Laryngeal rhinosporidiosis in a Belgian warmblood horse

Equine rhinosporidiosis in Buenos Aires, Argentina

Rhinosporidiosis is caused by Rhinosporidium seeberi, a parasitic organism of the family Rhinosporideacea family, class Micomycetozoa. The disease is endemic in India; however, some cases were reported in Europe, Africa, North America, and South America. The aim of the present study is to report three cases of rhinosporidiosis in wild horses in different cities of Buenos Aires province, Argentina. We confirm the presence of R. seeberi in the analyzed samples using histopathological and PCR sequencing techniques.

Rhinosporidiosis in horses

ABSTRACT: Rhinosporidiosis is a disease caused by Rhinosporidium seeberi, an aquatic protist of the class Mesomycetozoa. It primarily affects the nasal mucosa and transmission is associated with contaminated water contact. This report describes seven cases of rhinosporidiosis in horses in Rio Grande do Sul covering the period of 13 years. The disease predominantly affected Crioulo and thoroughbred horses. No apparent gender predisposition occurs, and age ranged from two to 25 years, with a median of 10 years. The gross aspects were characterized by unilateral (85.7%, 6/7) or bilateral (14.3%, 1/7) polyps. These were soft to friable, whitish to pink, cauliflower-like, with an irregular, sometimes ulcerated surface, measuring 2.5 to 6.0cm in diameter. There was a severe inflammatory infiltrate of the submucosa was observed, associated with moderate proliferation of the epithelium, and numerous rounded structures were identified compatible with sporangia of R. seeberi. Rhinosporidiosis should be included in the differential diagnosis of other conditions affecting the respiratory tract of horses, and it is important to perform histopathology for diagnosis.

Adenocarcinoma involving the tongue and the epiglottis in a horse

Tumors involving the oral cavity of the horse are uncommon. No cases of equine adenocarcinoma on the dorsum of the tongue have been reported in the literature. We report a case of adenocarcinoma located on the dorsum of the posterior one-third of the tongue in a 29-year-old gelding with severe dysphagia. Endoscopy revealed an epiglottis involvement, and histology was consistent with adenocarcinoma arising from minor salivary glands, which was associated with a severe fungal colonization of affected tissues. The goals of this report are to present an uncommon case of dorsum of the tongue-associated neoplasia and to highlight the association with atypical fungal colonization, to review the literature and to discuss possible clinical approach and prognosis.

The regional sero-epidemiology of rhinosporidiosis in Sri Lankan humans and animals

No data is available in the world literature on serum anti-rhinosporidial antibody levels in animals, and as far as we aware this is the first report. Although rhinosporidiosis in farm and domestic animals has been widely reported from other countries, rhinosporidiosis in animals has not been reported in Sri Lanka, though this country has the highest world-wide prevalence of human rhinosporidiosis on a unit-population basis. Serum IgG titres in 6 species of Sri Lankan animals (buffalo, cat, cattle, dog, goat, horse; total 291) were assayed by the Immuno blot (dot-ELISA) method on nitrocellulose paper and were compared with serum IgG titres in normal Sri Lankan human subjects (total 211) in different geographical areas, and in human Sri Lankan patients with rhinosporidiosis as reference values (total 36). Sensitization to rhinosporidial antigen(s) was detected in all 6 species of animals and the highest titres (1/3200) were found in cats, and free-grazing horses. Cattle showed higher levels of antibody than buffaloes. The titres in these animals are compared with world reports on overt rhinosporidiosis in these species, and with titres in normal Sri Lankan humans. Human, but not animal titres showed variations compatible with the regional prevalence of rhinosporidiosis. The variations in titres in animals especially horses, were probably more related to their mode of feeding, while in humans the titres in normal persons were probably related to the rhinosporidial-endemicity of their respective regions. No conclusions from sero-positivity in animals could be made regarding the absence of reports on rhinosporidiosis as an overt disease in these Sri Lankan animal species but the possibility of a genetically-determined insusceptibility to rhinosporidiosis in Sri Lanka, is considered. Rhinosporidium seeberi-specific PCR positive reactions were obtained with nasal scrapings from cattle that microscopically showed PAS+ bodies that were compatible with rhinosporidial sporangia. Sequence-analysis of the reactions products from five positive R. seeberi-specific PCR samples (four in this study and 1 in a previous study) gave results confirmatory of R. seeberi.