen (12.5%) patients had either subjective symptoms or objective signs of peripheral neuropathy. Among these 13 patients, 3 had other known potential etiologies of peripheral neuropathy such as vitamin B12 deficiency or prior chemotherapy. Among 10 patients that had no other clear etiology, 3 (30%) had familial CJD. The most common sCJD subtype was MV1-2 (30%), followed by MM1-2 (20%). The Majority of cases wasere male (60%). Half of them had exposure to wild game. The most common subjective symptoms were tingling and/or numbness of distal extremities. The most common objective finding was diminished vibratory sensation in the feet. Half of them had an EMG with the findings ranging from fasciculations to axonal polyneuropathy or demyelinating polyneuropathy.
Our study provides an overview of the pattern of peripheral neuropathy in patients with prion disease. Among patients with peripheral neuropathy symptoms or signs, majority has polyneuropathy. It is important to document the baseline frequency of peripheral neuropathy in prion diseases as these symptoms may become important when conducting surveillance for potential novel zoonotic prion diseases.
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P177 PrP plaques in methionine homozygous Creutzfeldt-Jakob disease patients as a potential marker of iatrogenic transmission
Abrams JY (1), Schonberger LB (1), Cali I (2), Cohen Y (2), Blevins JE (2), Maddox RA (1), Belay ED (1), Appleby BS (2), Cohen ML (2)
(1) Centers for Disease Control and Prevention (CDC), National Center for Emerging and Zoonotic Infectious Diseases, Atlanta, GA, USA (2) Case Western Reserve University, National Prion Disease Pathology Surveillance Center (NPDPSC), Cleveland, OH, USA.
Background
Sporadic Creutzfeldt-Jakob disease (CJD) is widely believed to originate from de novo spontaneous conversion of normal prion protein (PrP) to its pathogenic form, but concern remains that some reported sporadic CJD cases may actually be caused by disease transmission via iatrogenic processes. For cases with methionine homozygosity (CJD-MM) at codon 129 of the PRNP gene, recent research has pointed to plaque-like PrP deposition as a potential marker of iatrogenic transmission for a subset of cases. This phenotype is theorized to originate from specific iatrogenic source CJD types that comprise roughly a quarter of known CJD cases.
Methods
We reviewed scientific literature for studies which described PrP plaques among CJD patients with known epidemiological links to iatrogenic transmission (receipt of cadaveric human grown hormone or dura mater), as well as in cases of reported sporadic CJD. The presence and description of plaques, along with CJD classification type and other contextual factors, were used to summarize the current evidence regarding plaques as a potential marker of iatrogenic transmission. In addition, 523 cases of reported sporadic CJD cases in the US from January 2013 through September 2017 were assessed for presence of PrP plaques.
Results
We identified four studies describing 52 total cases of CJD-MM among either dura mater recipients or growth hormone recipients, of which 30 were identified as having PrP plaques. While sporadic cases were not generally described as having plaques, we did identify case reports which described plaques among sporadic MM2 cases as well as case reports of plaques exclusively in white matter among sporadic MM1 cases. Among the 523 reported sporadic CJD cases, 0 of 366 MM1 cases had plaques, 2 of 48 MM2 cases had kuru plaques, and 4 of 109 MM1+2 cases had either kuru plaques or both kuru and florid plaques. Medical chart review of the six reported sporadic CJD cases with plaques did not reveal clinical histories suggestive of potential iatrogenic transmission.
Conclusions
PrP plaques occur much more frequently for iatrogenic CJD-MM cases compared to sporadic CJDMM cases. Plaques may indicate iatrogenic transmission for CJD-MM cases without a type 2 Western blot fragment. The study results suggest the absence of significant misclassifications of iatrogenic CJD as sporadic. To our knowledge, this study is the first to describe grey matter kuru plaques in apparently sporadic CJD-MM patients with a type 2 Western blot fragment.
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P180 Clinico-pathological analysis of human prion diseases in a brain bank series
Ximelis T (1), Aldecoa I (1,2), Molina-Porcel L (1,3), Grau-Rivera O (4), Ferrer I (5), Nos C (6), Gelpi E (1,7), Sánchez-Valle R (1,4)
(1) Neurological Tissue Bank of the Biobanc-Hospital ClÃnic-IDIBAPS, Barcelona, Spain (2) Pathological Service of Hospital ClÃnic de Barcelona, Barcelona, Spain (3) EAIA Trastorns Cognitius, Centre Emili Mira, Parc de Salut Mar, Barcelona, Spain (4) Department of Neurology of Hospital ClÃnic de Barcelona, Barcelona, Spain (5) Institute of Neuropathology, Hospital Universitari de Bellvitge, Hospitalet de Llobregat, Barcelona (6) General subdirectorate of Surveillance and Response to Emergencies in Public Health, Department of Public Health in Catalonia, Barcelona, Spain (7) Institute of Neurology, Medical University of Vienna, Vienna, Austria.
Background and objective:
The Neurological Tissue Bank (NTB) of the Hospital Clínic-Institut d‘Investigacions Biomèdiques August Pi i Sunyer, Barcelona, Spain is the reference center in Catalonia for the neuropathological study of prion diseases in the region since 2001. The aim of this study is to analyse the characteristics of the confirmed prion diseases registered at the NTB during the last 15 years.
Methods:
We reviewed retrospectively all neuropathologically confirmed cases registered during the period January 2001 to December 2016.
Results:
176 cases (54,3% female, mean age: 67,5 years and age range: 25-86 years) of neuropathological confirmed prion diseases have been studied at the NTB. 152 cases corresponded to sporadic Creutzfeldt-Jakob disease (sCJD), 10 to genetic CJD, 10 to Fatal Familial Insomnia, 2 to GerstmannSträussler-Scheinker disease, and 2 cases to variably protease-sensitive prionopathy (VPSPr). Within sCJD subtypes the MM1 subtype was the most frequent, followed by the VV2 histotype.
Clinical and neuropathological diagnoses agreed in 166 cases (94%). The clinical diagnosis was not accurate in 10 patients with definite prion disease: 1 had a clinical diagnosis of Fronto-temporal dementia (FTD), 1 Niemann-Pick‘s disease, 1 Lewy Body‘s Disease, 2 Alzheimer‘s disease, 1 Cortico-basal syndrome and 2 undetermined dementia. Among patients with VPSPr, 1 had a clinical diagnosis of Amyotrophic lateral sclerosis (ALS) and the other one with FTD.
