Alaria alata (Digenea: Diplostomidae) from Korean Raccoon Dog, Nyctereutes procyonoides koreensis, in Korea

We report a species of diplostomid fluke recovered from 3 carcasses of wild Korean raccoon dog, Nyctereutes procyonoides koreensis, in Korea. A total of 107 diplostomid flukes were recovered from the small intestines of Korean raccoon dogs, which were obtained from the Gangwon Wildlife Medical Rescue Center. Worms fixed with 10% neutral formalin were subjected to microscopic observation and those fixed in 70% ethanol were used for molecular genomic analysis. The worm was divided into 2 separate parts, forebody and hindbody, with a total length of 3,020-4,090 (3,855) µm and a width of 1,210-1,770 (1,562) µm. The boat-shaped forebody has a pair of characteristic tentacular appendage, 2 suckers, holdfast organ, and vitelline follicles. The oval to cylindrical hindbody has reproductive organs. The ovary was round or elliptical and located in the anterior of the testes. Two large testes were slightly segmented and tandemly arranged, occupying almost half of hindbody. The short uterus contained a relatively small number of unembryonated eggs sized 130-140×85-96 µm. The partial sequence of 18S rRNA of this fluke was consistent with Alaria alata. Based on the morphological and molecular characteristics, the diplostomid flukes recovered from the small intestine of Korean raccoon dogs were identified as A. alata (Digenea: Diplostomidae).

Retrospective survey of endoparasitism identified in feces of client-owned dogs in North America from 2007 through 2018

Our main study objective was to determine the prevalence and trend of parasitic infection in client-owned dogs examined at the veterinary parasitology diagnostic laboratory of Oklahoma State University over the past 12 years. All results of centrifugal flotation, saline direct smear, sedimentation, Baermann, acid-fast staining for Cryptosporidium detection, and Giardia antigen examinations on fecal samples from client-owned dogs submitted to the Boren Veterinary Medical Hospital and Oklahoma Animal Disease Diagnostic Laboratory of Oklahoma State University from 2007 through 2018 were included. The impact of sex, age, and seasonality on the prevalence of parasitic infection was also statistically evaluated. A total of 7,409 cases were included for this study. Majority of cases (79.58%; 5,896/7,409) did not include any parasites, eggs, larva, oocysts, or cysts. Approximately 15.41% (1,142/7,409) of client-owned dogs were infected by at least one parasite, and 5.01% (371/7,409) of dogs were infected by multiple parasites. The most common parasite stage observed was Ancylostoma eggs (8.23%; 610/7,409), followed by Cystoisospora oocysts (5.02%; 372/7,409), Giardia cysts/antigen (4.06%; 301/7,409), Trichuris vulpis eggs (2.74%; 203/7,409), Toxocara canis eggs (2.54%; 188/7,409), Dipylidium caninum proglottids/egg packets (0.84%; 62/7,409), taeniid proglottids/eggs (0.47%; 35/7,409), Sarcocystis sporocysts (0.38%; 28/7,409), Cryptosporidium oocysts (0.30%; 22/7,409), Strongyloides stercoralis larvae (0.20%; 15/7,409), Alaria eggs (0.19%; 14/7,409), Toxascaris leonina eggs (0.18%; 13/7,409), Capillaria eggs (0.16%; 12/7,409), Hammondia-like small coccidian oocysts (0.16%; 12/7,409), Uncinaria stenocephala eggs (0.13%; 10/7,409), Spirometra eggs (0.09%; 7/7,409), Physaloptera eggs (0.09%; 7/7,409), Heterobilharzia americana eggs (0.08%; 6/7,409), Nanophyetus salmincola eggs (0.08%; 6/7,409), trichomonads (0.08%; 6/7,409), Mesocestoides proglottids/eggs (0.05%; 4/7,409), Baylisascaris eggs (0.01%; 1/7,409), Macracanthorhynchus eggs (0.01%; 1/7,409), and Paragonimus kellicotti eggs (0.01%; 1/7,409). In addition to endoparasites, some ectoparasites, such as Demodex mites (0.22%; 16/7,409), Otodectes cynotis mites (0.01%; 1/7,409), Rhipicephalus sanguineus ticks (0.01%; 1/7,409), and Sarcoptes scabiei mites (0.01%; 1/7,409), were detected by fecal examinations. Pseudo/spurious parasites were identified in approximately 4.35% of cases (322/7,409). There was no statistically significant difference for parasite prevalence between sexes (p = 0.3231). However, statistically significant differences were observed with certain parasites when compared by age groups, and generally, prevalence of parasitism decreased as age of client-owned dogs increased (p < 0.0001). Statistical analyses also revealed significant differences by months (p = 0.0013). Overall, the prevalence of parasitic infection in client-owned dogs decreased over the past 12 years (p < 0.0001).

