Friday, November 18, 2022

Wisconsin Lincoln County Deer Farm Confirmed with CWD

Wisconsin Lincoln County Deer Farm Confirmed with CWD

Lincoln County Deer Farm Confirmed with CWD

FOR IMMEDIATE RELEASE: November 18​, 2022

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.gov

Download PDF

MADISON, Wis. — The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that a Lincoln County deer farm has tested positive for chronic wasting disease (CWD). The samples were confirmed by the National Veterinary Services Laboratories in Ames, Iowa.

The positive result came from a 5-year-old white-tailed buck. The farm has been placed under quarantine, where it will remain while DATCP and the U.S. Department of Agriculture (USDA) veterinarians and staff conduct the investigation.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal's death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement, and permit requirements.

More information

About CWD: 


About DATCP's farm-raised deer program:


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Wisconsin Vernon County Deer Farm Confirmed With CWD


Vernon County Deer Farm Confirmed With CWD


FOR IMMEDIATE RELEASE: October 5, 2022


Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.gov


MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) has confirmed that a white-tailed buck at a Vernon County deer farm has tested positive for chronic wasting disease (CWD). The results were confirmed by the National Veterinary Services Laboratories in Ames, Iowa.


The 1-acre farm has been placed under quarantine, meaning no live animals or whole carcasses are permitted to leave the property. DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff will conduct an epidemiological investigation.


CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal’s death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement, and permit requirements.


More information


● About CWD: 



https://datcp.wi.gov/Pages/Programs_Services/ChronicWastingDisease.aspx



● DATCP’s farm-raised deer program:





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Wisconsin CWD Update Wild and Farmed

Wisconsin CWD Wild


Wisconsin CWD Farmed


CWD status captive herds


Wisconsin Waukesha County Herd Depopulated After CWD Detection

Waukesha County Herd Depopulated After CWD Detection 

FOR IMMEDIATE RELEASE: August 16, 2022 

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.gov 

MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that a Waukesha County deer farm that tested positive for chronic wasting disease (CWD) earlier this year has been depopulated. Of the 20 animals depopulated, eight tested positive for the disease. 

In February, DATCP immediately quarantined the farm when two 3-year-old white-tailed bucks tested positive for CWD. A quarantine means that no live animals or whole carcasses are permitted to leave the property. The U.S. Department of Agriculture (USDA) Wildlife Services depopulated the herd on August 3, and samples were submitted to the USDA National Veterinary Services Laboratory in Ames, Iowa, for testing. 

The farm owner will receive federal indemnity for the depopulated animals. The farm will not be permitted to hold cervids for five years, and during that period it must maintain fences and submit to routine inspections. 

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal’s death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement and permit requirements. 

More information  About CWD:


 About DATCP’s farm-raised deer program:


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4 MOST ENDANGERED WHITETAIL DESTINATIONS IN AMERICA

Mark Kenyon

MARK KENYON Jun 3, 2022

4 Most Endangered Whitetail Destinations in America

It would not be hyperbole to say that we’re quite possibly living in the “golden age” of whitetail deer hunting.

Deer populations might be higher now than ever before and, at least since records have been kept, bigger, older bucks have never been more numerous. Hunters smash world and state records every year. The good times sure seem to be rolling.

But this isn’t true across all aspects or locales within the whitetail range, nor is it guaranteed to remain true into the future. All good things can and do come to an end.

The future of deer and deer hunting, as is the case with almost every aspect of the natural world today, exists on a precipice. Serious threats like disease, habitat loss, resource management, and public opinion all loom on the horizon. Four specific threatened locations, in particular, stand out as representative of larger issues threatening our nation’s deer hunting future. These are, in our estimation, the four most endangered whitetail destinations in America.

Read on for an introduction to these special yet threatened whitetail locales. And find out what we can do as deer hunters and stewards of the land to address the challenges in these specific locations and across the nation.

SOUTHWESTERN WISCONSIN

Greatest Threat: Chronic Wasting Disease

Southwest Wisconsin, a world-renowned big buck destination, is also ground zero for chronic wasting disease. The 100% fatal neurological disease impacting whitetails and other deer species has now spread to 29 states across the country. CWD is widely recognized as possibly the greatest existential threat to the future of whitetail hunting, and no place is it more ubiquitous than Wisconsin’s driftless area.

In some regions here, hunters are observing population-level impacts and CWD prevalence rates have hit as high as 30%. In more practical terms, this means that some areas of the whitetail-crazy state of Wisconsin might be experiencing the beginnings of downward trends in populations due to CWD. Almost one in three deer tested in these areas are testing positive.
While CWD’s large-scale impact on deer populations is no joke, an equally concerning risk is the impact that positive tests have on the desire to hunt and eat deer at all. While transmission from deer to humans hasn’t been documented, it’s theoretically possible—akin to what happened with Mad Cow Disease in the 1990s. For this reason, the CDC currently advises hunters not to consume venison from a CWD-positive deer. The result of all this is that a lot of hard-earned venison is getting thrown in the dump already, and things, hypothetically, stand to worsen.

This worst-in-class state of affairs is partly due to a passive approach to CWD management that Wisconsin adopted in 2012, moving away from their “earn a buck” rule, stopping targeted population controls, and making testing in known CWD areas only voluntary.

“Because of the passive management approach taken by Wisconsin, CWD is endemic to five southwest counties, has spread to surrounding counties, and has been found in 38 of the state’s 72 counties,” said southwestern Wisconsin resident, hunter, and land consultant Doug Duren. “In some areas in those counties where prevalence is being studied, over 50% of adult bucks and over 35% of adult does are CWD positive.”

In conversations with other area residents, Duren heard anecdotal reports of seeing fewer older deer and mature bucks, increasing numbers of late-stage infected animals in need of putting down, and already dead deer.
“One member of a group of hunters with a lease in Iowa County, Wisconsin told me they decided to give up their lease and find opportunity elsewhere as every buck they killed in the past three years tested positive for CWD,” he said. “This is a cautionary tale.”

While there is no single simple fix to this problem, the recently introduced Chronic Wasting Disease Research and Management Act would designate $35 million in badly needed funding for CWD research and another $35 million for management and surveillance that would certainly help the situation in Wisconsin and beyond. Click here to let your senators know this is an issue of supreme importance to deer hunters in your state.

SNIP...

TEXAS

Greatest Threat: Captive Deer Industry

The great state of Texas sports one of the most robust and proud deer hunting cultures in the nation, but it’s also home to what some consider the greatest threat to deer hunting in all of America: the captive deer industry.

The debate around the captive deer industry is complicated, long-standing, and fraught, but the issues can be distilled into two main categories. First is the well-documented risk of spreading CWD by way of the transfer and sale of captive deer. Second is the negative impact that captive deer shooting facilities, and the media created around them, can have on the public perception of hunting in America and the North American Model of Conservation.

Texas is home to more captive deer facilities than any other state by a long shot, with 858 locations. The conditions present at such facilities, with high numbers of animals in close quarters, are well known to be a perfect storm for the spread of CWD. Not to mention the fact that given the transactional nature of captive deer breeding, many animals are sold and shipped across wide swaths of the country, potentially cross-contaminating new herds of deer all along the way.

While there have been increasing amounts of testing and monitoring of these herds for CWD, the effectiveness of these efforts are feared to be sub-par at best. “The profit motive is so great, it is common for deer breeders to hide infections, or simply not test, and thus spread the disease,” writes Whit Fosborg, CEO of the Theodore Roosevelt Conservation Partnership.

All of this makes Texas a likely ground zero for future CWD issues, a perfect example being a 2021 investigation that identified the release of more than 1,700 deer from seven Texas captive deer facilities that could have been exposed to chronic wasting disease. “Overwhelmingly, the CWD hot zone maps radiate from captive facilities across the state,” said Texas resident and bowhunter K.C. Smith.

Furthermore, the proliferation of captive deer facilities and “canned shooting preserves” threaten to shine a poor light on the larger hunting public, potentially hemorrhaging support for the free-range pursuit of whitetails in Texas and elsewhere. While the vast majority of non-hunters support hunting for food, those figures reverse when considering “trophy hunting.” Animals that are custom-bred to grow the largest antlers possible and then housed in high-fenced small enclosures and sold off to be shot by the highest bidder represents the most egregious example of what trophy hunting could be percieved as. Regardless of whether or not most high-fence facilities fit this description, the worst offenders are unfortunately what most people notice. We as whitetail hunters risk being defined by our most fringe element, especially in the Lone Star state.

It’s important to note that many of the high fence deer facilities in Texas very well might be well-managed and owned by good honest deer-loving people, Smith was quick to remind me. This is not as cut and dry of an issue as some non-Texans want to believe it is.

“I have an easy set of values to live by: don’t hurt people and don’t take their stuff,” he said. “However, when the deer ‘owned’ by another person are threatening to take away the future of my kids’ and everyone’s deer hunting, something must be done.”

Support for the Chronic Wasting Disease Research and Management Actwill help just as much here as in Wisconsin, as would advocating for greater oversightof the captive deer industry in Texas and beyond.


WEDNESDAY, MAY 18, 2022 

Wisconsin Walworth County Deer Farm Tests Positive for CWD 



SUNDAY, JULY 24, 2022 
More than 300 deer will be killed at a Wisconsin farm found to have chronic wasting disease 


FRIDAY, MAY 27, 2022 
Wisconsin Antigo deer farm depopulated due to CWD; large Taylor County facility could be next

WISCONSIN DNR CONFIRMS CWD IN WILD DEER HARVESTED IN VILAS COUNTY WITH A TOTAL OF 9,040 POSITIVE WILD CASES TO DATE

FOR IMMEDIATE RELEASE: 2021-12-17

Contact: DNR Office of Communications


DNR CONFIRMS CWD IN WILD DEER HARVESTED IN VILAS COUNTY

BAITING AND FEEDING BANS RENEWED FOR VILAS AND FOREST COUNTIES AND REMAIN IN EFFECT FOR ONEIDA COUNTY

The Wisconsin DNR confirms CWD in wild deer harvested in Vilas County. Baiting and feeding bans renewed for Vilas and Forest Counties and remain in effect for Oneida County. MADISON, Wis. – The Wisconsin Department of Natural Resources (DNR) confirms a wild deer tested positive for chronic wasting disease (CWD) in the Town of Lincoln in Vilas County. This is the first confirmed wild positive case of CWD in Vilas County.

As required by state law, the DNR enacts three-year baiting and feeding bans in counties where CWD has been detected and two-year bans in adjoining counties that lie within 10 miles of a CWD detection.

Following state law, the DNR will renew a three-year baiting and feeding ban in Vilas County as well as a two-year ban in Forest county, as the deer was harvested within 10 miles of the county line. Oneida County is also within 10 miles of the Vilas positive’s harvest location but is already under a longer three-year baiting and feeding ban due to a positive CWD detection at a game farm earlier this year.

Baiting or feeding deer encourages them to congregate unnaturally around a shared food source where sick deer can spread CWD through direct contact with healthy deer or by leaving behind infectious prions in their bodily secretions.

More information regarding baiting and feeding regulations and CWD in Wisconsin is available here.

The DNR asks deer hunters in Vilas, Forest and Oneida counties to assist with efforts to identify where CWD occurs. Those harvesting deer within 10 miles of the newly detected positive case are especially encouraged to have their harvested adult deer tested for CWD. Collecting CWD samples is essential for assessing where and to what extent CWD occurs in deer across the state.

The DNR will work with Vilas County Deer Advisory Council members to schedule a meeting in January to discuss response actions. Members of the public will be invited to attend this meeting and will have the opportunity to provide input.

CWD is a fatal, infectious nervous system disease of deer, moose, elk and reindeer/caribou. It belongs to the family of diseases known as transmissible spongiform encephalopathies (TSEs) or prion diseases. The Wisconsin DNR began monitoring the state's wild white-tailed deer population for CWD in 1999. The first positives were found in 2002.

Information on how to have deer tested during the 2020-21 hunting seasons is available here.




CUMULATIVE CWD MAPS


THURSDAY, JANUARY 20, 2022 
Wisconsin this month fortified its standing as the capital of the world for Chronic Wasting Disease CWD TSE PrP 
Wisconsin Lawmakers should end their frolic with ‘Hunter Nation’

Kevin Wilson 

CWD hunters

It’s time for Wisconsin lawmakers to work with hunters, anglers and trappers to address chronic wasting disease and other challenges to the state’s natural resources.