Concomitant pathologies are frequent in older age groups, mainly AD neuropathological changes were observed in these subjects.
Discussion:
A wide spectrum of human prion diseases have been identified in the NTB being the relative frequencies and main characteristics like other published series. There is a high rate of agreement between clinical and neuropathological diagnoses with prion diseases. These findings show the importance that public health has given to prion diseases during the past 15 years. Continuous surveillance of human prion disease allows identification of new emerging phenotypes. Brain tissue samples from these donors are available to the scientific community. For more information please visit:
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P192 Prion amplification techniques for the rapid evaluation of surface decontamination procedures
Bruyere-Ostells L (1), Mayran C (1), Belondrade M (1), Boublik Y (2), Haïk S (3), Fournier-Wirth C (1), Nicot S (1), Bougard D (1)
(1) Pathogenesis and control of chronic infections, Etablissement Français du Sang, Inserm, Université de Montpellier, Montpellier, France. (2) Centre de Recherche en Biologie cellulaire de Montpellier, CNRS, Université de Montpellier, Montpellier, France. (3) Inserm U 1127, CNRS UMR 7225, Sorbonne Universités, UPMC Université Paris 06 UMR S 1127, Institut du Cerveau et de la Moelle épinière, ICM, Paris, France.
Aims:
Transmissible Spongiform Encephalopathies (TSE) or prion diseases are a group of incurable and always fatal neurodegenerative disorders including Creutzfeldt-Jakob diseases (CJD) in humans. These pathologies include sporadic (sCJD), genetic and acquired (variant CJD) forms. By the past, sCJD and vCJD were transmitted by different prion contaminated biological materials to patients resulting in more than 400 iatrogenic cases (iCJD). The atypical nature and the biochemical properties of the infectious agent, formed by abnormal prion protein or PrPTSE, make it particularly resistant to conventional decontamination procedures. In addition, PrPTSE is widely distributed throughout the organism before clinical onset in vCJD and can also be detected in some peripheral tissues in sporadic CJD. Risk of iatrogenic transmission of CJD by contaminated medical device remains thus a concern for healthcare facilities. Bioassay is the gold standard method to evaluate the efficacy of prion decontamination procedures but is time-consuming and expensive. Here, we propose to compare in vitro prion amplification techniques: Protein Misfolding Cyclic Amplification (PMCA) and Real-Time Quaking Induced Conversion (RT-QuIC) for the detection of residual prions on surface after decontamination.
Methods:
Stainless steel wires, by mimicking the surface of surgical instruments, were proposed as a carrier model of prions for inactivation studies. To determine the sensitivity of the two amplification techniques on wires (Surf-PMCA and Surf-QuIC), steel wires were therefore contaminated with serial dilutions of brain homogenates (BH) from a 263k infected hamster and from a patient with sCJD (MM1 subtype). We then compared the different standard decontamination procedures including partially and fully efficient treatments by detecting the residual seeding activity on 263K and sCJD contaminated wires. We completed our study by the evaluation of marketed reagents endorsed for prion decontamination.
Results:
The two amplification techniques can detect minute quantities of PrPTSE adsorbed onto a single wire. 8/8 wires contaminated with a 10-6 dilution of 263k BH and 1/6 with the 10-8 dilution are positive with Surf-PMCA. Similar performances were obtained with Surf-QuIC on 263K: 10/16 wires contaminated with 10-6 dilution and 1/8 wires contaminated with 10-8 dilution are positive. Regarding the human sCJD-MM1 prion, Surf-QuIC allows us to detect 16/16 wires contaminated with 10-6 dilutions and 14/16 with 10-7 . Results obtained after decontamination treatments are very similar between 263K and sCJD prions. Efficiency of marketed treatments to remove prions is lower than expected.
Conclusions:
Surf-PMCA and Surf-QuIC are very sensitive methods for the detection of prions on wires and could be applied to prion decontamination studies for rapid evaluation of new treatments. Sodium hypochlorite is the only product to efficiently remove seeding activity of both 263K and sCJD prions.
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WA2 Oral transmission of CWD into Cynomolgus macaques: signs of atypical disease, prion conversion and infectivity in macaques and bio-assayed transgenic mice
Schatzl HM (1, 2), Hannaoui S (1, 2), Cheng Y-C (1, 2), Gilch S (1, 2), Beekes M (3), SchulzSchaeffer W (4), Stahl-Hennig C (5) and Czub S (2, 6)
(1) University of Calgary, Calgary Prion Research Unit, Calgary, Canada (2) University of Calgary, Faculty of Veterinary Medicine, Calgary, Canada, (3) Robert Koch Institute, Berlin, Germany, (4) University of Homburg/Saar, Homburg, Germany, (5) German Primate Center, Goettingen, Germany, (6) Canadian Food Inspection Agency (CFIA), Lethbridge, Canada.
To date, BSE is the only example of interspecies transmission of an animal prion disease into humans. The potential zoonotic transmission of CWD is an alarming issue and was addressed by many groups using a variety of in vitro and in vivo experimental systems. Evidence from these studies indicated a substantial, if not absolute, species barrier, aligning with the absence of epidemiological evidence suggesting transmission into humans. Studies in non-human primates were not conclusive so far, with oral transmission into new-world monkeys and no transmission into old-world monkeys. Our consortium has challenged 18 Cynomolgus macaques with characterized CWD material, focusing on oral transmission with muscle tissue. Some macaques have orally received a total of 5 kg of muscle material over a period of 2 years. After 5-7 years of incubation time some animals showed clinical symptoms indicative of prion disease, and prion neuropathology and PrPSc deposition were found in spinal cord and brain of euthanized animals. PrPSc in immunoblot was weakly detected in some spinal cord materials and various tissues tested positive in RT-QuIC, including lymph node and spleen homogenates. To prove prion infectivity in the macaque tissues, we have intracerebrally inoculated 2 lines of transgenic mice, expressing either elk or human PrP. At least 3 TgElk mice, receiving tissues from 2 different macaques, showed clinical signs of a progressive prion disease and brains were positive in immunoblot and RT-QuIC. Tissues (brain, spinal cord and spleen) from these and preclinical mice are currently tested using various read-outs and by second passage in mice. Transgenic mice expressing human PrP were so far negative for clear clinical prion disease (some mice >300 days p.i.). In parallel, the same macaque materials are inoculated into bank voles. Taken together, there is strong evidence of transmissibility of CWD orally into macaques and from macaque tissues into transgenic mouse models, although with an incomplete attack rate. The clinical and pathological presentation in macaques was mostly atypical, with a strong emphasis on spinal cord pathology. Our ongoing studies will show whether the transmission of CWD into macaques and passage in transgenic mice represents a form of non-adaptive prion amplification, and whether macaque-adapted prions have the potential to infect mice expressing human PrP. The notion that CWD can be transmitted orally into both new-world and old-world non-human primates asks for a careful reevaluation of the zoonotic risk of CWD.
