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Chronic wasting disease in free-ranging Wisconsin White-tailed Deer. (Dispatches).



Three White-tailed Deer white-tailed deer
 or Virginia deer

Common reddish brown deer (Odocoileus virginianus), an important game animal found alone or in small groups from southern Canada to South America.
 shot within 5 km during the 2001 hunting season in Wisconsin tested positive for chronic wasting disease Noun 1. chronic wasting disease - a wildlife disease (akin to bovine spongiform encephalitis) that affects deer and elk
animal disease - a disease that typically does not affect human beings
, a prion disease of cervids. Subsequent sampling within 18 km showed a 3% prevalence (n=476). This discovery represents an important range extension for chronic wasting disease into the eastern United States.

**********

Chronic wasting disease (CWD CWD

chronic wasting disease.
) is degenerative and usually considered to be fatal in White-tailed Deer (Odocoileus virginianus), Mule Deer mule deer

Large-eared deer (Odocoileus hemionus) of western North America that lives alone or in small groups at high altitudes in summer and lower altitudes in winter. Mule deer stand 3–3.
 (O. hemionus), and Elk (Cervus elaphus) associated with the presence of transmissible transmissible /trans·mis·si·ble/ (trans-mis´i-b'l) capable of being transmitted.

trans·mis·si·ble
adj.
Capable of being conveyed from one person to another.
 protease-resistant prion prion (prī`ŏn), infectious agent thought to cause a group of diseases known as

prion diseases or transmissible spongiform encephalopathies.
 proteins (Pr[P.sup.cwd]) (1,2). Although the transmission route of Pr[P.sup.cwd] is unknown, it may be transmitted in deer and elk by direct contact or indirectly from the environment (1,2). In experiments, clinical signs have appeared as early as 15 months after exposure (1) and include weight loss, anorexia, repetitive behaviors, hyperesthesia hyperesthesia /hy·per·es·the·sia/ (-es-the´zhah) increased sensitivity to stimulation, particularly to touch.hyperesthet´ic

acoustic hyperesthesia , auditory hyperesthesia hyperacusis.
, and intractability. Signs progress to severe emaciation emaciation /ema·ci·a·tion/ (e-ma?she-a´shun) a wasted condition of the body.

e·ma·ci·a·tion
n.
The process of losing so much flesh as to become extremely thin; wasting.
, extreme behavioral changes, excessive salivation salivation /sal·i·va·tion/ (sal?i-va´shun)
1. the secretion of saliva.

2. ptyalism.


sal·i·va·tion
n.
1. The act or process of secreting saliva.

2.
, tremors, and mild ataxia ataxia (ətăk`sēə), lack of coordination of the voluntary muscles resulting in irregular movements of the body. Ataxia can be brought on by an injury, infection, or degenerative disease of the central nervous system, e.g.  (1,2). CWD was first recognized in captive Mule Deer in Colorado (3) and subsequently described in the free-ranging cervid cervid

a member of the family Cervidae, deer, elk, reindeer, moose, wapiti, muntjacs and sikas.
 populations of Colorado and Wyoming (1); prevalence in these disease-endemic areas varies spatially and among the three sympatric sym·pat·ric  
adj. Ecology
Occupying the same or overlapping geographic areas without interbreeding. Used of populations of closely related species.
 cervid species (4). Before its discovery in Wisconsin, CWD was detected in captive cervid farms in Colorado, Nebraska, South Dakota, Oklahoma, Kansas, Montana (USA), as well as Alberta, Saskatchewan (Canada), and South Korea (1). Apart from the contiguous areas of Colorado, Wyoming, and Nebraska, CWD had previously only been detected in two free-ranging Mule Deer from Saskatchewan, one Mule Deer from South Dakota, and in a number of Mule Deer from the western slopes region of Colorado (1). Previously, no cases of CWD were reported east of the Mississippi; however, subsequent to our research, CWD-positive cervids were found in Minnesota (captive Elk), Wisconsin (captive White-tailed Deer and Elk), and Illinois (free-ranging White-tailed Deer). Further, west of the Mississippi, the following CWD-positive animals have been found: Mule Deer in New Mexico and Utah; free-ranging Mule and White-tailed Deer in Saskatchewan, Canada; and captive Elk and White-tailed Deer in Alberta, Canada.