Prevalence of intestinal parasites in fecal samples and estimation of parasite contamination from dog parks in central Oklahoma

Domestic dogs commonly harbor intestinal parasites in Oklahoma and throughout the world. We tested fecal samples from dog parks to determine the prevalence of intestinal parasites and reported use of parasite control in park-attending dogs and assess potential health risks posed by fecal contamination of public dog parks in this region. Fecal samples (n = 359) were collected from five public access dog parks in central Oklahoma from February to July 2019. Fecal samples were collected immediately after defecation with a corresponding canine lifestyle questionnaire completed by the owner (n = 134) or collected from the ground from unknown animals to assess potential parasitic contamination of the parks (n = 225). Sugar centrifugal flotation and saline sedimentation were performed on all samples for parasite diagnosis. Group comparisons were conducted using the Χ² test and 95% binominal confidence intervals were calculated for each proportion. One or more parasites were identified in 24.0% (86/359) of samples, including 38/134 (28.4%) fresh samples and 48/225 (21.3%) environmental samples; 6.1% were co-infected. Parasites detected included Ancylostoma spp. (14.5%), Trichuris vulpis (6.7%), Cystoisospora spp. (3.6%), Sarcocystis spp. (1.7%), and Giardia duodenalis (1.4%). A small number of samples had Cryptosporidium spp., Toxocara canis, Alaria sp., Taeniidae eggs, or Heterobilharzia americana. Owners reported 73.1% (98/134) of dogs were maintained on heartworm preventive. Intestinal nematodes, but not all parasites, were significantly less commonly detected in dogs reportedly on heartworm preventive (11.2%) compared to dogs not on heartworm preventive (27.8%; P = .0194). These data suggest dogs and people visiting dog parks are at risk of parasite exposure and that an owner-reported history of heartworm preventive use is associated with decreased prevalence of intestinal nematodes.

Retrospective survey of parasitism identified in feces of client-owned cats in North America from 2007 through 2018