See also poster P103
***> The notion that CWD can be transmitted orally into both new-world and old-world non-human primates asks for a careful reevaluation of the zoonotic risk of CWD.
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WA16 Monitoring Potential CWD Transmission to Humans
Belay ED
Centers for Disease Control and Prevention (CDC), National Center for Emerging and Zoonotic Infectious Diseases, Atlanta, GA, USA.
The spread of chronic wasting disease (CWD) in animals has raised concerns about increasing human exposure to the CWD agent via hunting and venison consumption, potentially facilitating CWD transmission to humans. Several studies have explored this possibility, including limited epidemiologic studies, in vitro experiments, and laboratory studies using various types of animal models. Most human exposures to the CWD agent in the United States would be expected to occur in association with deer and elk hunting in CWD-endemic areas. The Centers for Disease Control and Prevention (CDC) collaborated with state health departments in Colorado, Wisconsin, and Wyoming to identify persons at risk of CWD exposure and to monitor their vital status over time. Databases were established of persons who hunted in Colorado and Wyoming and those who reported consumption of venison from deer that later tested positive in Wisconsin. Information from the databases is periodically cross-checked with mortality data to determine the vital status and causes of death for deceased persons. Long-term follow-up of these hunters is needed to assess their risk of development of a prion disease linked to CWD exposure.
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P166 Characterization of CJD strain profiles in venison consumers and non-consumers from Alberta and Saskatchewan
Stephanie Booth (1,2), Lise Lamoureux (1), Debra Sorensen (1), Jennifer L. Myskiw (1,2), Megan Klassen (1,2), Michael Coulthart (3), Valerie Sim (4)
(1) Zoonotic Diseases and Special Pathogens, National Microbiology Laboratory, Public Health Agency of Canada, Winnipeg (2) Department of Medical Microbiology and Infectious Diseases, University of Manitoba, Winnipeg (3) Canadian CJD Surveillance System, Public Health Agency of Canada, Ottawa (4) Division of Neurology, Department of Medicine Centre for Prions and Protein Folding Diseases, University of Alberta, Edmonton.
Chronic wasting disease (CWD) is spreading rapidly through wild cervid populations in the Canadian provinces of Alberta and Saskatchewan. While this has implications for tourism and hunting, there is also concern over possible zoonotic transmission to humans who eat venison from infected deer. Whilst there is no evidence of any human cases of CWD to date, the Canadian CJD Surveillance System (CJDSS) in Canada is staying vigilant. When variant CJD occurred following exposure to BSE, the unique biochemical fingerprint of the pathologic PrP enabled a causal link to be confirmed. However, we cannot be sure what phenotype human CWD prions would present with, or indeed, whether this would be distinct from that see in sporadic CJD. Therefore we are undertaking a systematic analysis of the molecular diversity of CJD cases of individuals who resided in Alberta and Saskatchewan at their time of death comparing venison consumers and non-consumers, using a variety of clinical, imaging, pathological and biochemical markers. Our initial objective is to develop novel biochemical methodologies that will extend the baseline glycoform and genetic polymorphism typing that is already completed by the CJDSS. Firstly, we are reviewing MRI, EEG and pathology information from over 40 cases of CJD to select clinically affected areas for further investigation. Biochemical analysis will include assessment of the levels of protease sensitive and resistant prion protein, glycoform typing using 2D gel electrophoresis, testing seeding capabilities and kinetics of aggregation by quaking-induced conversion, and determining prion oligomer size distributions with asymmetric flow field fractionation with in-line light scattering. Progress and preliminary data will be presented. Ultimately, we intend to further define the relationship between PrP structure and disease phenotype and establish a baseline for the identification of future atypical CJD cases that may arise as a result of exposure to CWD.
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Source Prion Conference 2018 Abstracts
Volume 24, Number 8—August 2018
Research Susceptibility of Human Prion Protein to Conversion by Chronic Wasting Disease Prions
Marcelo A. BarriaComments to Author , Adriana Libori, Gordon Mitchell, and Mark W. Head Author affiliations: National CJD Research and Surveillance Unit, University of Edinburgh, Edinburgh, Scotland, UK (M.A. Barria, A. Libori, M.W. Head); National and OIE Reference Laboratory for Scrapie and CWD, Canadian Food Inspection Agency, Ottawa, Ontario, Canada (G. Mitchell)
Abstract Chronic wasting disease (CWD) is a contagious and fatal neurodegenerative disease and a serious animal health issue for deer and elk in North America. The identification of the first cases of CWD among free-ranging reindeer and moose in Europe brings back into focus the unresolved issue of whether CWD can be zoonotic like bovine spongiform encephalopathy. We used a cell-free seeded protein misfolding assay to determine whether CWD prions from elk, white-tailed deer, and reindeer in North America can convert the human prion protein to the disease-associated form. We found that prions can convert, but the efficiency of conversion is affected by polymorphic variation in the cervid and human prion protein genes. In view of the similarity of reindeer, elk, and white-tailed deer in North America to reindeer, red deer, and roe deer, respectively, in Europe, a more comprehensive and thorough assessment of the zoonotic potential of CWD might be warranted.
snip...
Discussion Characterization of the transmission properties of CWD and evaluation of their zoonotic potential are important for public health purposes. Given that CWD affects several members of the family Cervidae, it seems reasonable to consider whether the zoonotic potential of CWD prions could be affected by factors such as CWD strain, cervid species, geographic location, and Prnp–PRNP polymorphic variation. We have previously used an in vitro conversion assay (PMCA) to investigate the susceptibility of the human PrP to conversion to its disease-associated form by several animal prion diseases, including CWD (15,16,22). The sensitivity of our molecular model for the detection of zoonotic conversion depends on the combination of 1) the action of proteinase K to degrade the abundant human PrPC that constitutes the substrate while only N terminally truncating any human PrPres produced and 2) the presence of the 3F4 epitope on human but not cervid PrP. In effect, this degree of sensitivity means that any human PrPres formed during the PMCA reaction can be detected down to the limit of Western blot sensitivity. In contrast, if other antibodies that detect both cervid and human PrP are used, such as 6H4, then newly formed human PrPres must be detected as a measurable increase in PrPres over the amount remaining in the reaction product from the cervid seed. Although best known for the efficient amplification of prions in research and diagnostic contexts, the variation of the PMCA method employed in our study is optimized for the definitive detection of zoonotic reaction products of inherently inefficient conversion reactions conducted across species barriers. By using this system, we previously made and reported the novel observation that elk CWD prions could convert human PrPC from human brain and could also convert recombinant human PrPC expressed in transgenic mice and eukaryotic cell cultures (15).