Patrick Durkin

Wisconsin this month fortified its standing as the capital of the world for chronic wasting disease by verifying the plague in wild deer in 38 of the state’s 72 counties.

Yep, Wisconsin now has more counties with CWD in free-ranging deer than it does counties without. We passed the halfway mark Jan. 11 when the Department of Natural Resources reported two adult bucks in Monroe County and one deer in Oconto County tested positive for the always-fatal disease.

We started the 2021 hunting seasons with CWD in 34 counties but made it 35 when the DNR confirmed a sick adult doe Oct. 29 in Fond du Lac County. We then reached the halfway point Dec. 12 when the DNR confirmed a sick yearling (18 months old) buck in Vilas County. 

And just think what we’d find if we searched aggressively for CWD. All four newly christened CWD counties found their first cases despite modest sampling efforts. Hunters in Monroe County have provided a respectable 373 samples during the current testing year, but hunters in Oconto provided only 162; Vilas, 161; and Fond du Lac, 105.

The 2021 sampling year ends March 31, but it’s safe to report that 25 Wisconsin counties will end the year with less than 100 samples tested, given the hunt is largely over.

As of Jan.15, Wisconsin has confirmed 9,450 CWD cases since discovering the disease in three deer shot west of Madison in November 2001. The DNR has documented 1,283 cases statewide so far this year after testing 16,165 samples. That’s 8% of all tests, which is similar to 2020’s rate.

CWD sampling declined this past fall, with 2,749 fewer samples (-14.5%) statewide than in 2020 (18,914). Most samples come from the DNR’s southern farmland zone, where sampling fell 22% from 9,3892 a year ago to 7,277.

Despite the decline, 1,234 deer (17%) have tested positive so far in that zone, which is 4 percentage points lower than the 2020 total. For perspective, when the DNR tested similar numbers (7,097 deer) in the Southern farmlands in 2010, it found 219 (3%) CWD cases, or 5.6 times fewer doomed deer.

Elsewhere, CWD cases more than doubled from 19 to 39 in central Wisconsin’s farmlands this year, accounting for 40% of the zone’s historical total of 98 cases. In addition, deer baiting is now banned in 58 Wisconsin counties. The 14 counties where the controversial practice remains are Douglas, Bayfield, Ashland, Iron, Sawyer, Rusk, Price, St. Croix, Pierce, Lincoln, Brown, Manitowoc, Kewaunee and Door. 

Iowa County again leads the state with 315 cases this year, or 31% of the 1,026 samples provided. Next was Richland, 270 cases (21% positive); Sauk, 222 (25%); Dane, 151 (17%); Grant, 80 (14%); and Columbia, 72 (15%).

Cooperation from hunters remains poor as indifference reigns. In Sauk County, hunters tested only 15% of the 6,002 deer they registered during the 2021 gun, crossbow and archery seasons. Further, Dane County hunters tested 23.5% of 3,833 registered deer; Richland County, 24% of 5,228; Iowa County, 28% of 3,607; Grant County, 0.09% of 6,176; and Columbia County, 0.08% of 6,007.

A soon-to-be released DNR survey from 2019 also found that 70% of Wisconsin hunters have never submitted a deer for CWD testing. The survey also found that 33% of hunters who get their deer tested don’t wait for results before eating it.

Despite such dismal numbers, GOP lawmakers are ignoring the mess by distracting everyone with the Wisconsin Sporting Freedom Act. This bag of stale air from the Kansas-based group Hunter Nation doesn’t even mention CWD.

We pause here to ask, “Sporting Freedom Act”? What is that? Do politicians think they can just insert “freedom” in a bill’s title, and we’ll snap to attention and salute? As silly as “freedom fries” sounded in February 2003, at least the word choice made sense. You’ll recall folks were mad at France for not supporting the war in Iraq, and urged restaurants to purge “French” from their menus.

Again I ask: Sporting Freedom Act? Freedom from what? Science? Biology? A future for deer hunting in Wisconsin? 

If you think that’s harsh, explain how mandating the annual raising and releasing of 200,000 pheasants and 100,000 brook trout is relevant to liberty and freedom, or wise fish and wildlife management?

And how about the act’s “turkey hunting simplification” bill? Luke Hilgemann, CEO/president of Hunter Nation, recently wrote that our current spring turkey season confuses Wisconsin hunters. Really? Name someone who’s puzzled. True, our current season of six weeklong hunting periods might baffle your average lobbyist, state senator, assembly-creature, and Gov. Scott Walker’s four appointees to the Natural Resources Board. But Wisconsin’s spring season wins praise from 70% to 80% of turkey hunters surveyed annually.

Another bill in the “Freedom Act” infuriates many retired conservation wardens and the Wisconsin Hunter Education Instructor Association. The Mentored Hunt Bill (SB-611 and AB-670) would allow beginning hunters to earn their hunter-education certificate by simply taking an online course and then going afield with a licensed adult hunter, not a certified instructor.

Yes, that shortcut was allowed the past year because of COVID-19, and it sounded OK the first time I read it, but I was wrong. It doesn’t deserve our Legislature’s permanent blessing.

Hilgemann also recently wrote: “Hunting … in Wisconsin is a sacred tradition (and the Freedom Act sends) a strong message about our heritage and way of life. Not only does the Wisconsin Sporting Freedom Act reform rules for hunters and anglers, it helps ensure that future generations still have access to the resources that help these sacred traditions thrive through proactive resource management.” 

Huh? You’ll find more substance in a bag of cheetos. Hunter Nation and its GOP backers insult Wisconsin’s hunting heritage by ignoring all the work of recent decades that made hunting so safe.

The WHEIA notes that conservation wardens annually investigated 174 hunting accidents, including 17 deaths, from 1956 to 1966 in Wisconsin. The state’s hunter education program began in 1967. Since then, over 17,000 volunteer instructors helped reduce those numbers to an annual average of 21 accidents and 1.8 deaths.

Y’know, we don’t need Hunter Nation messing with our programs. It’s time GOP lawmakers stop frolicking with these amateurs and get serious about addressing CWD and other obvious challenges to our natural resources.

That won’t happen, however, if hunters, anglers and trappers don’t hold lawmakers accountable with emails, letters, phone calls and votes.

Hunter Nation exposed this Legislature’s scarcity of thinkers and leaders. They must be told what to do.

— Patrick Durkin is a free-lance writer who covers outdoors recreation in Wisconsin. Contact him at patrickdurkin56@gmail.com, or at @patrickdurkinoutdoors.com on Facebook and Instagram. 

Kevin Wilson




WISCONSIN CWD TOTAL 2021 1326 POSITIVE


WISCONSIN CWD TOTAL 2022 to date



Antigo deer farm depopulated due to CWD; large Taylor County facility could be next

Paul A. Smith

Milwaukee Journal Sentinel

Captive white-tailed deer stand in an enclosure at a Burnett County, Wis. deer farm.

A Langlade County deer farm infected with chronic wasting disease was depopulated last week, the first such action at a CWD-positive Wisconsin facility in more than a year, according to the Department of Trade, Agriculture and Consumer Protection.

The cull, performed May 18 by sharpshooters, removed the approximately 50 deer remaining at Van Ooyen Whitetails in Antigo, said Laurie Seale, vice-president of Whitetails of Wisconsin, an association of the state's licensed deer farmers.

Chronic wasting disease was discovered Aug. 13, 2021, at the facility when a 1-year-old doe tested positive for the fatal neurological disease. The farm had previously been placed under quarantine because it received a shipment of deer from a CWD-positive facility.

Indemnity payment to Van Ooyen will be made from federal funds, according to DATCP. The amount was not disclosed.

Federal indemnity is based on 95% of appraised value not to exceed $3,000 per animal.

Nineteen other CWD-positive deer farms remain open in Wisconsin, according to DATCP records.

Wisconsin has 301 registered deer farms and 39 are CWD-positive, according to state data. Twenty-two, or 56%, have been found to be CWD-positive in the last four years.

Regulations, enforcement and technology are failing to prevent the spread of CWD in both the deer farming industry and the wild deer herd.

That poses a concern among deer farmers, who face quarantines and loss of business, as well as Department of Natural Resources managers and biologists and many wildlife advocates.

Chronic wasting disease is a fatal neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain. Testing for CWD is typically performed after an animal’s death.

DATCP regulates deer farms for registration, record keeping, disease testing, animal movement and permit requirements.

The disease has not been found to cause illness in livestock or humans. However, health officials do not recommend humans consume meat from a CWD-positive animal.

Since being found in Colorado in the 1960s, CWD has been documented in 30 states and several foreign countries, according to the National Wildlife Health Center of the U.S. Geological Survey. The disease was detected in Wisconsin in wild and captive deer in 2002.

The disease was found at eight more Wisconsin captive deer facilities – in Eau Claire, Langlade, Outagamie, Portage, Sauk, Taylor, Vilas and Waukesha counties – in 2021 alone, according to DATCP reports. Two more, in Walworth and Waukesha counties, have been added so far this year.

Including Van Ooyen Whitetails, twenty of the 39 have been depopulated and indemnity paid to the owners.

The largest deer farm depopulation in recent years occurred in November 2015 when 228 animals were killed at Fairchild Whitetails in southeastern Eau Claire County. More than two dozen deer tested positive for CWD at the site.

The state paid Fairchild Whitetails $298,000 in indemnity.

An even larger depopulation is looming, however, at Maple Hill Farms near Gilman in Taylor County. The facility, owned by WOW vice-president Laurie Seale, is holding about 300 deer.

And fawns are expected to be born any day, which could add substantially to the number of deer to be killed. 

Chronic wasting disease was discovered at Maple Hills last July and discussions between Seale and DATCP and U.S Department of Agriculture officials have been taking place for months. 

"We continue working toward depopulation in Taylor County, but details are still being worked out with USDA," said DATCP public information officer Kevin Hoffman.

The cost of the Maple Hills depopulation, whether paid from the state or federal treasury, will likely exceed the $298,000 paid in the 2015 Eau Claire County case.

It's not clear if DATCP or USDA is in line to pay the indemnity. Both have limited budgets for such payments.

Wisconsin statute allows for indemnity for condemned animals at 2/3 the difference between net salvage value and appraised value of the animal, not to exceed $1,500.

Seale said Tuesday she was negotiating to have her animals put down by injection instead of sharpshooters.

"I am fighting to make this as humane as possible," Seale said. "I've been sitting here for 9 months waiting for them to depopulate my herd. This should have been taken care of months ago."

Meanwhile, the spread of CWD continues. The disease was detected at eight other Wisconsin deer farms since it was found at Maple Hills in July.


Walworth County Deer Farm Tests Positive for CWD

FOR IMMEDIATE RELEASE: May 18, 2022

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.govhttp://About CWD: 

MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that a white-tailed deer at a Walworth County hobby farm has tested positive for chronic ​wasting disease (CWD). Samples were confirmed by the National Veterinary Services Laboratories in Ames, Iowa.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal's death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement, and permit requirements.

The farm and its herd are under quarantine while an epidemiological investigation is conducted by DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff.