The Study

In autumn of 1999 and 2000, the Wisconsin Department of Natural Resources The Wisconsin Department of Natural Resources (WDNR) is an agency of the state of Wisconsin. Its purpose is to preserve, protect, manage and maintain the natural resources of the state[1].  (WDNR WDNR Wisconsin Department of Natural Resources
WDNR Washington State Department of Natural Resources
) submitted to the National Veterinary Services Laboratories (NVSL NVSL National Veterinary Services Laboratories (United States Department of Agriculture)
NVSL Northern Virginia Swimming League
) (Ames, Iowa) brain material (obex) from 657 hunter-killed White-tailed Deer registered at hunter check stations across the state. None came from the study area we describe. Samples were tested for CWD prion by immunohistochemistry (IHC IHC Immunohistochemistry
IHC Intermountain Health Care
IHC Inner Hair Cells
IHC International Harvester Company
IHC Internet Healthcare Coalition
IHC Indian Head Cent
IHC Interactive Health Communication
IHC International Hurricane Center
) (5). Prion was not detected in any samples. However, 3 of 445 White-tailed Deer shot in autumn of 2001 were positive for CWD. These deer were males, 2.5 years of age, and were shot within 5 km in south-central Wisconsin. WDNR subsequently conducted a sampling program to assess the distribution and prevalence of CWD in the vicinity of these three positive deer. We report the results of this sampling program.

Samples were collected from 500 adult (>1 year of age) White-tailed Deer within an approximate 18-km radius, and all samples were tested for CWD. Deer were submitted by hunters who were issued scientific collection permits, collected at roadside after vehicular collison, or collected by WDNR or U.S. Department of Agriculture sharpshooters. Data from collected deer included the geographic location based on the Wisconsin Public Land Survey System (township-range-section), sex, and age (estimated by using tooth eruption and tooth wear patterns [6]). Location of kill was indicated on a map by hunters during interviews by DNR See dynamic noise reduction and domain name resolver.  staff. Samples of brain stem (obex) and retropharyngeal retropharyngeal /ret·ro·pha·ryn·ge·al/ (-fah-rin´je-al)
1. pertaining to the posterior part of the pharaynx.

2. posterior to the pharynx.


ret·ro·pha·ryn·geal
adj.
 lymphatic tissue lymphatic tissue
n.
Tissue consisting of a network of reticular fibers and cells, the meshes of which are occupied by lymphocytes. Also called adenoid tissue, lymphoid tissue.
 were fixed in 10% buffered formalin formalin /for·ma·lin/ (for´mah-lin) formaldehyde solution.

for·ma·lin
n.
An aqueous solution of formaldehyde that is 37 percent by weight.
 and submitted to NVSL for testing using IHC. We considered a deer to be CWD positive if either obex or retropharyngeal samples were IHC positive (1).

We used the spatial scan statistic provided by Kulldorff and Nagarwalla (7) (program SaTScan available from: URL URL
 in full Uniform Resource Locator

Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program.
: http://www3.cancer.gov/prevention/bb/satscan.html) to assess the presence and location of CWD clusters within the surveillance area. Location data were collected to the survey unit "section" (approximately 2.6 [km.sup.2]). We pooled locations into 4X4 section quadrats for analysis to compensate for sections from which no deer were collected. In a separate analysis, sex and age were assessed as predictors of CWD status by using logistic regression (function glm in program R v. 1.5.0; available from: URL: http://www.r-project.org) (8). Model selection uncertainty was incorporated into the odds ratio (OR) estimates by using model averaging (9).

Results and Discussion

From March 2 to April 9, 2002, samples were collected from 505 deer; however, 29 deer were not included in the analysis because of sample autolysis autolysis /au·tol·y·sis/ (aw-tol´i-sis)
1. spontaneous disintegration of cells or tissues by autologous enzymes, as occurs after death and in some pathologic conditions.

2.
, inappropriate tissue submission, or lack of availability of appropriate tissues (e.g., deer with no intact cranium cranium: see skull.  or those shot in the head). Of the remaining 476 deer (87 males, 386 females, and 3 for which sex was not recorded), 15 (3.2%; 95% confidence limit [CI] 1.7% to 5.1%) were IHC positive, 11 in both obex and retropharyngeal lymph node lymph node

Small, rounded mass of lymphoid tissue contained in connective tissue. They occur all along lymphatic vessels, with clusters in certain areas (e.g., neck, groin, armpits).
 samples and 4 from lymph nodes only. We inferred that deer that were only lymph node positive were in the earlier states of infection (1). Estimated prevalence varied spatially within the surveillance area. A cluster of higher than expected prevalence was detected in the north-central region of the sampling area (prevalence 9.4%; 95% CI 5.0% to 16.0%; p=0.003; n=127) (Figure).