A previous publication suggested that mule deer PrPSc was unable to convert humanized transgenic substrate in PMCA assays (23) and required a further step of in vitro conditioning in deer substrate PMCA before it was able to cross the deer–human molecular barrier (24). However, prions from other species, such as elk (15) and reindeer affected by CWD, appear to be compatible with the human protein in a single round of amplification (as shown in our study). These observations suggest that different deer species affected by CWD could present differing degrees of the olecular compatibility with the normal form of human PrP.
The contribution of the polymorphism at codon 129 of the human PrP gene has been extensively studied and is recognized as a risk factor for Creutzfeldt-Jakob disease (4). In cervids, the equivalent codon corresponds to the position 132 encoding methionine or leucine. This polymorphism in the elk gene has been shown to play an important role in CWD susceptibility (25,26). We have investigated the effect of this cervid Prnp polymorphism on the conversion of the humanized transgenic substrate according to the variation in the equivalent PRNP codon 129 polymorphism. Interestingly, only the homologs methionine homozygous seed–substrate reactions could readily convert the human PrP, whereas the heterozygous elk PrPSc was unable to do so, even though comparable amounts of PrPres were used to seed the reaction. In addition, we observed only low levels of human PrPres formation in the reactions seeded with the homozygous methionine (132 MM) and the heterozygous (132 ML) seeds incubated with the other 2 human polymorphic substrates (129 MV and 129 VV). The presence of the amino acid leucine at position 132 of the elk Prnp gene has been attributed to a lower degree of prion conversion compared with methionine on the basis of experiments in mice made transgenic for these polymorphic variants (26). Considering the differences observed for the amplification of the homozygous human methionine substrate by the 2 polymorphic elk seeds (MM and ML), reappraisal of the susceptibility of human PrPC by the full range of cervid polymorphic variants affected by CWD would be warranted.
In light of the recent identification of the first cases of CWD in Europe in a free-ranging reindeer (R. tarandus) in Norway (2), we also decided to evaluate the in vitro conversion potential of CWD in 2 experimentally infected reindeer (18). Formation of human PrPres was readily detectable after a single round of PMCA, and in all 3 humanized polymorphic substrates (MM, MV, and VV). This finding suggests that CWD prions from reindeer could be more compatible with human PrPC generally and might therefore present a greater risk for zoonosis than, for example, CWD prions from white-tailed deer. A more comprehensive comparison of CWD in the affected species, coupled with the polymorphic variations in the human and deer PRNP–Prnp genes, in vivo and in vitro, will be required before firm conclusions can be drawn. Analysis of the Prnp sequence of the CWD reindeer in Norway was reported to be identical to the specimens used in our study (2). This finding raises the possibility of a direct comparison of zoonotic potential between CWD acquired in the wild and that produced in a controlled laboratory setting. (Table).
The prion hypothesis proposes that direct molecular interaction between PrPSc and PrPC is necessary for conversion and prion replication. Accordingly, polymorphic variants of the PrP of host and agent might play a role in determining compatibility and potential zoonotic risk. In this study, we have examined the capacity of the human PrPC to support in vitro conversion by elk, white-tailed deer, and reindeer CWD PrPSc. Our data confirm that elk CWD prions can convert the human PrPC, at least in vitro, and show that the homologous PRNP polymorphisms at codon 129 and 132 in humans and cervids affect conversion efficiency. Other species affected by CWD, particularly caribou or reindeer, also seem able to convert the human PrP. It will be important to determine whether other polymorphic variants found in other CWD-affected Cervidae or perhaps other factors (17) exert similar effects on the ability to convert human PrP and thus affect their zoonotic potential.
Dr. Barria is a research scientist working at the National CJD Research and Surveillance Unit, University of Edinburgh. His research has focused on understanding the molecular basis of a group of fatal neurologic disorders called prion diseases.
Acknowledgments We thank Aru Balachandran for originally providing cervid brain tissues, Abigail Diack and Jean Manson for providing mouse brain tissue, and James Ironside for his critical reading of the manuscript at an early stage.
This report is independent research commissioned and funded by the United Kingdom’s Department of Health Policy Research Programme and the Government of Scotland. The views expressed in this publication are those of the authors and not necessarily those of the Department of Health or the Government of Scotland.
Author contributions: The study was conceived and designed by M.A.B. and M.W.H. The experiments were conducted by M.A.B. and A.L. Chronic wasting disease brain specimens were provided by G.M. The manuscript was written by M.A.B. and M.W.H. All authors contributed to the editing and revision of the manuscript.
Prion 2017 Conference Abstracts
First evidence of intracranial and peroral transmission of Chronic Wasting Disease (CWD) into Cynomolgus macaques: a work in progress Stefanie Czub1, Walter Schulz-Schaeffer2, Christiane Stahl-Hennig3, Michael Beekes4, Hermann Schaetzl5 and Dirk Motzkus6 1
University of Calgary Faculty of Veterinary Medicine/Canadian Food Inspection Agency; 2Universitatsklinikum des Saarlandes und Medizinische Fakultat der Universitat des Saarlandes; 3 Deutsches Primaten Zentrum/Goettingen; 4 Robert-Koch-Institut Berlin; 5 University of Calgary Faculty of Veterinary Medicine; 6 presently: Boehringer Ingelheim Veterinary Research Center; previously: Deutsches Primaten Zentrum/Goettingen
This is a progress report of a project which started in 2009.
21 cynomolgus macaques were challenged with characterized CWD material from white-tailed deer (WTD) or elk by intracerebral (ic), oral, and skin exposure routes. Additional blood transfusion experiments are supposed to assess the CWD contamination risk of human blood product. Challenge materials originated from symptomatic cervids for ic, skin scarification and partially per oral routes (WTD brain). Challenge material for feeding of muscle derived from preclinical WTD and from preclinical macaques for blood transfusion experiments. We have confirmed that the CWD challenge material contained at least two different CWD agents (brain material) as well as CWD prions in muscle-associated nerves.