More information




CHRONIC WASTING DISEASE CASESCWD - STATUS OF CAPTIVE HERDS

Date of Index Case Confirmation Index Case State County Species Herd Type HCP Enrolled HCP Certified Number of Animals Herd Status

5/11/2022 10 YR Female WI Delavan WTD Exhibition No No 2 Quarantine

4/19/2022 3 YR Female MI Mecosta WTD Shooter No No 275 Quarantine

3/23/2022 Adult Female PA Bedford WTD Breeder No No 20 Quarantine

3/18/2022 1.5 Y Female CO Morgan ELK Breeder No No 371 Quarantine

3/2/2022 1.5 Y Male SD Haakon MD Breeder Yes Yes 103 Quarantine

2/23/2022 4.5 Y Male PA Lancaster WTD Shooter No No 93 Quarantine

1/12/2022 6.5 Y Female WV Hardy WTD Shooter Yes Yes 18 Quarantine

1/5/2022 4.5 Y Female PA Lycoming WTD Shooter No No 177 Quarantine

11/8/2021 3 Y Male WI Waukesha WTD/ Elk Breeder Yes Yes 22 Quarantine

Updated May 2022

snip...see full listing of captive farmed cwd;


Chronic Wasting Disease Positives in Farm-Raised Deer Revised: 4/8/2022

County (Premises #) Sample Collection Date of First CWD Positive in Farm-Raised Deer Sample Collection Date of Last CWD Positive in Farm-Raised Deer Total CWD Positive in Farm-Raised Deer

Portage(1) 9/4/2002 1/18/2006 82

Walworth(1) 9/20/2002 12/13/2002 6

Manitowoc 3/5/2003 3/5/2003 1

Sauk(1) 10/3/2003 10/3/2003 1

Racine 5/1/2004 5/1/2004 1

Walworth(2) 7/28/2004 11/3/2004 3

Crawford 1/19/2005 1/25/2007 2

Portage(2) 9/22/2008 11/18/2008 2

Jefferson 12/1/2008 12/1/2008 1

Marathon 11/7/2013 11/3/2021 114

Richland(1) 9/13/2014 11/19/2014 8

Eau Claire(1) 6/8/2015 11/24/2015 34

Oneida 11/4/2015 11/22/2021 30

Iowa(1) 1/22/2016 11/19/2020 5

Oconto 9/4/2016 2/9/2022 440

Shawano 9/18/2017 12/28/2021 81

Waupaca 9/21/2017 12/7/2017 12

Washington 2/18/2018 11/15/2018 12

Richland(2) 5/11/2018 5/11/2018 1

Dane 5/16/2018 5/16/2018 1

Iowa(2) 5/18/2018 5/18/2018 21

Marinette 5/19/2018 12/7/2021 4

Sauk(2) 6/4/2018 11/23/2021 4

Portage(3) 10/23/2018 10/23/2018 1

Portage(4) 11/16/2018 5/1/2019 8

Forest 1/8/2019 12/17/2021 10

Burnett(1) 7/30/2019 7/30/2019 1

Trempealeau 11/7/2019 11/11/2021 4

Burnett(2) 9/3/2020 9/3/2020 1

Sauk(3) 7/19/2021 7/19/2021 1

Taylor 7/24/2021 12/31/2021 12

Outagamie 8/12/2021 9/3/2021 2

Langlade 8/13/2021 8/13/2021 1

Portage(5) 9/8/2021 10/17/2021 2

Vilas 9/9/2021 9/9/2021 1

Eau Claire(2) 10/13/2021 11/1/2021 3

Waukesha 12/3/2021 12/3/2021 2

Wisconsin Department of Agriculture, Trade and Consumer Protection Division of Animal Health

2811 Agriculture Dr., P.O. Box 8911, Madison, WI 53708

https://www.datcp.wi.gov


WISCONSIN DNR CONFIRMS CWD IN WILD DEER HARVESTED IN VILAS COUNTY WITH A TOTAL OF 9,040 POSITIVE WILD CASES TO DATE

FOR IMMEDIATE RELEASE: 2021-12-17

Contact: DNR Office of Communications


DNR CONFIRMS CWD IN WILD DEER HARVESTED IN VILAS COUNTY

BAITING AND FEEDING BANS RENEWED FOR VILAS AND FOREST COUNTIES AND REMAIN IN EFFECT FOR ONEIDA COUNTY

The Wisconsin DNR confirms CWD in wild deer harvested in Vilas County. Baiting and feeding bans renewed for Vilas and Forest Counties and remain in effect for Oneida County. MADISON, Wis. – The Wisconsin Department of Natural Resources (DNR) confirms a wild deer tested positive for chronic wasting disease (CWD) in the Town of Lincoln in Vilas County. This is the first confirmed wild positive case of CWD in Vilas County.

As required by state law, the DNR enacts three-year baiting and feeding bans in counties where CWD has been detected and two-year bans in adjoining counties that lie within 10 miles of a CWD detection.

Following state law, the DNR will renew a three-year baiting and feeding ban in Vilas County as well as a two-year ban in Forest county, as the deer was harvested within 10 miles of the county line. Oneida County is also within 10 miles of the Vilas positive’s harvest location but is already under a longer three-year baiting and feeding ban due to a positive CWD detection at a game farm earlier this year.

Baiting or feeding deer encourages them to congregate unnaturally around a shared food source where sick deer can spread CWD through direct contact with healthy deer or by leaving behind infectious prions in their bodily secretions.

More information regarding baiting and feeding regulations and CWD in Wisconsin is available here.

The DNR asks deer hunters in Vilas, Forest and Oneida counties to assist with efforts to identify where CWD occurs. Those harvesting deer within 10 miles of the newly detected positive case are especially encouraged to have their harvested adult deer tested for CWD. Collecting CWD samples is essential for assessing where and to what extent CWD occurs in deer across the state.

The DNR will work with Vilas County Deer Advisory Council members to schedule a meeting in January to discuss response actions. Members of the public will be invited to attend this meeting and will have the opportunity to provide input.

CWD is a fatal, infectious nervous system disease of deer, moose, elk and reindeer/caribou. It belongs to the family of diseases known as transmissible spongiform encephalopathies (TSEs) or prion diseases. The Wisconsin DNR began monitoring the state's wild white-tailed deer population for CWD in 1999. The first positives were found in 2002.

Information on how to have deer tested during the 2020-21 hunting seasons is available here.



Wisconsin Portage County Deer Farm Tests Positive for CWD

Portage County Deer Farm Tests Positive for CWD

FOR IMMEDIATE RELEASE: December 17, 2021

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.gov

MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that two white-tailed deer at a Portage County hunt ranch have tested positive for chronic wasting disease (CWD). Positive samples were confirmed by the National Veterinary Services Laboratories in Ames, Iowa.

The 200-acre farm and its herd of approximately 370 deer are under quarantine while an epidemiological investigation is conducted by DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal’s death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement, and permit requirements.

More information

 About CWD:


 DATCP’s farm-raised deer program:


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This table shows available CWD test results for the selected year for each of DNR's four zones statewide. Results for an individual year are for the CWD year, which runs from April 1st through March 31st. For example, the results for the 2021 CWD year would be April 1st, 2021 through March 31st, 2022. Deer will not have full data until the datasheet is entered.

DNR Zone # Sampled # Analyzed Positive for CWD

Central Farmland Zone 5669 3231 19

Central Forest Zone 509 284 3

Northern Forest Zone 1977 1024 0

Southern Farmland Zone 6864 4919 849

Unknown Zone 162 54 2

Totals: 15181 9512 873



This table shows available CWD test results for each of DNR's four zones statewide. It includes data released through December 16, 2021. Deer will not have full data until the datasheet is entered.

DNR Zone # Sampled # Analyzed Positive for CWD

Central Farmland Zone 54182 51724 78

Central Forest Zone 7028 6801 47

Northern Forest Zone 29498 28539 6

Southern Farmland Zone 186740 184763 8904

Unknown Zone 3049 2933 5

Statewide Totals: 280497 274760 9040


Wisconsin Eau Claire County Deer Farm Tests Positive for CWD

Eau Claire County Deer Farm Tests Positive for CWD

FOR IMMEDIATE RELEASE: November 9, 2021

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005,


MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that a white-tailed deer from an Eau Claire County hunt ranch has tested positive for chronic wasting disease (CWD). Positive samples from a 3-year-old buck were confirmed by the National Veterinary Services Laboratories in Ames, Iowa.

The herd of approximately 15 deer is under quarantine while an epidemiological investigation is conducted by DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff. The ranch was confirmed to have received the deer from a Waukesha County deer farm, which also has been placed under quarantine.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal’s death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement, and permit requirements.

More information

About CWD:


DATCP’s farm-raised deer program:


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Wisconsin Outagamie County Deer Farm Tests Positive for CWD

Outagamie County Deer Farm Tests Positive for CWD

FOR IMMEDIATE RELEASE: September 2, 2021

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.gov

Download PDF

MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that a deer farm in Outagamie County has tested positive for chronic wasting disease (CWD). Positive samples were confirmed by the National Veterinary Services Laboratories in Ames, Iowa.

The farm was already under quarantine after receiving animals from a CWD affected farm. The herd of approximately 30 deer will remain under quarantine while an epidemiological investigation is conducted by DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal's death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement and permit requirements.

More information



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CARCASS MOVEMENT, PROCESSING AND DISPOSAL

The movement of dead or alive CWD positive deer, moose, elk or reindeer/caribou (natural or human-assisted) is a key pathway in the spread of CWD. The infectious nature of the CWD prion contributes to an increased risk of introduction and spread of CWD if dead carcasses are brought to new areas and not disposed of properly.

FIND CWD SAMPLING AND CARCASS DISPOSAL LOCATIONS NEAR YOU



Wisconsin Langlade County Deer Farm Tests Positive for CWD

Langlade County Deer Farm Tests Positive for CWD 

FOR IMMEDIATE RELEASE: September 1, 2021

Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wisconsin.gov

Download PDF

MADISON, Wis. – The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that a deer farm in Langlade County has tested positive for chronic wasting disease (CWD).

A positive sample from a 1-year-old doe was confirmed by the National Veterinary Services Laboratory in Ames, Iowa. All 57 deer at the 6-acre farm were already under quarantine after receiving animals from a CWD-affected farm. The herd will remain under quarantine while an epidemiological investigation is conducted by DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal's death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement and permit requirements.

More information



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Deer Farms in Sauk, Taylor Counties Test Positive for CWD

Release Date: August 11, 2021

Media Contact: Kevin Hoffman, Public Information Officer, (608) 224-5005, kevin.hoffman@wi.gov

MADISON — The Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) confirms that deer farms in Sauk and Taylor counties have tested positive for chronic wasting disease (CWD). Results were confirmed by the National Veterinary Services Laboratory in Ames, Iowa.

Positive samples were taken from a 6-year-old doe in Taylor County and a 9-year-old buck in Sauk County. There is no connection between the two locations. The 227 whitetail deer at the 22-acre double-fenced Taylor County farm and the two whitetail deer at the 1-acre singlefenced Sauk County farm have been quarantined, meaning no live animals or whole carcasses are permitted to leave the property. The herds will remain under quarantine while an epidemiological investigation is conducted by DATCP and U.S. Department of Agriculture (USDA) veterinarians and staff.

CWD is a fatal, neurological disease of deer, elk and moose caused by an infectious protein called a prion that affects the animal's brain, and testing for CWD is typically only performed after the animal’s death. DATCP regulates deer farms for registration, recordkeeping, disease testing, movement and permit requirements.

More information

About CWD:


DATCP’s farm-raised deer program:



Title: Chronic wasting disease in a Wisconsin white-tailed deer farm

Author item KEANE, DELWYN item BARR, DANIEL item BOCHSLER, PHILIP item HALL, S item GIDLEWSKI, THOMAS item O'Rourke, Katherine item SPRAKER, TERRY item SAMUEL, MICHAEL

Submitted to: Journal of Veterinary Diagnostic Investigation Publication Type: Peer Reviewed Journal Publication Acceptance Date: 5/5/2008 Publication Date: 9/2/2008

Citation: Keane, D.P., Barr, D.J., Bochsler, P.N., Hall, S.M., Gidlewski, T.E., O'Rourke, K.I., Spraker, T.R., Samuel, M.D. 2008. Chronic wasting disease in a Wisconsin white-tailed deer farm. Journal of Veterinary Diagnostic Investigation. 20(5):698-703. Interpretive Summary: Chronic wasting disease is a fatal disease of deer and elk. Clinical signs, including weight loss, frequent urination, excessive thirst, and changes in behavior and gait, have been reported in mule deer and elk with this disorder. Clinical signs in captive white tailed deer are less well understood. In a previous study, a captive facility housed 200 deer, of which half were positive for the disease with no clinical signs reported. In this study, we examined 78 white tailed deer from a captive facility with a history of chronic wasting disease and no animals with clinical signs. Examination of the brain and lymph nodes demonstrated that the abnormal prion protein, a marker for disease, was observed in 60 of the deer. Biopsy of the rectal mucosa, a test that can be performed on live deer, detected 83% of the infected animals. The prion genetics of the deer was strongly linked to the rate of infection and to disease progression. The results demonstrate that clinical signs are a poor indicator of the disease in captive white tailed deer and that routine testing of live deer and comprehensive necropsy surveillance may be needed to identify infected herds.