[FIGURE OMITTED]

Prevalence did not vary by sex (males: 3.4%, 95% CI 0.1% to 9.7%, n=87; females: 3.1%, 95% CI 1.6% to 5.3%, n=386; male vs. female OR 1.1, 95% CI 0.56 to 2.19), a pattern consistent with Mule Deer sampled in Colorado and Wyoming (4). Increasing prevalence with age was suggested, although we could not distinguish whether the OR differed from 1 (OR 1.13, 95% CI 0.93 to 1.39). We had a small sample (n=32) of older animals (>5 years of age), which weakened our ability to detect an increase in prevalence with age statistically. Miller et al. (4) found that CWD prevalence increased with age in male Mule Deer and then abruptly declined in older age classes. We did not have a sufficient sample size to evaluate a sex difference in prevalence by age.

The known range of CWD was extended by its detection in Wisconsin, which is the first report of the disease east of the Mississippi River. Although we do not know how the free-ranging deer population of Wisconsin became affected by CWD, the most commonly suggested hypothesis is that CWD in Wisconsin may have emerged through importing of an affected cervid. The current enzootic en·zo·ot·ic
adj.
Prevalent among or restricted to animals of a specific geographic area. Used of a disease.

n.
An enzootic disease.



enzootic

peculiar to or present constantly in a location. See also endemic.
 of CWD in free-ranging deer and elk is paralleled by an enzootic in the captive cervid industry, and the relationship between CWD-affected elk farms and recent (2000-2002) diagnoses of CWD in free-ranging deer in Nebraska, South Dakota, and Saskatchewan remains under investigation (1). Elk were imported to Wisconsin from CWD-affected herds in Colorado during the 1990s, and recently (September and October 2002) captive White-tailed Deer were found to be positive on two separate farms in central and southern Wisconsin (10). Furthermore, during epidemiologic investigations of these positive farms, WDNR discovered that deer had escaped in March 2002 from one of these farms, one of which was later shot and found to be CWD positive (9). We stress that these positive captive deer are likely not the source of CWD in this free-ranging White-tailed Deer outbreak because of the captive deer's distance from the area where the CWD-positive free-ranging deer are (approximately 130 km). No direct evidence exists that CWD came to Wisconsin by the captive cervid industry. However, further investigation on possible links between CWD cases in captive and free-ranging cervids in Wisconsin is ongoing.

Conclusions

The state of Wisconsin is undertaking an integrated research, surveillance, and management program to determine the distribution of CWD in the Wisconsin free-ranging deer population and eventually eliminating the disease from the known affected area of south-central Wisconsin (10,11). As of March 2003, a total of 39,636 deer had been sampled statewide for CWD as part of this surveillance and management program (data are available from: URL: http://www.dnr.state.wi.us/org/land/wildlife/whealth/issue s/CWD/). Computer simulation of CWD dynamics in western cervid populations (12) indicated that CWD could severely reduce deer numbers. Disease transmission may occur at a greater rate and consequently have a larger impact on the population in the eastern United States, where White-tailed Deer densities are typically an order of magnitude A change in quantity or volume as measured by the decimal point. For example, from tens to hundreds is one order of magnitude. Tens to thousands is two orders of magnitude; tens to millions is three orders of magnitude, etc.  larger than western deer and elk populations (e.g., deer densities in the CWD-affected area are estimated to be currently >20 deer per [km.sup.2]) (WDNR, unpub. data). Deer and deer-related activities, such as hunting, wildlife viewing, and other social factors, are an important component of the Wisconsin culture and economy (approximately $1 billion/year) (13), prompting an aggressive research and management strategy to combat CWD in Wisconsin's free-ranging deer population.

Acknowledgments

We thank the staff of the Wisconsin Departments of Natural Resources, Agriculture, Trade and Consumer Protection, and Health and Family Services under the direction of the Wisconsin Interagency Chronic Wasting Disease (CWD) Task Force; the landowners and hunters who provided samples and participated in CWD management; the National Veterinary Services Laboratories (Ames, Iowa) for conducting disease testing; and B.R. Patterson, D. Grear, C. Yahnke, and J. Ahumada for critical reviews.

Dr. Joly's research fellowship was supported by funding from the U.S. Geological Survey-National Wildlife Health Center and the Wisconsin Department of Natural Resources.

References

(1.) Williams ES, Miller MW, Kreeger TJ, Kahn RH, Thorne ET. Chronic wasting disease of deer and elk: a review. J Wildl Manage 2002;66:551-63.

