ABSTRACT
A wildlife hospital and rehabilitation center in northwestern United States received several big brown bats with necrosuppurative osteomyelitis in multiple joints. Wing and joint tissues were positive by PCR for poxvirus. Thin-section electron microscopy showed poxvirus particles within A-type inclusions. Phylogenetic comparison supports establishment of a new genus of Poxviridae.
Subject(s)
Chiroptera/virology , Poxviridae/classification , Animals , Genome, Viral , Male , Molecular Sequence Data , Phylogeny , Poxviridae/genetics , Poxviridae/isolation & purification , Poxviridae/ultrastructureABSTRACT
Coccidioides immitis is an emerging fungal pathogen in Washington State (WA). While the geographical boundaries of C. immitis in WA have not been well characterized, human infections have resulted from exposure in the south-central region of the state. Since 2010, only one dog has been identified as a probable locally acquired animal case, despite pilot canine serological surveys from south-central WA revealing a 9.8% seroprevalence. On the suspicion that clinical animal cases may be underdiagnosed and/or underreported, we assessed WA veterinarians' knowledge, attitudes and practices regarding coccidioidomycosis. All veterinarians with active licenses in WA were invited to complete a self-administered, web-based survey from November 2018 to January 2019. Four hundred and twenty-five of 2,211 (19.2%) veterinarians returned the survey and were eligible for inclusion in the final analysis. Nearly, all respondents (98.8%) had heard of coccidioidomycosis, but only 31.5% and 25.6% knew that locally acquired animal and human cases, respectively, had been reported in WA. Only half (52.6%) of participants knew that the disease was reportable. Fewer than 20% of respondents reported confidence that their knowledge of coccidioidomycosis was up to date, and 76.9% "never" or "rarely" considered the risk of disease in their patients. A statistically significant predictor of a high knowledge score (≥70%), however, included practicing in endemic counties where the Washington State Department of Health had previously delivered outreach and education services. While the results suggest some success with these activities, it is clear that information on the emergence of coccidioidomycosis is not adequately reaching veterinary practitioners in WA. The data support that more frequent CE opportunities, and dissemination of public health communications through veterinary-specific modalities, would help fill the knowledge gap. In turn, improved diagnosis and reporting of animal cases would assist in our overall understanding the epidemiology of coccidioidomycosis in WA.
Subject(s)
Coccidioides , Coccidioidomycosis/veterinary , Communicable Diseases, Emerging/veterinary , Health Knowledge, Attitudes, Practice , Veterinarians , Animals , Coccidioidomycosis/epidemiology , Communicable Diseases, Emerging/epidemiology , Communicable Diseases, Emerging/microbiology , Data Collection , Dog Diseases/epidemiology , Dogs , Humans , Surveys and Questionnaires , Washington/epidemiologyABSTRACT
Coccidioidomycosis is a predominantly respiratory infection of animals and humans caused by soil-dwelling fungi. Long known to be endemic to North American deserts, locally acquired human cases first emerged in Washington State in 2010. To inform development of an environmental niche map, we conducted an ecological cross-sectional study of the association between soil and climactic variables and canine seroprevalence in Washington State, at the zip code tabulation area level. Soil predictors included soil texture (per cent sand, silt and clay), pH, electrical conductivity and water storage capacity; climactic predictors included mean annual air temperature and liquid precipitation. Clustering was evaluated with Moran's I, and four modelling approaches were adopted a priori: two models without any smoothing (logistic regression and quasi-logistic regression) and two smoothing models (non-spatial and spatial smoothing). No evidence was found for clustering, and both smoothing models resulted in marked attenuation of all coefficients. Temperature was found to have a positive effect in the non-smoothing models (prevalence odds ratio, logistic model: 1.70, 95% confidence interval 1.02, 2.84). While no other significant associations were found, there was suggestive evidence of a positive effect for pH. Despite the limitations inherent to the ecological and cross-sectional nature of these data, these findings provide insight for the development of an environmental niche map in Washington State and demonstrate the utility of using data from an animal sentinel to predict human disease risk.
Subject(s)
Climate , Coccidioidomycosis/veterinary , Dog Diseases/epidemiology , Soil , Animals , Cluster Analysis , Coccidioidomycosis/epidemiology , Coccidioidomycosis/microbiology , Cross-Sectional Studies , Dog Diseases/microbiology , Dogs , Prevalence , Seroepidemiologic Studies , Washington/epidemiologyABSTRACT
Coccidioides is a soil-dwelling fungus that causes coccidioidomycosis, a disease also known as Valley fever, which affects humans and a variety of animal species. Recent findings of Coccidioides in new, unexpected areas of the United States have demonstrated the need for a better understanding of its geographic distribution. Large serological studies on animals could provide important information on the geographic distribution of this pathogen. To facilitate such studies, we used protein A/G, a recombinant protein that binds IgG antibodies from a variety of mammalian species, to develop an enzyme immunoassay (EIA) that detects IgG antibodies against Coccidioides in a highly sensitive and high-throughput manner. We showed the potential of this assay to be adapted to multiple animal species by testing a collection of serum and/or plasma samples from dogs, mice, and humans with or without confirmed coccidioidomycosis. We then evaluated the performance of the assay in dogs, using sera from dogs residing in a highly endemic area, and found seropositivity rates significantly higher than those in dogs of non-endemic areas. We further evaluated the specificity of the assay in dogs infected with other fungal pathogens known to cross-react with Coccidioides. Finally, we used the assay to perform a cross-sectional serosurvey investigating dogs from Washington, a state in which infection with Coccidioides has recently been documented. In summary, we have developed a Coccidioides EIA for the detection of antibodies in canines that is more sensitive and has higher throughput than currently available methods, and by testing this assay in mice and humans, we have shown a proof of principle of its adaptability for other animal species.