Technical Abstract: Chronic wasting disease CWD is a transmissible spongiform encephalopathy or prion disease of deer and elk in North America. All diseases in this family are characterized by long preclinical incubation periods following by a relatively short clinical course. Endpoint disease is characterized by extensive deposits of aggregates of the abnormal prion protein in the central nervous system,. In deer, the abnormal prion proteins accumulate in some peripheral lymphoid tissues early in disease and are therefore suitable for antemortem and preclinical postmortem diagnostics and for determining disease progression in infected deer. In this study, a herd of deer with previous CWD diagnoses was depopulated. No clinical suspects were identified at that time. Examination of the brain and nodes demonstrated that 79% of the deer were infected. Of the deer with abnormal prion in the peripheral lymphoid system, the retropharyngeal lymph node was the most reliable diagnostic tissue. Biopsy of the rectal mucosal tissue, a site readily sampled in the restrained or chemically immobilized deer, provided an accurate diagnosis in 83% of the infected deer. The retina in the eye of the deer was positive only in late stage cases. This study demonstrated that clinical signs are a poor indicator of disease, supports the use of the retropharyngeal lymph node as the most appropriate postmortem sample, and supports a further evaluation of the rectal mucosal tissue biopsy as an antemortem test on a herd basis.



Control of Chronic Wasting Disease OMB Control Number: 0579-0189 APHIS-2021-0004 Singeltary Submission




Docket No. APHIS-2018-0011 Chronic Wasting Disease Herd Certification




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) 


October 6th-12th, 126th Meeting 2022 Resolutions 

RESOLUTION NUMBER: 30 Approved

SOURCE: COMMITTEE ON WILDLIFE

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. 



PRION CONFERENCE 2022 ABSTRACTS CWD TSE PrP ZOONOSIS and ENVIRONMENTAL FACTORS 

Chronic wasting disease detection in environmental and biological samples from a taxidermy site

Paulina Sotoa,b, J. Hunter Reedc, Mitch Lockwoodc, and Rodrigo Moralesa,b aDepartment of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; bUniversidad Bernardo O’Higgins, Santiago, Chile; cTexas Parks and Wildlife Department, Texas, USA 

Chronic wasting disease (CWD) is a transmissible spongiform encephalopathy affecting captive and free-ranging cervids (e.g., mule deer, white-tailed deer, elk, reindeer, and moose). Nowadays, CWD is widely distributed in North America. It is suggested that CWD spreads due to direct animal contact or through exposure to contaminated environments previously inhabited by infected animals. CWD may also be spread through the movement of infected animals and carcasses. Taxidermy practices involve processing deer tissues (or whole animal carcasses). In many cases, the CWD status of processed animals is unknown. This can generate risks of disease spread and transmission. Taxidermy practices include different steps involving physical, chemical, and biological procedures. Without proper tissue handling or disposal practices, taxidermist facilities may become a focus of prion infectivity. 

Aims: In this study, we evaluated the presence of infectious prions in a taxidermy facility believed to be exposed to CWD. Detection was performed using the Protein Misfolding Cyclic Amplification (PMCA) technique in biological and inert environmental samples. Methods: We collected biological and environmental samples (plants, soils, insects, excreta, and others) from a taxidermy facility, and we tested these samples using the PMCA technique. In addition, we swabbed different surfaces possibly exposed to CWD-infected animals. For the PMCA reaction, we directly used a swab piece or 10 µL of 20% w/v homogenized samples. 

Results: The PMCA analysis demonstrated CWD seeding activity in some of the components of this facility, including insects involved in head processing, soils, and a trash dumpster. 

Conclusions: Different areas of this property were used for various taxidermy procedures. We were able to detect the presence of prions in 

i) soils that were in contact with the heads of dead animals, 

ii) insects involved in the cleaning of skulls, and 

iii) an empty dumpster where animal carcasses were previously placed. 

This is the first report demonstrating that swabbing is a helpful method to screen for prion infectivity on surfaces potentially contaminated with CWD. These findings are relevant as this swabbing and amplification strategy may be used to evaluate the disease status of other free-ranging and captive settings where there is a concern for CWD transmissions, such as at feeders and water troughs with CWD-exposed properties. This approach could have substantial implications for free-ranging cervid surveillance as well as in epidemiological investigations of CWD. 


PRION CONFERENCE 2022 ABSTRACTS CWD TSE PrP ZOONOSIS 

Transmission of prion infectivity from CWD-infected macaque tissues to rodent models demonstrates the zoonotic potential of chronic wasting disease.

Samia Hannaouia, Ginny Chenga, Wiebke Wemheuerb, Walter J. Schulz-Schaefferb, Sabine Gilcha, and Hermann M. Schätzla aDepartment of Comparative Biology and Experimental Medicine, Faculty of Veterinary Medicine & Hotchkiss Brain Institute; University of Calgary, Calgary, Canada; bInstitute of Neuropathology, Medical Faculty, Saarland University, Homburg/Saar, Germany

Aims: Chronic wasting disease (CWD) is a prion disease of cervids. Its rapid geographic expansion, shedding of infectivity and persistence in the environment for many years are of concern for humans. Here, we provide the first evidence by transmission experiments to different transgenic mouse models and bank voles that Cynomolgus macaques inoculated via different routes with CWD-positive cervid tissues harbor infectious prions that elicit clinical disease in rodents.

Material and Methods: We used tissue materials from macaques inoculated with CWD to inoculate transgenic mice overexpressing cervid PrPCfollowed by transmission into bank voles. We used RT-QuIC, immunoblot and PET blot analysis to assess brains, spinal cords, and tissues of the gastrointestinal tract (GIT) for the presence of prions.

Results: Our results show that of the macaque materials that induced clinical disease in transgenic mice,73% were from the CNS (46% spinal cord and 27% brain), and 27% were from the spleen, although attack rates were low around 20%. Clinical mice did not display PK-resistant PrPSc(PrPres) in immunoblot, but showed low-levels of prion seeding activity. Transmission into bank voles from clinical transgenic mice led to a 100% attack rate with typical PrPressignature in immunoblot, which was different from that of voles inoculated directly with CWD or scrapie prions. High-level prion seeding activity in brain and spinal cord and PrPresdeposition in the brain were present. Remarkably, we also found prion seeding activity in GIT tissues of inoculated voles. Second passage in bank voles led to a 100% attack rate in voles inoculated with brain, spinal cord and small intestine material from first round animals, with PrPresin immunoblot, prion seeding activity, and PrPresdeposition in the brain. Shortened survival times indicate adaptation in the new host. This also shows that prions detected in GIT tissues are infectious and transmissible. Transmission of brain material from sick voles back to cervidized mice revealed transmission in these mice with a 100% attack rate, and interestingly, with different biochemical signature and distribution in the brain.

Conclusions: Our findings demonstrate that macaques, considered the best model for the zoonotic potential of prions, were infected upon CWD challenge, including oral one. The disease manifested as atypical in macaques and transgenic mice, but with infectivity present at all times, as unveiled in the bank vole model with an unusual tissue tropism.

Funded by: The National Institutes of Health, USA, and the Alberta Prion Research Institute/Alberta Innovates Canada. Grant number: 1R01NS121016-01; 201,600,023

Acknowledgement: We thank Umberto Agrimi, Istituto Superiore di Sanità, Rome, Italy, and Michael Beekes, Robert-Koch Institute Berlin, Germany, for providing the bank vole model. We thank the University of Calgary animal facility staff and Dr. Stephanie Anderson for animal care.

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

aDepartment of Comparative Biology and Experimental Medicine, Faculty of Veterinary Medicine; Hotchkiss Brain Institute; University of Calgary, Calgary, Canada; bUniversité Paris-Saclay, INRAE, UVSQ, VIM, Jouy-en-Josas, France; cDepartment of Biological Sciences, Center for Prions and Protein Folding Diseases, University of Alberta, Edmonton, Canada

Aims: 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 aimed to determine the zoonotic potential of CWD using a mouse model for human prion diseases.

Material and Methods: Transgenic mice overexpressing human PrPChomozygous for methionine at codon 129 (tg650) were inoculated intracerebrally with brain homogenates of white-tailed deer infected with Wisc-1/CWD1 or 116AG CWD strains. Mice were monitored for clinical signs and were euthanized at terminal disease. Brains were tested by RT-QuIC, western blot upon PK digestion, and immunohistochemistry; fecal homogenates were analyzed by RT-QuIC. Brain/spinal cord and fecal homogenates of CWD-inoculated tg650 mice were inoculated into tg650 mice or bank voles. Brain homogenates of bank voles inoculated with fecal homogenates of CWD-infected tg650 mice were used for second passage in bank voles.

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 tg650 brain 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.

Funded by: We are grateful for financial support from the Natural Sciences and Engineering Research Council of Canada, the National Institutes of Health, Genome Canada, and the Alberta Prion Research Institute. SG is supported by the Canada Research Chairs program.

Acknowledgement: We thank Dr. Trent Bollinger, WCVM, University of Saskatchewan, Saskatoon, Canada, for providing brain tissue from the WTD-116AG isolate, Dr. Stéphane Haïk, ICM, Paris, France, for providing brain tissue from vCJD and sCJD cases, and Dr. Umberto Agrimi, Istituto Superiore di Sanità, Italy, for the bank vole model. We thank animal facility staff for animal care, Dr. Stephanie Anderson for veterinary oversight, and Yo-Ching Cheng for preparing recombinant PrP substrates. Thank you to Dr. Stephanie Booth and Jennifer Myskiw, Public Health Agency of Canada, Canada.

The chronic wasting disease agent from white-tailed deer is infectious to humanized mice after passage through raccoons

Eric Cassmanna, Xu Qib, Qingzhong Kongb, and Justin Greenleea

aNational Animal Disease Center, Agricultural Research Service, US Department of Agriculture, Ames, IA, USA bDepartments of Pathology, Neurology, National Center for Regenerative Medicine, and National Prion Disease Pathology Surveillance Center, Case Western Reserve University, Cleveland, Ohio, USA

Aims: Evaluate the zoonotic potential of the raccoon passaged chronic wasting disease (CWD) agent in humanized transgenic mice in comparison with the North American CWD agent from the original white-tailed deer host.

Material and Methods: Pooled brain material (GG96) from a CWD positive herd was used to oronasally inoculate two white-tailed deer with wild-type prion protein genotype and intracranially inoculate a raccoon. Brain homogenates (10% w/v) from the raccoon and the two white-tailed deer were used to intracranially inoculate separate groups of transgenic mice that express human prion protein with methionine (M) at codon 129 (Tg40h). Brains and spleens were collected from mice at experimental endpoints of clinical disease or approximately 700 days post-inoculation. Tissues were divided and homogenized or fixed in 10% buffered neutral formalin. Immunohistochemistry, enzyme immunoassay, and western blot were used to detect misfolded prion protein (PrPSc) in tissue.

Results: Humanized transgenic mice inoculated with the raccoon passaged CWD agent from white-tailed deer exhibited a 100% (12/12) attack rate with an average incubation period of 605 days. PrPScwas detected in brain tissue by enzyme immunoassay with an average optical density of 3.6/4.0 for positive brains. PrPScalso was detected in brain tissue by western blot and immunohistochemistry. No PrPScwas detected in the spleens of mice inoculated with the raccoon passaged CWD agent. Humanized mice inoculated with the CWD agent from white-tailed deer did not have detectable PrPScusing conventional immunoassay techniques.

Conclusions: The host range of the CWD agent from white-tailed deer was expanded in our experimental model after one passage through raccoons.

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 and analysis, decision to publish, or preparation of the manuscript.

Acknowledgement: We thank Quazetta Brown, Lexi Frese, Rylie Frese, Kevin Hassall, Leisa Mandell, and Trudy Tatum for providing excellent technical support to this project.

Stable and highly zoonotic cervid prion strain is possible

Manuel Camacho, Xu Qi, Liuting Qing, Sydney Smith, Jieji Hu, Wanyun Tao, Ignazio Cali, and 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 some areas. Multiple in vitro conversion experiments and in vivo animal studies suggest that the CWD-to-human transmission barrier is not unbreakable. A major 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.

Material and Methods: We inoculated a few sCJD brain samples into cervidized transgenic mice, which were intended as negative controls for bioassays of brain tissues from sCJD cases who had hunted or consumed vension from CWD-endemic states. Some of these mice became infected and their brain tissues were further examined by 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 CJDElkPrPin transgenic mice expressing human PrP (Tg40h). We passaged CJDElkPrPtwo more times in the Tg12 mice. We found that such second and third passage CJDElkPrPprions also led to 100% infection in the Tg40h mice. In contrast, we and others found zero or poor transmission of natural elk CWD isolates in humanized mice, despite that natural elk CWD isolates and CJDElkPrPshare the same elk PrP sequence.

Conclusions: Our data demonstrate that highly zoonotic cervid prion strains are not only possible but also can be stably maintained in cervids and that CWD zoonosis is prion strain-dependent.

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, respectively.