Here we present first data on a group of animals either challenged ic with steel wires or per orally and sacrificed with incubation times ranging from 4.5 to 6.9 years at postmortem. Three animals displayed signs of mild clinical disease, including anxiety, apathy, ataxia and/or tremor. In four animals wasting was observed, two of those had confirmed diabetes. All animals have variable signs of prion neuropathology in spinal cords and brains and by supersensitive IHC, reaction was detected in spinal cord segments of all animals. Protein misfolding cyclic amplification (PMCA), real-time quaking-induced conversion (RT-QuiC) and PET-blot assays to further substantiate these findings are on the way, as well as bioassays in bank voles and transgenic mice.
At present, a total of 10 animals are sacrificed and read-outs are ongoing. Preclinical incubation of the remaining macaques covers a range from 6.4 to 7.10 years. Based on the species barrier and an incubation time of > 5 years for BSE in macaques and about 10 years for scrapie in macaques, we expected an onset of clinical disease beyond 6 years post inoculation.
PRION 2017 DECIPHERING NEURODEGENERATIVE DISORDERS ABSTRACTS REFERENCE
8. Even though human TSE‐exposure risk through consumption of game from European cervids can be assumed to be minor, if at all existing, no final conclusion can be drawn due to the overall lack of scientific data. In particular the US data do not clearly exclude the possibility of human (sporadic or familial) TSE development due to consumption of venison. The Working Group thus recognizes a potential risk to consumers if a TSE would be present in European cervids. It might be prudent considering appropriate measures to reduce such a risk, e.g. excluding tissues such as CNS and lymphoid tissues from the human food chain, which would greatly reduce any potential risk for consumers. However, it is stressed that currently, no data regarding a risk of TSE infections from cervid products are available.
SATURDAY, FEBRUARY 23, 2019
Chronic Wasting Disease CWD TSE Prion and THE FEAST 2003 CDC an updated review of the science 2019
TUESDAY, NOVEMBER 04, 2014
Six-year follow-up of a point-source exposure to CWD contaminated venison in an Upstate New York community: risk behaviours and health outcomes 2005–2011 Authors, though, acknowledged the study was limited in geography and sample size and so it couldn't draw a conclusion about the risk to humans. They recommended more study. Dr. Ermias Belay was the report's principal author but he said New York and Oneida County officials are following the proper course by not launching a study. "There's really nothing to monitor presently. No one's sick," Belay said, noting the disease's incubation period in deer and elk is measured in years. "
Transmission Studies Mule deer transmissions of CWD were by intracerebral inoculation and compared with natural cases {the following was written but with a single line marked through it ''first passage (by this route)}....TSS resulted in a more rapidly progressive clinical disease with repeated episodes of synocopy ending in coma. One control animal became affected, it is believed through contamination of inoculum (?saline). Further CWD transmissions were carried out by Dick Marsh into ferret, mink and squirrel monkey. Transmission occurred in ALL of these species with the shortest incubation period in the ferret.
snip....
Prion Infectivity in Fat of Deer with Chronic Wasting Disease▿
Brent Race#, Kimberly Meade-White#, Richard Race and Bruce Chesebro* + Author Affiliations In mice, prion infectivity was recently detected in fat. Since ruminant fat is consumed by humans and fed to animals, we determined infectivity titers in fat from two CWD-infected deer. Deer fat devoid of muscle contained low levels of CWD infectivity and might be a risk factor for prion infection of other species.
Prions in Skeletal Muscles of Deer with Chronic Wasting Disease Here bioassays in transgenic mice expressing cervid prion protein revealed the presence of infectious prions in skeletal muscles of CWD-infected deer, demonstrating that humans consuming or handling meat from CWD-infected deer are at risk to prion exposure.
*** now, let’s see what the authors said about this casual link, personal communications years ago, and then the latest on the zoonotic potential from CWD to humans from the TOKYO PRION 2016 CONFERENCE. see where it is stated NO STRONG evidence. so, does this mean there IS casual evidence ???? “Our conclusion stating that we found no strong evidence of CWD transmission to humans”
From: TSS Subject: CWD aka MAD DEER/ELK TO HUMANS ???
Date: September 30, 2002 at 7:06 am PST
From: "Belay, Ermias"
To: Cc: "Race, Richard (NIH)" ; ; "Belay, Ermias"
Sent: Monday, September 30, 2002 9:22 AM Subject: RE: TO CDC AND NIH - PUB MED- 3 MORE DEATHS - CWD - YOUNG HUNTERS
Dear Sir/Madam, In the Archives of Neurology you quoted (the abstract of which was attached to your email), we did not say CWD in humans will present like variant CJD.. That assumption would be wrong. I encourage you to read the whole article and call me if you have questions or need more clarification (phone: 404-639-3091).
Also, we do not claim that "no-one has ever been infected with prion disease from eating venison." Our conclusion stating that we found no strong evidence of CWD transmission to humans in the article you quoted or in any other forum is limited to the patients we investigated.
Ermias Belay, M.D. Centers for Disease Control and Prevention
-----Original Message----- From:
Sent: Sunday, September 29, 2002 10:15 AM To: rr26k@nih.gov; rrace@niaid.nih.gov; ebb8@CDC.GOV
Subject: TO CDC AND NIH - PUB MED- 3 MORE DEATHS - CWD - YOUNG HUNTERS
Sunday, November 10, 2002 6:26 PM .......snip........end..............TSS
Thursday, April 03, 2008
A prion disease of cervids: Chronic wasting disease 2008 1: Vet Res. 2008 Apr 3;39(4):41 A prion disease of cervids: Chronic wasting disease Sigurdson CJ.
snip... *** twenty-seven CJD patients who regularly consumed venison were reported to the Surveillance Center***,
snip... full text ;
> However, to date, no CWD infections have been reported in people.
sporadic, spontaneous CJD, 85%+ of all human TSE, did not just happen. never in scientific literature has this been proven. if one looks up the word sporadic or spontaneous at pubmed, you will get a laundry list of disease that are classified in such a way;
sporadic = 54,983 hits
spontaneous = 325,650 hits
key word here is 'reported'. science has shown that CWD in humans will look like sporadic CJD.