(2.) Williams ES, Kirkwood JK, Miller MW. In: Williams ES, Barker IK, editors. Transmissible spongiform spongiform /spon·gi·form/ (spun´ji-form) resembling a sponge.

spon·gi·form
adj.
Resembling a sponge, as in appearance or porosity.



spongiform

resembling a sponge.
 encepalopathies. Infectious diseases of wild mammals. 3rd edition. Ames (IO): Iowa State University Academics
ISU is best known for its degree programs in science, engineering, and agriculture. ISU is also home of the world's first electronic digital computing device, the Atanasoff–Berry Computer.
 Press; 2001. p. 292-301.

(3.) Williams ES, Young S. Chronic wasting disease of captive mule deer: a spongiform encepalopathy. J Wildl Dis 1980; 16:89-98.

(4.) Miller MW, Williams ES, McCarty CW, Spraker TR, Kreeger TJ, Larsen CT, et al. Epizootiology of chronic wasting disease in free-ranging cervids in Colorado and Wyoming. J Wildl Dis 2000;36:676-90.

(5.) Hamir N, Cutlip RC, Miller JM, Williams ES, Stack MJ, Miller MW, et al. Preliminary findings on the experimental transmission of chronic wasting disease agent of mule deer to cattle. J Vet Diagn Invest 2001;713:11-90.

(6.) Severinghaus CW. Tooth development and wear as criteria of age in white-tailed deer. J Wildl Manage 1949; 13:195-216.

(7.) Kulldorff M, Nagarwalla N. Spatial disease clusters: detection and inference. Stat Med 1995;14:799-810.

(8.) Ihaka R, Gentleman R. A language for data analysis and graphics. Journal of Computational and Graphical Statistics 1996;5:299-314.

(9.) Burnham KP, Anderson DR. Model selection and inference: a practical information-theoretic approach. New York: Springer; 1998.

(10.) Wisconsin Department of Natural Resources. Environmental impact statement on rules to eradicate chronic wasting disease from Wisconsin's free-ranging white-tailed deer herd; 2003. [cited Mar 10, 2003] Available from: URL: http://www.dnr.state.wi.us/org/land/ wildlife/whealth/issues/cwd/

(11.) Wisconsin Department of Natural Resources. Wisconsin regulations related to chronic wasting disease. 2002 [cited Aug 12, 2002]. Available from: URL: http://www.dnr.state.wi.us/org/land/wildlife/ regs/02CWDregs.pdf

(12). Gross JE, Miller MW. Chronic wasting disease in mule deer: disease dynamics and control. J Wildl Manage 2001;65:205-15.

(13.) U.S. Department of the Interior, Fish and Wildlife Service, and U.S. Department of Commerce, Bureau of the Census Noun 1. Bureau of the Census - the bureau of the Commerce Department responsible for taking the census; provides demographic information and analyses about the population of the United States
Census Bureau
. 1996 national survey of fishing, hunting, and wildlife-associated recreation: Wisconsin. FWS/96-WI; issued April 1998.

Address for correspondence: Damien O. Joly, Department of Wildlife Ecology, University of Wisconsin-Madison “University of Wisconsin” redirects here. For other uses, see University of Wisconsin (disambiguation).
A public, land-grant institution, UW-Madison offers a wide spectrum of liberal arts studies, professional programs, and student activities.
, 218 Russell Labs, Madison, WI 53706, USA; fax: (608)270-2415; email: dojoly@wisc.edu

Damien O. Joly, * Christine A. Ribic, * Julie A. Langenberg, ([dagger]) Kerry Beheler, ([dagger]) Carl A. Batha, ([dagger]) Brian J. Dhuey, ([double dagger]) Robert E. Rolley, ([double dagger]) Gerald Bartelt, ([double dagger]) Timothy R. Van Deelen, ([section]); and Michael D. Samuel * ([paragraph])

* United States Geological Survey-Wisconsin Cooperative Wildlife Research Unit, University of Wisconsin-Madison, Madison, Wisconsin, USA; ([dagger]) Wisconsin Department of Natural Resources, Madison, Wisconsin, USA; ([double dagger]) Wisconsin Department of Natural Resources, Monona, Wisconsin, USA; ([section]) Wisconsin Department of Natural Resources, Rhinelander, Wisconsin, USA; and ([paragraph]) United States Geological Survey-National Wildlife Health Center, Madison, Wisconsin, USA

Dr. Joly is a research associate with the United States Geological Survey-Wisconsin Cooperative Wildlife Research Unit, University of Wisconsin-Madison. His research interests include the ecology of infectious diseases of wildlife.
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Author:Samuel, Michael D.
Publication:Emerging Infectious Diseases
Geographic Code:1USA
Date:May 1, 2003
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