Adaptation of chronic wasting disease (CWD) prion strains in hosts with different PRNP genotypes

Camilo Duque Velasqueza,c, Elizabeth Triscotta,c, Chiye Kima,c, Diana Morenoa,c, Judd Aikenb,c, and Debbie McKenziea,c

aDepartment of Biological Science, University of Alberta, Edmonton, AB T6G 2G8, Canada; bDepartment of Agriculture, Food & Nutritional Science, University of Alberta, Edmonton, AB T6G 2G8, Canada; cCentre for Prions and Protein Folding Diseases, University of Alberta, Edmonton, AB T6G 2M8, Canada

Aims: The contagious nature of CWD epizootics and the PrPCamino acid variation of cervids (and susceptible sympatric species) guarantee the expansion of prion conformational diversity and selective landscapes where new strains can arise. CWD strains can have novel transmission properties including altered host range that may increase zoonotic risk as circulating strains diversify and evolve. We are characterizing the host adaptability of characterized CWD strains as well as CWD isolates from different cervid species in various enzootic regions.

Material and Methods: Characterized CWD strains as well as a number of isolates from hunter-harvested deer were bioassayed in our rodent panel (transgenic mice expressing cervid alleles G96, S96 and H95-PrPC, elk PrPC, bovine PrPC, and both hamsters and non-transgenic laboratory mice). Strain characteristics were compared using computer based scoring of brain pathology (e.g. PrPCWDbrain distribution), western blot and protein misfolding cyclic amplification (PMCA).

Results: Transmission of various isolates resulted in the selection of strain mixtures in hosts expressing similar PrPC, particularly for polymorphic white-tailed deer and for Norwegian reindeer. As of the second passage, transmission of P153 moose prions from Norway has not resulted in emergence of strains with properties similar to any North American CWD strains in our taxonomic collection (Wisc-1, CWD2, H95+and 116AG).

Conclusions: Our data indicates polymorphic white-tailed deer can favor infection with more than one strain. Similar to transmission studies of Colorado CWD isolates from cervids expressing a single PrPCprimary structure, the isolate from Norway reindeer (V214) represents a strain mixture, suggesting intrinsic strain diversity in the Nordfjella epizootic. The diversity of CWD strains with distinct transmission characteristics represents a threat to wildlife, sympatric domestic animals and public health.

Funded by: Genome Canada and Genome Alberta (Alberta Prion Research Institute and Alberta Agriculture & Forestry); NSERC Grant number: #LSARP 10205; NSERC RGPIN-2017-05539

Acknowledgement: We would like to thank Margo Pybus (Alberta Environment and Parks) Trent Bollinger (University of Saskatchewan) for providing us with tissue samples from hunter-harvested deer and Sylvie Benestad for providing moose and reindeer samples.

Application of PMCA to understand CWD prion strains, species barrier and zoonotic potential

Sandra Pritzkowa, Damian Gorskia, Frank Ramireza, Fei Wanga, Glenn C. Tellingb, Justin J. Greenleec, Sylvie L. Benestadd, and Claudio Sotoa aDepartment of Neurology, University of Texas Medical School at Houston, Houston, Texas, USA; bDepartment of Microbiology, Immunology and Pathology, Colorado State University, Fort Collins, Colorado, USA; cVirus and Prion Research Unit, United States Department of Agriculture, Ames, Iowa, USA; dNorwegian Veterinary Institute, OIE Reference Laboratory for CWD, Ås, Norway

Aims: Chronic wasting disease (CWD) is a prion disease affecting various species of cervids that continues to spread uncontrollably across North America and has recently been detected in Scandinavia (Norway, Sweden and Finland). The mechanisms responsible for the natural transmission of CWD are largely unknown. Furthermore, the risk of CWD transmission to other species, including humans, is also unknown and remains a dangerous enigma. In this study, we investigated the potential of CWD prions to infect several other animal species (sheep, cattle, pig, hamster, and mouse) including humans, by examining their capacity to convert the normal prion protein of distinct species in a PMCA reaction. Moreover, we also investigated whether the in vivo passage of CWD through intermediate species alters their capacity for zoonotic transmission, which may represent a major hazard to human health.

Material and Methods: For these studies, we used brain material from CWD-infected white-tailed deer (Odocoileus virginianus), elk (Cervus canadensis), and mule deer (Odocoileus hemionus) as species native to North America. We also used CWD-infected Moose (Alces alces), reindeer (Rangifer tarandus) and red deer (Cervus elaphus) as Norwegian cervids. We also used brains from cattle, sheep and pigs experimentally infected by CWD. To study interspecies-transmission and zoonotic potential, samples were tested via PMCA for the conversion of PrPCinto PrPScusing different combinations of inoculum and host species. Based on these analyses we estimated the spillover and zoonotic potential for different CWD isolates. We define and quantify spillover and zoonotic potential indices as the efficiency by which CWD prions sustain prion generation in vitro at the expense of normal prion proteins from various mammals and human, respectively.

Results: Our results show that prions from some cervid species, especially those found in Northern Europe, have a higher potential to transmit disease characteristics to other animals. Conversely, CWD-infected cervids originated in North America appear to have a greater potential to generate human PrPSc. We also found that in vivo transmission of CWD to cattle, but not to sheep or pigs substantially increases the ability of these prions to convert human PrPCby PMCA.

Conclusions: Our findings support the existence of different CWD prion strains with distinct spillover and zoonotic potentials. We also conclude that transmission of CWD to other animal species may increase the risk for CWD transmission to humans. Our studies may provide a tool to predict the array of animal species that a given CWD prion could affect and may contribute to understanding the risk of CWD for human health.

Funded by: National Institute of Health Grant number: P01 AI077774

Generation of human chronic wasting disease in transgenic mice

Zerui Wanga, Kefeng Qinb, Manuel V. Camachoa, Ignazio Cali a,c, Jue Yuana, Pingping Shena, Tricia Gillilanda, Syed Zahid Ali Shaha, Maria Gerasimenkoa, Michelle Tanga, Sarada Rajamanickama, Anika Yadatia, Lawrence B. Schonbergerd, Justin Greenleee, Qingzhong Konga,c, James A. Mastriannib, and Wen-Quan Zoua,c

aDepartment of Pathology, Case Western Reserve University School of Medicine, Cleveland, OH, USA; bDepartment of Neurology and Center for Comprehensive Care and Research on Memory Disorders, the University of Chicago Pritzker School of Medicine, Chicago, USA; cNational Prion Disease Pathology Surveillance Center, Case Western Reserve University School of Medicine, Cleveland, OH 44106, USA; dDivision of High-Consequence Pathogens and Pathology, Centers for Disease Control and Prevention, 1600 Clifton Rd, Atlanta, GA, USA; eVirus and Prion Research Unit, National Animal Disease Center, USDA, Agricultural Research Service, 1920 Dayton Avenue, Ames, IA, USA

Aims: Chronic wasting disease (CWD) results from the accumulation of an infectious misfolded conformer (PrPSc) of cellular prion protein (PrPC) in the brains of deer and elk. It has been spreading rapidly throughout many regions of North America, exported inadvertently to South Korea, and more recently identified in Europe. Mad cow disease has caused variant Creutzfeldt-Jakob disease (vCJD) in humans and is currently the only known zoonotic prion disease. Whether CWD is transmissible to humans remains uncertain. The aims of our study were not only to confirm whether CWD prion isolates can convert human brain PrPCinto PrPScin vitro by serial protein misfolding cyclic amplification (sPMCA) but also to determine whether the sPMCA-induced CWD-derived human PrPScis infectious.

Material and Methods: Eight CWD prion isolates from 7 elks and 1 deer were used as the seeds while normal human brain homogenates containing either PrP-129 MM (n = 2) or PrP-129 VV (n = 1) were used as the substrates for sPMCA assay. A normal elk brain tissue sample was used as a negative control seed. Two lines of humanized transgenic (Tg) mice expressing either human PrP-129VV or −129 MM polymorphism were included for transmission studies to determine the infectivity of PMCA-amplified PrPSc. Wester blotting and immunohistochemistry and hematoxylin & eosin staining were used for determining PrPScand neuropathological changes of inoculated animals.

Results: We report here the generation of the first CWD-derived infectious human PrPScusing elk CWD PrPScto initiate conversion of human PrPCfrom normal human brain homogenates with PMCA in vitro. Western blotting with a human PrP selective antibody confirmed that the PMCA-generated protease-resistant PrPScwas derived from the human brain PrPCsubstrate. Two lines of humanized transgenic mice expressing human PrPCwith 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 PrPScpatterns and neuropathological changes in the brain.

Conclusions: Our study, using PMCA and animal bioassays, provides the first evidence that CWD PrPSchas the potential to overcome the species barrier and directly convert human PrPCinto infectious PrPScthat can produce bona fide prion disease when inoculated into humanized transgenic mice.

Funded by: CJD Foundation and NIH

Mortality surveillance of persons potentially exposed to chronic wasting disease

R.A. Maddoxa, R.F. Klosb, L.R. Willb, S.N. Gibbons-Burgenerb, A. Mvilongoa, J.Y. Abramsa, B.S. Applebyc, L.B. Schonbergera, and E.D. Belaya aNational Center for Emerging and Zoonotic Infectious Diseases, Centers for Disease Control and Prevention (CDC), Atlanta, USA; bWisconsin Department of Health Services (WDHS), Division of Public Health, Madison, USA; cNational Prion Disease Pathology Surveillance Center (NPDPSC), Case Western Reserve University, Cleveland, USA

Aims: It is unknown whether chronic wasting disease (CWD), a prion disease of cervids, can infect people, but consumption of meat from infected animals would be the most likely route of transmission. Wisconsin Department of Health Services, Division of Public Health (WDHS) personnel maintain a database consisting of information collected from hunters who reported eating, or an intention to eat, venison from CWD-positive cervids. These data, collected since 2003, allow for the evaluation of causes of mortality in individuals potentially exposed to CWD.

Material and Methods: The WDHS database contains the name, date of birth, when available, year of CWD-positive deer harvest, and city and state of residence for each potentially exposed individual. The database also includes information on how the deer was processed (self-processed or by a commercial operator) and when applicable, names of others with whom the venison was shared. Duplicate entries (i.e., those who consumed venison from CWD-positive deer in multiple hunt years) are determined by first name, last name, and date of birth. All names in the database are cross-checked with reported cases of human prion disease in Wisconsin and cases in the National Prion Disease Pathology Surveillance Center (NPDPSC) diagnostic testing database. Persons with date of birth available are also cross-checked with prion disease decedents identified through restricted-use national multiple cause-of-death data via a data use agreement with the National Center for Health Statistics (NCHS).

Results: The database currently consists of 1561 records for hunt years 2003–2017 and 87 additional records for 2018–2019. Of these, 657 records have accompanying date of birth; 15 entries were removed as duplicates leaving 642 unique individuals. Of these individuals, 278 of 426 (66%) who ate venison from a CWD-positive deer and provided processing information reported self-processing. No matches were found among any persons in the database cross-checked with WDHS human prion disease surveillance data, NPDPSC data (February 2022 update), and NCHS data through 2020.

Conclusions: Because of the linkage of person and CWD-positive animal in the WDHS database, reviewing the cause of mortality in potentially exposed persons is possible. The number of individuals cross-checked so far is likely only a small percentage of those potentially exposed to CWD in Wisconsin, and many more years of vital status tracking are needed given an expected long incubation period should transmission to humans occur. Nevertheless, the findings of this ongoing review are thus far reassuring.

Prion disease incidence, United States, 2003–2020

R.A. Maddoxa, M.K. Persona, K. Kotobellib, A. Mvilongoa, B.S. Applebyb, L.B. Schonbergera, T.A. Hammetta, J.Y. Abramsa, and E.D. Belaya aNational Center for Emerging and Zoonotic Infectious Diseases, Centers for Disease Control and Prevention (CDC), Atlanta, USA; bNational Prion Disease Pathology Surveillance Center (NPDPSC), Case Western Reserve University, Cleveland, USA

Aims: Mortality data, in conjunction with neuropathological and genetic testing results, are used to estimate prion disease incidence in the United States.

Material and Methods: Prion disease decedents for 2003–2020 were identified from restricted-use U.S. national multiple cause-of-death data, via a data use agreement with the National Center for Health Statistics, and from the National Prion Disease Pathology Surveillance Center (NPDPSC) database. NPDPSC decedents with neuropathological or genetic test results positive for prion disease for whom no likely match was found in the NCHS multiple cause-of-death data were added as cases for incidence calculations, while those with negative neuropathology results but with cause-of-death data indicating prion disease were removed. Unmatched cases in the NPDPSC database lacking neuropathological testing but with a positive real-time quaking-induced conversion (RT-QuIC) test result were additionally assessed. Age-specific and age-adjusted average annual incidence rates were calculated from the combined data; the year 2000 as the standard population and the direct method were used for age-adjustment.