SO, how can one assume that CWD has not already transmitted to humans? they can't, and it's as simple as that. from all recorded science to date, CWD has already transmitted to humans, and it's being misdiagnosed as sporadic CJD. ...terry
*** LOOKING FOR CWD IN HUMANS AS nvCJD or as an ATYPICAL CJD, LOOKING IN ALL THE WRONG PLACES $$$ ***
> However, to date, no CWD infections have been reported in people.
key word here is ‘reported’. science has shown that CWD in humans will look like sporadic CJD. SO, how can one assume that CWD has not already transmitted to humans? they can’t, and it’s as simple as that. from all recorded science to date, CWD has already transmitted to humans, and it’s being misdiagnosed as sporadic CJD. …terry
*** LOOKING FOR CWD IN HUMANS AS nvCJD or as an ATYPICAL CJD, LOOKING IN ALL THE WRONG PLACES $$$ ***
*** These results would seem to suggest that CWD does indeed have zoonotic potential, at least as judged by the compatibility of CWD prions and their human PrPC target. Furthermore, extrapolation from this simple in vitro assay suggests that if zoonotic CWD occurred, it would most likely effect those of the PRNP codon 129-MM genotype and that the PrPres type would be similar to that found in the most common subtype of sCJD (MM1).***
CWD TSE PRION AND ZOONOTIC, ZOONOSIS, POTENTIAL
Subject: Re: DEER SPONGIFORM ENCEPHALOPATHY SURVEY & HOUND STUDY
Date: Fri, 18 Oct 2002 23:12:22 +0100
From: Steve Dealler
Reply-To: Bovine Spongiform Encephalopathy Organization: Netscape Online member
To: BSE-L@ References:
Dear Terry,
An excellent piece of review as this literature is desperately difficult to get back from Government sites.
What happened with the deer was that an association between deer meat eating and sporadic CJD was found in about 1993. The evidence was not great but did not disappear after several years of asking CJD cases what they had eaten. I think that the work into deer disease largely stopped because it was not helpful to the UK industry...and no specific cases were reported. Well, if you dont look adequately like they are in USA currenly then you wont find any!
Steve Dealler
====
''The association between venison eating and risk of CJD shows similar pattern, with regular venison eating associated with a 9 FOLD INCREASE IN RISK OF CJD (p = 0.04).''
CREUTZFELDT JAKOB DISEASE SURVEILLANCE IN THE UNITED KINGDOM THIRD ANNUAL REPORT AUGUST 1994
Consumption of venison and veal was much less widespread among both cases and controls. For both of these meats there was evidence of a trend with increasing frequency of consumption being associated with increasing risk of CJD. (not nvCJD, but sporadic CJD...tss) These associations were largely unchanged when attention was restricted to pairs with data obtained from relatives. ...
Table 9 presents the results of an analysis of these data.
There is STRONG evidence of an association between ‘’regular’’ veal eating and risk of CJD (p = .0.01).
Individuals reported to eat veal on average at least once a year appear to be at 13 TIMES THE RISK of individuals who have never eaten veal.
There is, however, a very wide confidence interval around this estimate. There is no strong evidence that eating veal less than once per year is associated with increased risk of CJD (p = 0.51).
The association between venison eating and risk of CJD shows similar pattern, with regular venison eating associated with a 9 FOLD INCREASE IN RISK OF CJD (p = 0.04).
There is some evidence that risk of CJD INCREASES WITH INCREASING FREQUENCY OF LAMB EATING (p = 0.02).
The evidence for such an association between beef eating and CJD is weaker (p = 0.14). When only controls for whom a relative was interviewed are included, this evidence becomes a little STRONGER (p = 0.08).
snip...
It was found that when veal was included in the model with another exposure, the association between veal and CJD remained statistically significant (p = < 0.05 for all exposures), while the other exposures ceased to be statistically significant (p = > 0.05).
snip...
In conclusion, an analysis of dietary histories revealed statistical associations between various meats/animal products and INCREASED RISK OF CJD. When some account was taken of possible confounding, the association between VEAL EATING AND RISK OF CJD EMERGED AS THE STRONGEST OF THESE ASSOCIATIONS STATISTICALLY. ...
snip...
In the study in the USA, a range of foodstuffs were associated with an increased risk of CJD, including liver consumption which was associated with an apparent SIX-FOLD INCREASE IN THE RISK OF CJD. By comparing the data from 3 studies in relation to this particular dietary factor, the risk of liver consumption became non-significant with an odds ratio of 1.2 (PERSONAL COMMUNICATION, PROFESSOR A. HOFMAN. ERASMUS UNIVERSITY, ROTTERDAM). (???...TSS)
snip...see full report ;
http://web.archive.org/web/20090506050043/http://www.bseinquiry.gov.uk/files/yb/1994/08/00004001.pdf
http://web.archive.org/web/20090506050007/http://www.bseinquiry.gov.uk/files/yb/1994/10/00003001.pdf
http://web.archive.org/web/20090506050244/http://www.bseinquiry.gov.uk/files/yb/1994/07/00001001.pdf
Stephen Dealler is a consultant medical microbiologist deal@airtime.co.uk
BSE Inquiry Steve Dealler
Management In Confidence
BSE: Private Submission of Bovine Brain Dealler
snip...see full text;
MONDAY, FEBRUARY 25, 2019
***> MAD DOGS AND ENGLISHMEN BSE, SCRAPIE, CWD, CJD, TSE PRION A REVIEW 2019
***> ''The association between venison eating and risk of CJD shows similar pattern, with regular venison eating associated with a 9 FOLD INCREASE IN RISK OF CJD (p = 0.04).''
***> In conclusion, sensory symptoms and loss of reflexes in Gerstmann-Sträussler-Scheinker syndrome can be explained by neuropathological changes in the spinal cord. We conclude that the sensory symptoms and loss of lower limb reflexes in Gerstmann-Sträussler-Scheinker syndrome is due to pathology in the caudal spinal cord. <***
***> The clinical and pathological presentation in macaques was mostly atypical, with a strong emphasis on spinal cord pathology.<***
***> The notion that CWD can be transmitted orally into both new-world and old-world non-human primates asks for a careful reevaluation of the zoonotic risk of CWD. <***
***> All animals have variable signs of prion neuropathology in spinal cords and brains and by supersensitive IHC, reaction was detected in spinal cord segments of all animals.<***
***> In particular the US data do not clearly exclude the possibility of human (sporadic or familial) TSE development due to consumption of venison. The Working Group thus recognizes a potential risk to consumers if a TSE would be present in European cervids.'' Scientific opinion on chronic wasting disease (II) <***
***Moreover, sporadic disease has never been observed in breeding colonies or primate research laboratories, most notably among hundreds of animals over several decades of study at the National Institutes of Health25, and in nearly twenty older animals continuously housed in our own facility.***
Even if the prevailing view is that sporadic CJD is due to the spontaneous formation of CJD prions, it remains possible that its apparent sporadic nature may, at least in part, result from our limited capacity to identify an environmental origin.
