Barling K S, Sherman M, Peterson M J, Thompson J A, McNeill J W, Craig T M, Adams L G
Department of Large Animal Medicine and Surgery, Texas A&M University, College Station 77843, USA.
J Am Vet Med Assoc. 2000 Nov 1;217(9):1361-5. doi: 10.2460/javma.2000.217.1361.
To determine the epidemiologic plausibility of a sylvatic transmission cycle for Neospora caninum between wild canids and beef cattle.
Spatial analysis study.
1,009 weaned beef steers from 94 beef herds in Texas.
Calves were grouped on the basis of seroprevalence for N caninum and ecologic region in Texas. The Morans I test was used to evaluate spatial interdependence for adjusted seroprevalence by ecologic region. Cattle density (Number of cattle/259 km2 [Number of cattle/100 mile2] of each ecologic region) and abundance indices for gray foxes and coyotes (Number of animals/161 spotlight-transect [census] km [Number of animals/100 census miles] of each ecologic region) were used as covariates in spatial regression models, with adjusted seroprevalence as the outcome variable. A geographic information system (GIS) that used similar covariate information for each county was used to validate spatial regression models. Results-Spatial interdependence was not detected for ecologic regions. Three spatial regression models were tested. Each model contained a variable for cattle density for the ecologic regions. Results for the 3 models revealed that seroprevalence was associated with cattle density and abundances of gray foxes, coyotes, or both. Abundances of gray foxes and coyotes were collinear. Results of a GIS-generated model validated these spatial models.
In Texas, beef cattle are at increased risk of exposure to N caninum as a result of the abundance of wild canids and the density of beef cattle. It is plausible that a sylvatic transmission cycle for neosporosis exists.
确定犬新孢子虫在野生犬科动物和肉牛之间的野生动物传播循环的流行病学合理性。
空间分析研究。
来自得克萨斯州94个肉牛群的1009头断奶肉牛。
根据得克萨斯州犬新孢子虫血清阳性率和生态区域对犊牛进行分组。使用莫兰指数检验评估按生态区域调整的血清阳性率的空间依赖性。牛密度(每个生态区域每259平方公里[每100平方英里]的牛数量)以及灰狐和郊狼的丰度指数(每个生态区域每161公里[每100普查英里]聚光灯样带[普查]的动物数量)用作空间回归模型的协变量,调整后的血清阳性率作为结果变量。使用为每个县提供类似协变量信息的地理信息系统(GIS)来验证空间回归模型。结果-未检测到生态区域的空间依赖性。测试了三个空间回归模型。每个模型都包含一个生态区域牛密度的变量。这三个模型的结果显示,血清阳性率与牛密度以及灰狐、郊狼或两者的丰度有关。灰狐和郊狼的丰度是共线的。GIS生成模型的结果验证了这些空间模型。
在得克萨斯州,由于野生犬科动物数量众多和肉牛密度大,肉牛接触犬新孢子虫的风险增加。新孢子虫病存在野生动物传播循环是合理的。