Results: A total of 7,921 decedents were identified as having prion disease during 2003–2020 for an age-adjusted average annual incidence of 1.2 per million population. The age-adjusted incidence between males and females (1.3 and 1.1 per million, respectively) differed significantly (p < 0.0001). The age-specific average annual incidence among those <55 and ≥55 years of age was 0.2 and 4.8 per million, respectively; incidence among those ≥65 was 6.1 per million. Eighteen cases were <30 years of age for an age-specific incidence of 8.0 per billion; only 6 of these very young cases were sporadic (3 sporadic CJD, 3 sporadic fatal insomnia), with the rest being familial (9), variant (2), or iatrogenic (1). The age-adjusted annual incidence for the most recent year of data, 2020, was 1.3 per million. However, assessment of RT-QuIC positive cases lacking neuropathology in the NPDPSC database suggested that approximately 20% more cases may have occurred in that year; the addition of a subset of these cases that had date of death information available (n = 44) increased the 2020 rate to 1.4 per million.

Conclusions: Mortality data supplemented with the results of neuropathological, CSF RT-QuIC, and genetic testing can be used to estimate prion disease incidence. However, the identification in the NPDPSC database of RT-QuIC-positive cases lacking date of death information suggests that this strategy may exclude a number of probable prion disease cases. Prion disease cases <30 years of age, especially those lacking a pathogenic mutation, continue to be very rare.

Shedding of Chronic Wasting Disease Prions in Multiple Excreta Throughout Disease Course in White-tailed Deer

Nathaniel D. Denkersa, Erin E. McNultya, Caitlyn N. Krafta, Amy V. Nallsa, Joseph A. Westricha, Wilfred Goldmannb, Candace K. Mathiasona, and Edward A. Hoovera

aPrion Research Center, College of Veterinary Medicine and Biological Sciences, Department of Microbiology, Immunology, and Pathology; Colorado State University, Fort Collins, CO, USA; bDivision of Infection and Immunity, The Roslin Institute and the Royal Dick School of Veterinary Studies, University of Edinburgh, Midlothian, UK

Aims: Chronic wasting disease (CWD) now infects cervids in South Korea, North America, and Scandinavia. CWD is unique in its efficient transmission and shedding of prions in body fluids throughout long course infections. Questions remain as to the magnitude of shedding and the route of prion acquisition. As CWD continues to expand, the need to better understand these facets of disease becomes more pertinent. The purpose of the studies described was to define the longitudinal shedding profile of CWD prions in urine, saliva, and feces throughout the course of infection in white-tailed deer.

Material and Methods: Twelve (12) white-tailed deer were inoculated with either 1 mg or 300ng of CWD. Urine, saliva, and feces were collected every 3-month post-inoculation (MPI) throughout the study duration. Cohorts were established based on PNRP genotype: codon 96 GG (n = 6) and alternate codons 96 GS (n = 5) & 103NT (n = 1). Urine and saliva were analyzed using iron-oxide magnetic extraction (IOME) and real-time quaking induced conversion (RT-QuIC)(IQ). Feces were subjected to IOME, followed by 4 rounds protein misfolding cyclic amplification (PMCA) with products analyzed by RT-QuIC (IPQ). To determine whether IPQ may be superior to IQ, a subset of urine and saliva were also tested by IPQ. Results were compared with clinical disease status.

Results: Within the 96 GG cohort, positive seeding activity was detected in feces from all deer (100%), in saliva from 5 of 6 (83%), and in urine from 4 of 6 (66%). Shedding in all excreta occurred at, or just after, the first positive tonsil biopsy result. In the 96 GS/103NT cohort, positive seeding activity could be detected in feces from 3 of 6 (50%) deer, saliva in 2 of 6 (33%), and urine in 1 of 6 (16%). Shedding in excreta was detected >5 months after the first tonsil positive result. Four of six 96 GG deer developed clinical signs of CWD, whereas only 2 of the 96 GS/103NT did. Shedding was more frequently detected in deer with clinical disease. The IPQ protocol did not significantly improve detection in saliva or urine samples, however, it significantly augmented detection in feces by eliminating non-specific background commonly experienced with IQ. Negative control samples remained negative in samples tested.

Conclusions: These studies demonstrate: (a) CWD prion excretion occurs throughout infection; (2) PRNP genotype (GG≫GS/NT) influences the excreta shedding; and (3) detection sensitivity in excreta can vary with different RT-QuIC protocols. These results provide a more complete perspective of prion shedding in deer during the course of CWD infection.

Funded by: National Institutes of Health (NIH)

Grant number: RO1-NS061902-09 R to EAH, PO1-AI077774 to EAH, and R01-AI112956-06 to CKM

Acknowledgement: We abundantly thank Sallie Dahmes at WASCO and David Osborn and Gino D’Angelo at the University of Georgia Warnell School of Forestry and Natural Resources for their long-standing support of this work through provision of the hand-raised, CWD-free, white-tailed deer used in these studies

Large-scale PMCA screening of retropharyngeal lymph nodes and in white-tailed deer and comparisons with ELISA and IHC: the Texas CWD study

Rebeca Benaventea, Paulina Sotoa, Mitch Lockwoodb, and Rodrigo Moralesa

aDepartment of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; bTexas Park and Wildlife Department, Texas, USA

Chronic wasting disease (CWD) is a transmissible spongiform encephalopathy that affects various species of cervids, and both free-ranging and captive animals. Until now, CWD has been detected in 3 continents: North America, Europe, and Asia. CWD prevalence in some states may reach 30% of total animals. In Texas, the first case of CWD was reported in a free-range mule deer in Hudspeth and now it has been detected in additional 14 counties. Currently, the gold standard techniques used for CWD screening and detection are ELISA and immunohistochemistry (IHC) of obex and retropharyngeal lymph nodes (RPLN). Unfortunately, these methods are known for having a low diagnostic sensitivity. Hence, many CWD-infected animals at pre-symptomatic stages may be misdiagnosed. Two promising in vitro prion amplification techniques, including the real-time quaking-induced conversion (RT-QuIC) and the protein misfolding cyclic amplification (PMCA) have been used to diagnose CWD and other prion diseases in several tissues and bodily fluids. Considering the low cost and speed of RT-QuIC, two recent studies have communicated the potential of this technique to diagnose CWD prions in RPLN samples. Unfortunately, the data presented in these articles suggest that identification of CWD positive samples is comparable to the currently used ELISA and IHC protocols. Similar studies using the PMCA technique have not been reported.

Aims: Compare the CWD diagnostic potential of PMCA with ELISA and IHC in RPLN samples from captive and free-range white-tailed deer. Material and Methods: In this study we analyzed 1,003 RPLN from both free-ranging and captive white-tailed deer collected in Texas. Samples were interrogated with the PMCA technique for their content of CWD prions. PMCA data was compared with the results obtained through currently approved techniques.

Results: Our results show a 15-fold increase in CWD detection in free-range deer compared with ELISA. Our results unveil the presence of prion infected animals in Texas counties with no previous history of CWD. In the case of captive deer, we detected a 16% more CWD positive animals when compared with IHC. Interestingly, some of these positive samples displayed differences in their electroforetic mobilities, suggesting the presence of different prion strains within the State of Texas.

Conclusions: PMCA sensitivity is significantly higher than the current gold standards techniques IHC and ELISA and would be a good tool for rapid CWD screening.

Funded by: USDA

Grant number: AP20VSSPRS00C143

ATYPRION project: assessing the zoonotic potential of interspecies transmission of CWD isolates to livestock (preliminary results).

Enric Vidala,b, Juan Carlos Espinosac, Samanta Gilera,b, Montserrat Ordóñeza,b, Guillermo Canteroa,b, Vincent Béringued, Justin J. Greenleee, and Juan Maria Torresc

aUnitat mixta d’Investigació IRTA-UAB en Sanitat Animal. Centre de Recerca en Sanitat Animal (CReSA). Campus de la Universitat Autònoma de Barcelona (UAB), Bellaterra, Catalonia; bIRTA. Programa de Sanitat Animal. Centre de Recerca en Sanitat Animal (CReSA). Campus de la Universitat Autònoma de Barcelona (UAB), Bellaterra, Catalonia; cCentro de Investigación en Sanidad Animal, CISA-INIA-CSIC, Valdeolmos, Madrid, Spain; dMolecular Virology and Immunology, French National Research Institute for Agriculture, Food and Environment (INRAE), Université Paris-Saclay, Jouy-en-Josas, France; eVirus and Prion Research Unit, National Animal Disease Center, ARS, United States Department of Agriculture, Ames, IA, USA

Aims: Since variant Creutzfeldt-Jackob disease was linked to the consumption of bovine spongiform encephalopathy prions, the study of the pathobiological features of animal prions, particularly their zoonotic potential, is of great concern to the scientific community and public health authorities. Furthermore, interspecies transmission of prions has been demonstrated as a putative evolutionary mechanism for prions, that can lead to the emergence of new features including the ability to infect humans. For instance, small ruminants’ atypical scrapie prions, when propagated in a bovine or porcine host, can shift to a classical BSE phenotype thus posing a potential risk in case of human exposure. So far, no hard evidence of zoonotic transmission of cervids’ chronic wasting disease (CWD) to humans has been published, however experimental transmission to bovine, ovine and caprine hosts has been achieved. Our goal is to investigate if, once passaged through these domestic species, CWD prions might become infectious to humans.

Material and Methods: Different CWD isolates experimentally adapted to cattle, sheep and goat (Hamir et al, 2005, 2006, 2007, Greenlee et al 2012) have been intracerebrally inoculated to transgenic mouse models expressing the human cellular prion protein either homozygous for methionine or valine at codon 129 (Tg340-Met129 and Tg362-Val129). Additionally, inocula obtained from experimental transmission of elk CWD to ovinized (Tg501) and bovinized (BoTg110) transgenic mice, as well as white-tailed deer CWD to BoTg110 mice, are currently being bioassayed in both human PrPCtransgenic models.

Results and conclusions: No evidence of transmission has been found on first passage for bovine adapted elk and mule deer CWD to none of the humanized models. The remaining bioassays are ongoing without showing clinical signs yet, as well as second passages for the negative 1stpassages.

Funded by: La Marató de TV3 foundation. Grant number: ATYPRION (201,821–30-31-32)


PRION CONFERENCE 2022 ABSTRACTS CWD TSE PrP ZOONOSIS and ENVIRONMENTAL FACTORS 

Chronic wasting disease detection in environmental and biological samples from a taxidermy site

Paulina Sotoa,b, J. Hunter Reedc, Mitch Lockwoodc, and Rodrigo Moralesa,b aDepartment of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; bUniversidad Bernardo O’Higgins, Santiago, Chile; cTexas Parks and Wildlife Department, Texas, USA 

Chronic wasting disease (CWD) is a transmissible spongiform encephalopathy affecting captive and free-ranging cervids (e.g., mule deer, white-tailed deer, elk, reindeer, and moose). Nowadays, CWD is widely distributed in North America. It is suggested that CWD spreads due to direct animal contact or through exposure to contaminated environments previously inhabited by infected animals. CWD may also be spread through the movement of infected animals and carcasses. Taxidermy practices involve processing deer tissues (or whole animal carcasses). In many cases, the CWD status of processed animals is unknown. This can generate risks of disease spread and transmission. Taxidermy practices include different steps involving physical, chemical, and biological procedures. Without proper tissue handling or disposal practices, taxidermist facilities may become a focus of prion infectivity. Aims: In this study, we evaluated the presence of infectious prions in a taxidermy facility believed to be exposed to CWD. Detection was performed using the Protein Misfolding Cyclic Amplification (PMCA) technique in biological and inert environmental samples. Methods: We collected biological and environmental samples (plants, soils, insects, excreta, and others) from a taxidermy facility, and we tested these samples using the PMCA technique. In addition, we swabbed different surfaces possibly exposed to CWD-infected animals. For the PMCA reaction, we directly used a swab piece or 10 µL of 20% w/v homogenized samples. Results: The PMCA analysis demonstrated CWD seeding activity in some of the components of this facility, including insects involved in head processing, soils, and a trash dumpster. Conclusions: Different areas of this property were used for various taxidermy procedures. We were able to detect the presence of prions in i) soils that were in contact with the heads of dead animals, ii) insects involved in the cleaning of skulls, and iii) an empty dumpster where animal carcasses were previously placed. This is the first report demonstrating that swabbing is a helpful method to screen for prion infectivity on surfaces potentially contaminated with CWD. These findings are relevant as this swabbing and amplification strategy may be used to evaluate the disease status of other free-ranging and captive settings where there is a concern for CWD transmissions, such as at feeders and water troughs with CWD-exposed properties. This approach could have substantial implications for free-ranging cervid surveillance as well as in epidemiological investigations of CWD. 