TUESDAY, MAY 11, 2021
> A Unique Presentation of Creutzfeldt-Jakob Disease in a Patient Consuming Deer Antler Velvet <
Conclusion
We believe that our patient’s case of CJD is highly suspicious for cervid etiology given the circumstances of the case as well as the strong evidence of plausibility reported in published literature. This is the first known case of CJD in a patient who had consumed deer antler velvet. Despite the confirmed diagnosis of CJD, a causal relationship between the patient’s disease and his consumption of deer antler velvet cannot be definitively concluded.
Supplemental data including molecular tissue sample analysis and autopsy findings could yield further supporting evidence. Given this patient’s clinical resemblance to CBD and the known histological similarities of CBD with CJD, clinicians should consider both diseases in the differential diagnosis of patients with a similarly esoteric presentation. Regardless of the origin of this patient’s disease, it is clear that the potential for prion transmission from cervids to humans should be further investigated by the academic community with considerable urgency.
''We believe that our patient’s case of CJD is highly suspicious for cervid etiology given the circumstances of the case as well as the strong evidence of plausibility reported in published literature. This is the first known case of CJD in a patient who had consumed deer antler velvet. Despite the confirmed diagnosis of CJD, a causal relationship between the patient’s disease and his consumption of deer antler velvet cannot be definitively concluded.''
CREUTZFELDT JAKOB DISEASE: A Unique Presentation of Creutzfeldt-Jakob Disease in a Patient Consuming Deer Antler Velvet
i was warning England and the BSE Inquiry about just this, way back in 1998, and was ask to supply information to the BSE Inquiry. for anyone that might be interested, see;
Singeltary submission to the BSE Inquiry on CJD and Nutritional Supplements 1998
ABOUT that deer antler spray and CWD TSE PRION... I have been screaming this since my neighbors mom died from cjd, and she had been taking a supplement that contained bovine brain, bovine eyeball, and other SRMs specified risk materials, the most high risk for mad cow disease. just saying...
I made a submission to the BSE Inquiry long ago during the BSE Inquiry days, and they seemed pretty interested.
Sender: "Patricia Cantos"
To: "Terry S Singeltary Sr. (E-mail)"
Subject: Your submission to the Inquiry
Date: Fri, 3 Jul 1998 10:10:05 +0100 3 July 1998
Mr Terry S Singeltary Sr. E-Mail: Flounder at wt.net Ref: E2979
Dear Mr Singeltary, Thank you for your E-mail message of the 30th of June 1998 providing the Inquiry with your further comments. Thank you for offering to provide the Inquiry with any test results on the nutritional supplements your mother was taking before she died. As requested I am sending you our general Information Pack and a copy of the Chairman's letter. Please contact me if your system cannot read the attachments. Regarding your question, the Inquiry is looking into many aspects of the scientific evidence on BSE and nvCJD.
I would refer you to the transcripts of evidence we have already heard which are found on our internet site at ;
http://www.bse.org.uk.
Could you please provide the Inquiry with a copy of the press article you refer to in your e-mail? If not an approximate date for the article so that we can locate it? In the meantime, thank you for you comments. Please do not hesitate to contact me on... snip...end...tss
everyone I tell this too gets it screwed up...MY MOTHER WAS NOT TAKING THOSE SUPPLEMENTS IPLEX (that I ever knew of). this was my neighbors mother that died exactly one year previously and to the day of sporadic CJD that was diagnosed as Alzheimer’s at first. my mother died exactly a year later from the Heidenhain Variant of Creutzfeldt Jakob Disease hvCJD, and exceedingly rare strains of the ever growing sporadic CJD’s. both cases confirmed. ...
kind regards, terry
TSEs i.e. mad cow disease's BSE/BASE and NUTRITIONAL SUPPLEMENTS IPLEX, mad by standard process; vacuum dried bovine BRAIN, bone meal, bovine EYE, veal Bone, bovine liver powder, bovine adrenal, vacuum dried bovine kidney, and vacuum dried porcine stomach. also; what about potential mad cow candy bars ? see their potential mad cow candy bar list too... THESE are just a few of MANY of just this ONE COMPANY...TSS
''So, in sum, dietary supplements sold in the United States often contain ruminant tissues from undisclosed sources. Personally, I am rather squeamish and I don't think I would be eating prostate or testicle or pituitary, but I am also a little bit wary of consuming products with those glands, not just out of personal repugnance but simply out of a health concern.'' DEPARTMENT OF HEALTH AND HUMAN SERVICES FOOD AND DRUG ADMINISTRATION CENTER FOR BIOLOGICS EVALUATION AND RESEARCH TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHIES ADVISORY COMMITTEE Friday, January 19, 2001
snip...
15 Open Public Hearing
16 DR. FREAS: We are opening the open public hearing
17 now. We have received one response to speak in this
18 afternoon's open public hearing. That is from Dr. Scott
19 Norton. If Dr. Norton is here, would you please come
20 forward. You can either use the podium or the microphone,
21 whichever is your choice.
22 DR. NORTON: I am Scott Norton and I am a
23 physician in the Washington D.C. area. I am here speaking
24 as a private citizen today.
25 I first became concerned about the presence of 231
1 tissues from ruminant animals in dietary supplements about
2 six months ago and expressed my concern in a letter that was 3 published in New England Journal of Medicine in July of Year 4 2000. 5 A couple of the products that I had looked at, and 6 examined their labels, that raised these concerns I brought 7 in right here. I will just read some of the organs that are 8 found in one that is called Male Power. Deer antler, 9 pancreas, orchic--despite what we just heard that the FDA
10 prefers the term "testicular tissue" to be written on the
11 labels, I have never seen a dietary supplement say
12 "testicle." They always say "orchis" or "orchic" which may
13 sound rather flowery to the etymologically impaired--thymus,
14 adrenal, heart, lymph node, prostate, spleen and pituitary.
15 There are actually seventeen organs in that particular
16 product.
17 There is another product that is called Brain
18 Nutrition that tells us that it is vitamins and minerals
19 essential for important brain function. It does not mention
20 that there is any glandulars on at least the bold print. 21 But if you look at the small print on the back, we learn
22 that it has brain extract and pituitary extract, raw, in
23 there.