Ownership of domestic cats in North America has been on the increase; however, there are only a few surveys conducted on the prevalence of parasitism in client-owned cats over years. Our study objective was to evaluate parasite prevalence through statistical analysis of fecal examination results for client-owned cats on samples submitted to the veterinary parasitology diagnostic laboratory of Oklahoma State University over a 12-year period. All results of centrifugal flotation, saline direct smear, sedimentation, and Baermann examinations on fecal samples submitted to the Boren Veterinary Medical Hospital and Oklahoma Animal Disease Diagnostic Laboratory of Oklahoma State University from 2007 through 2018 were included. The impacts of sex, age, and seasonality on the prevalence of infection were also analyzed. A total of 2586 client-owned cat cases were included for this study. Parasites, eggs, oocysts, larvae, or cysts were not detected in the majority of cases (75.5%; 1,953/2586). Approximately 18.8% (485/2586) of client-owned cats were infected by one parasite, and 5.7% (148/2586) of cats were infected by multiple parasites. The most common parasite stage observed was Cystoisospora oocysts (9.4%; 243/2586), followed by Toxocara cati eggs (7.8%; 202/2586), Giardia cysts (4.0%; 104/2586), Alaria eggs (3.5%; 91/2586), Ancylostoma eggs (1.2%; 32/2586), taeniid proglottids/eggs (1.2%; 30/2586), Dipylidium caninum proglottids/egg packets (1.1 %; 29/2586), and Eucoleus aerophilus eggs (0.7%; 18/2586). Less commonly, Physalopetra eggs (0.19%; 5/2586), Toxascaris leonina eggs (0.19%; 5/2586), Tritrichomonas blagburni trophozoites (0.15%; 4/2586), Ollulanus tricuspis larvae/adults (0.12%; 3/2586), Platynosomum fastosum eggs (0.12%; 3/2586), Aelurostrongylus abstrusus larvae (0.08%; 2/2323), Sarcocystis sporocysts (0.08%; 2/2586), Spirometra eggs (0.08%; 2/2586), Mesocestoides proglottids/eggs (0.08%; 2/2586), Trichuris felis eggs (0.08%; 2/2586), Cryptosporidium oocysts (0.04%; 1/2586), and Toxoplasma-like small coccidian oocysts (0.04%; 1/2586) were detected. Additionally, fecal examinations revealed some ectoparasites: Demodex mites (0.9%; 24/2586), Cheyletiella mites (0.15%; 4/2586), and Otodectes cynotis mites (0.04%; 1/2586). There was no statistical significance between different sex groups (p = 0.3316). Age affected the prevalence of Cystoisospora, T. cati, Giardia, and Alaria infections with prevalence decreasing as age increased (p < 0.0001). Statistical analyses also revealed significant differences by months; the higher prevalence of infection occurred from summer through fall (p = 0.0004). Overall, as the number of submittals increased, the prevalence of infection increased over the last 12 years (p < 0.0001). This study supports continuing the current practice of routine broad-spectrum anthelmintic and ectoparasitic treatments for client-owned cats as well as annual/biannual fecal examination.

Fecal survey of parasites in free-roaming cats in northcentral Oklahoma, United States

Cats can be infected by various intestinal parasites, some that are zoonotic. Although surveys of parasite prevalence in owned and shelter cats have been published, none addressed free-roaming, wild-trapped, domestic cat (Felis catus) populations. An opportunity to determine the prevalence of intestinal parasites in wild-trapped, free-roaming cats in northcentral Oklahoma, United States occurred through a trap-neuter-return (TNR) program conducted at Oklahoma State University, Boren Veterinary Medical Hospital, between February 2015 and April 2016. Approximately 1 g to 5 g of feces was collected from 846 free-roaming cats either from cage traps, when available, or rectally using disposable fecal loops and examined by centrifugal fecal flotation tests with 33% zinc sulfate solution. Parasite infections were confirmed by microscopic detection of eggs, cysts, or oocysts and visual detection of proglottids. Approximately 63.9% (541/846) of free-roaming cats were infected by at least one parasite, and 24.9% (211/846) of cats were infected by multiple parasites. The most common intestinal parasite infections detected were: Toxocara cati (44.6%; 377/846), followed by Alaria (13.4%; 113/846), Ancylostoma (11.2%; 95/846), Cystoisospora (9.7%; 82/846), taeniids (7.7%; 65/846), Dipylidium caninum (4.5%; 38/846), Physaloptera (2.2%; 19/846), Eucoleus aerophilus (1.4%; 12/846), Giardia (1.2%; 10/846), and a small (10-12 μm in diameter) Toxoplasma-like oocyst (0.1%; 1/846). A few ectoparasites, Demodex gatoi (0.5%; 4/846) and Cheyletiella (0.1%; 1/846), were also detected by fecal flotation. Our findings indicate that a higher prevalence of parasite infections occurs in free-roaming cats in Oklahoma than in owned cats, and these free-roaming cats contribute to contamination of the environment with several zoonotic parasites. Regional data on the prevalence of parasites in free-roaming cats can aid in the justification for parasite control programs in owned cats since both can share the same environment and supports the current practice of routine broad-spectrum anthelmintic and ectoparasite treatments for owned cats.