Funded by: USDA Grant number: AP20VSSPRS00C143 

Large-scale PMCA screening of retropharyngeal lymph nodes and in white-tailed deer and comparisons with ELISA and IHC: the Texas CWD study 

Rebeca Benaventea, Paulina Sotoa, Mitch Lockwoodb, and Rodrigo Moralesa aDepartment of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; bTexas Park and Wildlife Department, Texas, USA 

Chronic wasting disease (CWD) is a transmissible spongiform encephalopathy that affects various species of cervids, and both free-ranging and captive animals. Until now, CWD has been detected in 3 continents: North America, Europe, and Asia. CWD prevalence in some states may reach 30% of total animals. In Texas, the first case of CWD was reported in a free-range mule deer in Hudspeth and now it has been detected in additional 14 counties. Currently, the gold standard techniques used for CWD screening and detection are ELISA and immunohistochemistry (IHC) of obex and retropharyngeal lymph nodes (RPLN). Unfortunately, these methods are known for having a low diagnostic sensitivity. Hence, many CWD-infected animals at pre-symptomatic stages may be misdiagnosed. Two promising in vitro prion amplification techniques, including the real-time quaking-induced conversion (RT-QuIC) and the protein misfolding cyclic amplification (PMCA) have been used to diagnose CWD and other prion diseases in several tissues and bodily fluids. Considering the low cost and speed of RT-QuIC, two recent studies have communicated the potential of this technique to diagnose CWD prions in RPLN samples. Unfortunately, the data presented in these articles suggest that identification of CWD positive samples is comparable to the currently used ELISA and IHC protocols. Similar studies using the PMCA technique have not been reported. Aims: Compare the CWD diagnostic potential of PMCA with ELISA and IHC in RPLN samples from captive and free-range white-tailed deer. Material and Methods: In this study we analyzed 1,003 RPLN from both free-ranging and captive white-tailed deer collected in Texas. Samples were interrogated with the PMCA technique for their content of CWD prions. PMCA data was compared with the results obtained through currently approved techniques. Results: Our results show a 15-fold increase in CWD detection in free-range deer compared with ELISA. Our results unveil the presence of prion infected animals in Texas counties with no previous history of CWD. In the case of captive deer, we detected a 16% more CWD positive animals when compared with IHC. Interestingly, some of these positive samples displayed differences in their electroforetic mobilities, suggesting the presence of different prion strains within the State of Texas. Conclusions: PMCA sensitivity is significantly higher than the current gold standards techniques IHC and ELISA and would be a good tool for rapid CWD screening. 

Funded by: USDA Grant number: AP20VSSPRS00C143 

Protein misfolding cyclic amplification (PMCA) as an ultra-sensitive technique for the screening of CWD prions in different sample types 

Francisca Bravo‐Risia,b, Paulina Sotoa,b, Rebeca Benaventea, Hunter Reedc, Mitch Lockwoodc, Tracy Nicholsd, and Rodrigo Moralesa,b aDepartment of Neurology, The University of Texas Health Science Center at Houston, Houston, TX, USA; bCentro Integrativo de Biologia y Quimica Aplicada (CIBQA), Universidad Bernardo O’Higgins, Santiago, Chile; cTexas Park and Wildlife Department, Texas, USA; dVeterinary Services Cervid Health Program, United States Department of Agriculture, Animal and Plant Health Inspection Service, Fort Collins, Colorado, USA 

Chronic wasting disease (CWD) is a prion disease that affects farmed and free-ranging cervids. The infectious agent in CWD is a misfolded form of the prion protein (PrPSc) that promotes conformational changes in the host’s cellular prion protein (PrPC). Currently, definitive CWD status is confirmed in the brain and lymphoid tissues by immunohistochemistry. The limitation of this technique is its poor sensitivity. Protein misfolding cyclic amplification (PMCA) and real-time quaking-induced conversion (RT- QuIC) are ultra-sensitive techniques that overcome these issues. PMCA mimics the self- propagation of infectious prions in vitro through multiple incubation/sonication cycles, increasing the number of prion particles present in a given sample. The detection of proteinase K (PK) -resistant PrPScby PMCA has been performed in experimental and natural samples that might harbor subclinical levels of prions. These samples include several tissues, bodily fluids, excreta, and different manmade and natural materials, including mineral licks, soils, and plants. Aims: In this study, we highlight recent advances and contributions that our group has performed in the detection of CWD prions from samples collected in farmed and free-ranging cervids, as well as other specimens involving the environment that contains CWD-infected deer. Material and Methods: A set of diverse samples analyzed in this study were collected by USDA and TPWD personnel in breeding and taxidermy facilities, and deer breeding facilities. These included animal and environmental samples. Additional samples from free-ranging animals were provided by hunters. Results: The diverse range of samples successfully detected for CWD prion infection in this study include blood, semen, feces, obex, retropharyngeal lymph node, fetuses (neural and peripheral tissues) and gestational tissues, parasites, insects, plants, compost/soil mixtures, and swabs from trash containers. Importantly, these results helped to identify seeding-competent prions in places reported to be free of CWD. The levels of prion infectivity in most of these samples are currently being investigated. Conclusions: Our findings contribute to the understanding of the transmission dynamics and prevalence of CWD. In addition, our data have helped to identify CWD in areas previously considered to be free of CWD. We also demonstrate that PMCA is a powerful technique for the screening of biological and environmental samples. Overall, our research suggests that PMCA may be a useful tool to implement for the surveillance and management of CWD. Funded by: NIH/NIAID and USDA Grant number: 1R01AI132695 (NIH) and AP20VSSPRS00C143 (USDA) 

Nasal bot: an emerging vector for natural chronic wasting disease transmission 

Paulina Sotoa,b, Francisca Bravo-Risia,b, Carlos Kramma, Nelson Pereza, Rebeca Benaventea, J. Hunter Reedc, Mitch Lockwoodc, Tracy A. Nicholsd, and Rodrigo Moralesa,b aDepartment of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; bUniversidad Bernardo O’Higgins, Santiago, Chile; cTexas Park and Wildlife Department, Texas, USA; dVeterinary Services Cervid Health Program, United States Department of Agriculture, Animal and Plant Health Inspection Service, Fort Collins, Colorado, USA 

Chronic wasting disease (CWD) is a fatal neurodegenerative disease that affects farmed and free-ranging cervids populations. The spread of CWD in cervids is thought to occur through the direct contact between cervids or through the exposure of naïve animals to contaminated environments. Parasites are known vectors of multiple diseases in animals. However, the potential role of parasites in CWD transmission remains unclear. Aims: The main objective of this study was to determine if CWD prions could be detected in the larvae of deer nasal bot flies, a common deer parasite, taken from CWD-infected white-tailed deer (Odocoileus virginianus). Methods: Bot fly larvae were collected from the nasal cavity of naturally infected CWD- positive or CWD non-detect white-tailed deer. The CWD seeding activity of the larvae was interrogated by PMCA. Prion infectivity was also evaluated in cervidized transgenic mouse bioassay (intra-cerebral administration in Tg1536 mice). Mice inoculated with bot larvae homogenate were sacrificed when they showed established signs of prion disease, or at extended periods after treatment (600 days). All inoculated mouse brains were evaluated for protease resistant prions to confirm clinical or sub-clinical infection. Bot larvae from CWD non-detect deer were used as controls. To further mimic environmental transmission, bot larvae homogenates were mixed with soils and plants were grown on them. Both plants and soils were tested for prion seeding activity. Results: PMCA analysis demonstrated CWD seeding activity in nasal bot larvae from captive and free-ranging white-tailed deer. CWD-contaminated bots efficiently infected transgenic mice, with attack rates and incubation periods suggesting high infectivity titers. Further analyses of treated animals (biochemical characterization of protease resistant prions and immunohistochemistry) confirmed prion infection. Analyses on dissected parts of the bot larvae demonstrate that the infectivity is concentrated in the larvae cuticle (outer part). Nasal bot larvae extracts mixed with

 soils showed seeding activity by PMCA. Interestingly, plants grown in soil contaminated with the nasal bot larvae extract were found to produce seeding activity by PMCA. Conclusion: In this study we described for the first time that deer nasal bot larvae from CWD-infected deer carry high CWD infectivity titers. We also demonstrate that CWD prions in these parasites can interact with other environmental components relevant for disease transmission. Considering this information, we propose that deer nasal bot larvae could act as vectors for CWD transmission in wild and farming settings. Funded by: NIH/NIAID and USDA/APHIS Grant number: R01AI132695 and AP20VSSPRS00C143 PRION 2022 ABSTRACTS, AND A BIG THANK YOU TO On behalf of the Prion2020/2022 Congress Organizing Committee and the NeuroPrion Association, we heartily invite you to join us for the International Conference Prion2020/2022 from 13.-16. September 2022 in Göttingen.

Prion 2022 Conference abstracts: pushing the boundaries


Shedding of Chronic Wasting Disease Prions in Multiple Excreta Throughout Disease Course in White-tailed Deer

Nathaniel D. Denkersa, Erin E. McNultya, Caitlyn N. Krafta, Amy V. Nallsa, Joseph A. Westricha, Wilfred Goldmannb, Candace K. Mathiasona, and Edward A. Hoovera

aPrion Research Center, College of Veterinary Medicine and Biological Sciences, Department of Microbiology, Immunology, and Pathology; Colorado State University, Fort Collins, CO, USA; bDivision of Infection and Immunity, The Roslin Institute and the Royal Dick School of Veterinary Studies, University of Edinburgh, Midlothian, UK

Aims: Chronic wasting disease (CWD) now infects cervids in South Korea, North America, and Scandinavia. CWD is unique in its efficient transmission and shedding of prions in body fluids throughout long course infections. Questions remain as to the magnitude of shedding and the route of prion acquisition. As CWD continues to expand, the need to better understand these facets of disease becomes more pertinent. The purpose of the studies described was to define the longitudinal shedding profile of CWD prions in urine, saliva, and feces throughout the course of infection in white-tailed deer.

Material and Methods: Twelve (12) white-tailed deer were inoculated with either 1 mg or 300ng of CWD. Urine, saliva, and feces were collected every 3-month post-inoculation (MPI) throughout the study duration. Cohorts were established based on PNRP genotype: codon 96 GG (n = 6) and alternate codons 96 GS (n = 5) & 103NT (n = 1). Urine and saliva were analyzed using iron-oxide magnetic extraction (IOME) and real-time quaking induced conversion (RT-QuIC)(IQ). Feces were subjected to IOME, followed by 4 rounds protein misfolding cyclic amplification (PMCA) with products analyzed by RT-QuIC (IPQ). To determine whether IPQ may be superior to IQ, a subset of urine and saliva were also tested by IPQ. Results were compared with clinical disease status.

Results: Within the 96 GG cohort, positive seeding activity was detected in feces from all deer (100%), in saliva from 5 of 6 (83%), and in urine from 4 of 6 (66%). Shedding in all excreta occurred at, or just after, the first positive tonsil biopsy result. In the 96 GS/103NT cohort, positive seeding activity could be detected in feces from 3 of 6 (50%) deer, saliva in 2 of 6 (33%), and urine in 1 of 6 (16%). Shedding in excreta was detected >5 months after the first tonsil positive result. Four of six 96 GG deer developed clinical signs of CWD, whereas only 2 of the 96 GS/103NT did. Shedding was more frequently detected in deer with clinical disease. The IPQ protocol did not significantly improve detection in saliva or urine samples, however, it significantly augmented detection in feces by eliminating non-specific background commonly experienced with IQ. Negative control samples remained negative in samples tested.

Conclusions: These studies demonstrate: (a) CWD prion excretion occurs throughout infection; (2) PRNP genotype (GG≫GS/NT) influences the excreta shedding; and (3) detection sensitivity in excreta can vary with different RT-QuIC protocols. These results provide a more complete perspective of prion shedding in deer during the course of CWD infection.