24 We know that many of the organs that can be found
25 in the dietary supplements do fall in that list of organs
232
1 that are suspect for contamination with TSEs, the labels, in 2 nearly all cases, identify neither the animal source nor the 3 geographic location from which the organs were derived. I 4 have seen one line that did specify from New Zealand cattle 5 but no other manufacturer will list either the species or 6 the geographic location. 7 The FDA's and the USDA's import alerts that we 8 just learned about prohibit the use of these organs in 9 foods, medicines and medical devices. But my reading of the
10 alert, 17-04, suggests that DSHEA does allow some loopholes
11 for these tissues to possible slip in.
12 I will just read from 17-04 that we heard. On the
13 first page, it says that, "This alert does not establish any
14 obligations on regulated entities." I love seeing
15 legislation that starts out with that caveat.
16 Then it says, further, "The USDA regulations do
17 not apply to bovine-derived materials intended for human
18 consumption as finished dietary supplements." We also learn
19 that the prohibition, or the import alert, is limited to
20 bulk lots of these tissues, completed tissues, from BSE-
21 derived countries. It does not mention if it is not a bulk
22 import or if it is raw materials rather than finished
23 materials.
24 Further, we know that it is strongly recommended
25 but not actually prohibited in the language here. So I have
233
1 not taken the assurances from that import alert that Dr. 2 Moore was trying to convey to us. 3 So, in sum, dietary supplements sold in the United 4 States often contain ruminant tissues from undisclosed 5 sources. Personally, I am rather squeamish and I don't 6 think I would be eating prostate or testicle or pituitary, 7 but I am also a little bit wary of consuming products with 8 those glands, not just out of personal repugnance but simply 9 out of a health concern.
10 So my question to the advisory committee is this;
11 is my caution reasonable and, if it is, should we take
12 further efforts to inform, or even protect, the American
13 public from such exposure.
14 I was curious about Dr. Moore's remarks. I sensed
15 two messages. One was the initial reassurance that FDA has
16 the regulatory authority but then I also learned that it is
17 the manufacturer's responsibility to provide those 18 assurances, that the FDA doesn't actually inspect.
19 I think that the FDA commissioners from Harvey
20 Wylie to David Kessler would say that that track record has
21 proven itself.
22 Thank you very much.
23 [Applause.]
24 DR. BROWN: Thanks, Dr. Norton. 25 Committee Discussion snip...
17 But I think that we could exhibit some quite 18 reasonable concern about blood donors who are taking dietary 19 supplements that contain a certain amount of unspecified- 20 origin brain, brain-related, brain and pituitary material. 21 If they have done this for more than a sniff or something 22 like that, then, perhaps, they should be deferred as blood 23 donors. 24 That is probably worse than spending six months in 25 the U.K. 1/19/01 3681t2.rtf(845) page 501 http://www.fda.gov/ohrms/dockets/ac/cber01.htm
Advisory Committees: CBER 2001 Meeting Documents
see actual paper;
-------- Original Message --------
Subject: METABOLIFE AND TSEs GAO-03-494 ''URGENT DATA''
Date: Thu, 01 May 2003 11:23:01 -0500
From: "Terry S. Singeltary Sr."
To: NelliganJ at gao.gov
The General Accounting Office (GAO) today released the following reports and testimonies:
REPORTS
1. Dietary Supplements: Review of Health-Related Call Records for Users of Metabolife 356. GAO-03-494, March 31.
see updated url link;
GREETINGS GAO:
i was surprised that i did not see any listing of bovine tissue in metabolife on it's label. have they ceased using these desiccated tissues???
i see that the lable on this product METABOLIFE 356, does not state that it has any tissues of desiccated bovine organs? i no the product use to, so i am curious if they have ceased the use of the tissues of cattle they use to use (see below)???
METABOLIFE 356 BOVINE COMPLEX/GLANDULAR SYSTEM OVARIES, PROSTATE, SCROTUM AND ADRENAL USDA SOURCE CATTLE
i tried warning them years ago of this potential threat of CJD/TSEs;
From: Randy Smith To: "'flounder at wt.net'" Subject: Metabolife Date: Mon, 7 Dec 1998 14:21:35 -0800
Dear Sir,
We are looking at reformulation. I agree that slow virus diseases present a problem in some areas of the world.
Our product uses healthy USDA inspected cattle for the glandular extract.
If you have any links to more information on this subject I would like to examine them.
Thank you for your interest and concern,
Dr. Smith ============
snip...
see full text links of this archived information ;
with that, there is abundance of other scientific studies that show it's very likely CWD will or already has, transmit to humans, it's just that no one wants to believe it, they simply don't want it to happen, neither do i, but in the real world, imo, it's already happened and is being masked as sporadic CJD imo, you can see this science archived here, skroll down to about the halfway point of this blog on the recent cases of cwd in Texas;
see about half way down to;
***> PRION CONFERENCE 2022 ABSTRACTS CWD TSE PrP ZOONOSIS
creutzfeldt jakob disease IS NOT ONE IN A MILLION!
2023 COLLINGE ET AL, 1 IN 5,000!
Professor John Collinge on tackling prion diseases, sCJD accounts for around 1 in 5000 deaths worldwide
MONDAY, SEPTEMBER 11, 2023
Professor John Collinge on tackling prion diseases
“The best-known human prion disease is sporadic Creutzfeldt-Jakob disease (sCJD), a rapidly progressive dementia which accounts for around 1 in 5000 deaths worldwide.”
There is accumulating evidence also for iatrogenic AD. Understanding prion biology, and in particular how propagation of prions leads to neurodegeneration, is therefore of central research importance in medicine.
February 14, 2001
Diagnosis and Reporting of Creutzfeldt-Jakob Disease
Terry S. Singeltary, Sr
Author Affiliations
JAMA. 2001;285(6):733-734. doi:10-1001/pubs.JAMA-ISSN-0098-7484-285-6-jlt0214
To the Editor: In their Research Letter, Dr Gibbons and colleagues1 reported that the annual US death rate due to Creutzfeldt-Jakob disease (CJD) has been stable since 1985. These estimates, however, are based only on reported cases, and do not include misdiagnosed or preclinical cases. It seems to me that misdiagnosis alone would drastically change these figures. An unknown number of persons with a diagnosis of Alzheimer disease in fact may have CJD, although only a small number of these patients receive the postmortem examination necessary to make this diagnosis. Furthermore, only a few states have made CJD reportable. Human and animal transmissible spongiform encephalopathies should be reportable nationwide and internationally.
posted by Terry S. Singeltary Sr. at
3:19 PM
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