Funded by: National Institutes of Health (NIH)

Grant number: RO1-NS061902-09 R to EAH, PO1-AI077774 to EAH, and R01-AI112956-06 to CKM

Acknowledgement: We abundantly thank Sallie Dahmes at WASCO and David Osborn and Gino D’Angelo at the University of Georgia Warnell School of Forestry and Natural Resources for their long-standing support of this work through provision of the hand-raised, CWD-free, white-tailed deer used in these studies

Carrot plants as potential vectors for CWD transmission

Paulina Sotoa,b, Francisca Bravo-Risia,b, Claudio Sotoa, and Rodrigo Moralesa,b

aDepartment of Neurology, McGovern Medical School, University of Texas Health Science Center at Houston, Texas, USA; bUniversidad Bernardo O’Higgins, Santiago, Chile

Prion diseases are infectious neurodegenerative disorders afflicting humans and other mammals. These diseases are generated by the misfolding of the cellular prion protein into a disease-causing isoform. Chronic wasting disease (CWD) is a prevalent prion disease affecting cervids (captive and free-range). CWD is thought to be transmitted through direct animal contact or by indirect exposure to contaminated environments. Many studies have shown that infectious prions can enter the environment through saliva, feces, or urine from infected animals and decaying carcasses. However, we do not fully understand the specific contribution of each component to disease transmission events. Plants are logical environmental components to be evaluated since they grow in environments contaminated with CWD prions and are relevant for animal and human nutrition.

Aims: The main objective of this study is to study whether prions are transported to the roots and leaves of carrots, an edible plant commonly used in the human diet and as deer bait.

Methods: We have grown carrot plants in CWD-infected soils. After 90 days, we harvested the carrots and separated them from the leaves. The experiment was controlled by growing plants in soil samples treated with brain extracts from healthy animals. These materials were interrogated for their prion seeding activity using the Protein Misfolding Cyclic Amplification (PMCA) technique. Infectivity was evaluated in mouse bioassays (intracerebral injections in Tg1536 mice). The animals were sacrificed when they showed established signs of prion disease. Animals not displaying clinical signs were sacrificed at 600 days post-inoculation.

Results: The PMCA analysis demonstrated CWD seeding activity in soils contaminated with CWD prions, as well as in carrot plants (leaves and roots) grown on them. Bioassays demonstrated that both leaves and roots contained CWD prions in sufficient quantities to induce disease (92% attack rate). As expected, animals treated with prion-infected soils developed prion disease at shorter incubation periods (and complete attack rates) compared to plant components. Animals treated with soil and plant components exposed with CWD-free brain extracts did not display prion-associated clinical signs or evidence of sub-clinical prion infection.

Conclusions: We show that edible plant components can absorb prions from CWD contaminated soils and transport them to their aerial parts. Our results indicate that plants could participate as vectors of CWD transmission. Importantly, plants designated for human consumption represent a risk of introducing CWD prions into the human food chain.

Funded by: NIH

Grant number: R01AI132695


ENVIRONMENT FACTORS FOR THE TRANSMISSION OF CWD TSE PRP

Sensitive detection of chronic wasting disease prions recovered from environmentally relevant surfaces

Environment International

Available online 13 June 2022, 107347

Environment International

Sensitive detection of chronic wasting disease prions recovered from environmentally relevant surfaces

Qi Yuana Gag e Rowdenb Tiffany M.Wolfc Marc D.Schwabenlanderb Peter A.LarsenbShannon L.Bartelt-Huntd Jason C.Bartza

a Department of Medical Microbiology and Immunology, Creighton University, Omaha, Nebraska, 68178, United States of America

b Department of Veterinary and Biomedical Sciences, University of Minnesota, Saint Paul, MN, 55108, United States of America

c Department of Veterinary Population Medicine, University of Minnesota, Saint Paul, MN, 55108, United States of America

d Department of Civil and Environmental Engineering, Peter Kiewit Institute, University of Nebraska-Lincoln, Omaha, Nebraska, 68182, United States of America

Received 26 April 2022, Revised 8 June 2022, Accepted 9 June 2022, Available online 13 June 2022.


Get rights and content

Under a Creative Commons license Open access

Highlights • An innovative method for prion recovery from swabs was developed.

• Recovery of prions decreased as swab-drying time was increased.

• Recovery of CWD prions from stainless steel and glass was approximately 30%.

• RT-QuIC enhanced CWD prion detection by 4 orders of magnitude.

• Surface-recovered CWD prion was sufficient for efficient RT-QuIC detection. 

Abstract

Chronic wasting disease (CWD) has been identified in 30 states in the United States, four provinces in Canada, and recently emerged in Scandinavia. The association of CWD prions with environmental materials such as soil, plants, and surfaces may enhance the persistence of CWD prion infectivity in the environment exacerbating disease transmission. Identifying and quantifying CWD prions in the environment is significant for prion monitoring and disease transmission control. A systematic method for CWD prion quantification from associated environmental materials, however, does not exist. In this study, we developed an innovative method for extracting prions from swabs and recovering CWD prions swabbed from different types of surfaces including glass, stainless steel, and wood. We found that samples dried on swabs were unfavorable for prion extraction, with the greatest prion recovery from wet swabs. Using this swabbing technique, the recovery of CWD prions dried to glass or stainless steel was approximately 30% in most cases, whereas that from wood was undetectable by conventional prion immunodetection techniques. Real-time quake-induced conversion (RT-QuIC) analysis of these same samples resulted in an increase of the detection limit of CWD prions from stainless steel by 4 orders of magnitude. More importantly, the RT-QuIC detection of CWD prions recovered from stainless steel surfaces using this method was similar to the original CWD prion load applied to the surface. This combined surface swabbing and RT-QuIC detection method provides an ultrasensitive means for prion detection across many settings and applications.

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5. Conclusions

Chronic wasting disease is spreading in North America and it is hypothesized that in CWD-endemic areas environmental persistence of CWD prions can exacerbate disease transmission. The development of a sensitive CWD prion detection method from environmentally relevant surfaces is significant for monitoring, risk assessment, and control of CWD. In this study, we developed a novel swab-extraction procedure for field deployable sampling of CWD prions from stainless steel, glass, and wood. We found that extended swab-drying was unfavorable for extraction, indicating that hydrated storage of swabs after sampling aided in prion recovery. Recoverable CWD prions from stainless steel and glass was approximately 30%, which was greater than from wood. RT-QuIC analysis of the swab extracts resulted in an increase of the detection limit of CWD prions from stainless steel by 4 orders of magnitude compared to conventional immunodetection techniques. More importantly, the RT-QuIC detection of CWD prions recovered from stainless steel surfaces using this developed method was similar to the original CWD prion load without surface contact. This method of prion sampling and recovery, in combination with ultrasensitive detection methods, allows for prion detection from contaminated environmental surfaces.


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 McKenzie ORCID 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.

KEYWORDS: Prion chronic wasting diseasesex differences species differences disease prevalence cervid protein expression glands


Paper

Rapid recontamination of a farm building occurs after attempted prion removal

Kevin Christopher Gough BSc (Hons), PhD Claire Alison Baker BSc (Hons) Steve Hawkins MIBiol Hugh Simmons BVSc, MRCVS, MBA, MA Timm Konold DrMedVet, PhD, MRCVS … See all authors 

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.

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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.


***> 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

Gudmundur Georgsson1, Sigurdur Sigurdarson2, Paul Brown3


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

imageTimm Konold1*, imageStephen A. C. Hawkins2, imageLisa C. Thurston3, imageBen C. Maddison4, imageKevin C. Gough5, imageAnthony Duarte1 and imageHugh A. Simmons1

The findings of this study highlight the role of field furniture used by scrapie-infected sheep to act as a reservoir for disease re-introduction although infectivity declines considerably if the field furniture has not been in contact with scrapie-infected sheep for several months. PMCA may not be as sensitive as VRQ/VRQ sheep to test for environmental contamination.

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Discussion 

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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

Kyung Je Park, Hoo Chang Park, In Soon Roh, Hyo Jin Kim, Hae-Eun Kang and Hyun Joo Sohn

Foreign Animal Disease Division, Animal and Plant Quarantine Agency, Gimcheon, Gyeongsangbuk-do, Korea

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.


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.

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 


MONDAY, APRIL 19, 2021

Evaluation of the application for new alternative biodiesel production process for rendered fat including Category 1 animal by-products (BDI-RepCat® process, AT) ???


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 !

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---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

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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.

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Dr. Paul Brown Scrapie Soil Test BSE Inquiry Document


Control of Chronic Wasting Disease OMB Control Number: 0579-0189 APHIS-2021-0004 Singeltary Submission



Docket No. APHIS-2018-0011 Chronic Wasting Disease Herd Certification



APHIS Indemnity Regulations [Docket No. APHIS-2021-0010] RIN 0579-AE65 Singeltary Comment Submission

Comment from Singeltary Sr., Terry

Posted by the Animal and Plant Health Inspection Service on Sep 8, 2022



FRIDAY, NOVEMBER 04, 2022

Texas CWD TSE Prion 409 Cases Confirmed To Date TPWD emergency rule adds two new surveillance zones located primarily in Gillespie and Limestone counties


Counties where CWD Exposed Deer were Released


Number of CWD Exposed Deer Released by County


see Texas CWD History;


see full listing of CWD positives at; (has not been updated)


“Regarding the current situation involving CWD in permitted deer breeding facilities, TPWD records indicate that within the last five years, the seven CWD-positive facilities transferred a total of 2,530 deer to 270 locations in 102 counties and eight locations in Mexico (the destinations included 139 deer breeding facilities, 118 release sites, five Deer Management Permit sites, and three nursing facilities).'' ...

It is apparent that prior to the recent emergency rules, the CWD detection rules were ineffective at detecting CWD earlier in the deer breeding facilities where it was eventually discovered and had been present for some time; this creates additional concern regarding adequate mitigation of the risk of transferring CWD-positive breeder deer to release sites where released breeder deer come into contact with free-ranging deer...

Commission Agenda Item No. 5 Exhibit B

DISEASE DETECTION AND RESPONSE RULES

PROPOSAL PREAMBLE

1. Introduction. 

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 A third issue is the accuracy of mortality reporting. Department records indicate that for each of the last five years an average of 26 deer breeders have reported a shared total of 159 escapes. Department records for the same time period indicate an average of 31 breeding facilities reported a shared total of 825 missing deer (deer that department records indicate should be present in the facility, but cannot be located or verified). 


Proposed Amendments to CWD Zone Rules

Your opinions and comments have been submitted successfully.

Thank you for participating in the TPWD regulatory process.


THURSDAY, AUGUST 04, 2022 

Texas Proposed Amendments to CWD Zone Rules Singeltary Submission


WEDNESDAY, SEPTEMBER 07, 2022 

Exploring the possibility of CWD transmission through artificial insemination of semen from CWD positive bucks 


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---end...tss


WEDNESDAY, MAY 17, 2017

*** Chronic Wasting Disease CWD TSE Prion aka Mad Deer Disease and the Real Estate Market Land Values ***


MONDAY, MARCH 05, 2018 

TRUCKING AROUND AND SPREADING CHRONIC WASTING DISEASE CWD TSE PRION VIA MOVEMENT OF CERVID AND TRANSPORTATION VEHICLES


TUESDAY, JUNE 28, 2022 

TAHC PROPOSES CHANGES TO VOLUNTARY CWD PROGRAM CHAPTER 40, CHRONIC WASTING DISEASE SINGELTARY SUBMISSION JUNE 28, 2022


***> TEXAS HISTORY OF CWD <***

Singeltary telling TAHC, that CWD was waltzing into Texas from WSMR around Trans Pecos region, starting around 2001, 2002, and every year, there after, until New Mexico finally shamed TAHC et al to test where i had been telling them to test for a decade. 2012 cwd was detected first right there where i had been trying to tell TAHC for 10 years. 

***> Singeltary on Texas Chronic Wasting Disease CWD TSE Prion History <***


THURSDAY, OCTOBER 27, 2022 

SEAFWA COMMITTEE Cervid Working Group Report August 16, 2022 CWD TSE Prion Report 


Monday, November 14, 2022 

Prion Diseases in Dromedary Camels (CPD) 2022 Review 


THURSDAY, NOVEMBER 10, 2022 

Annual Report of the Scientific Network on BSE‐TSE 2022

wasted days and wasted nights...Freddy Fender

Terry S. Singeltary Sr.

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