Leptospira is the causative agent of leptospirosis, a globally emerging zoonotic disease. The infection is commonly acquired through contact with the contaminated environment. To extend the knowledge on environmental source of leptospirosis, we investigated the presence of Leptospira in an elephant camp setting where the interaction between humans, animals, and the shared environment occur particularly when engaging in recreational activities. In this study, a total of 24 environmental samples were collected from an elephant camp area in western Thailand. All samples were processed for Leptospira isolation using the EMJH medium. The identification of Leptospira species was carried out by partial 16S rRNA and secY gene sequencing. Of those 24 samples, 18 samples (75%) were culture-positive for Leptospira. The recovered leptospires were mostly derived from water and soil sampled from a river and a mud pond, the main areas for recreational activities. The majority of the isolates were classified into “Pathogens” clade (89%, 16/18) and more than half of the isolates (61%, 11/18) contained species of the “Saprophytes” clade. Notably, two soil isolates from the river beach sampling area were found to contain leptospiral DNA with high similarity to the pathogenic L. interrogans and L. santarosai. The evidence of diverse Leptospira species, particularly those belonging to the “Pathogens” clade, suggest that the shared environments of an elephant camp can serve as potential infection source and may pose a risk to the elephant camp tourists and workers.
Every year, ten thousand Sunda Pangolins (Manis javanica) are rescued and confiscated from the illegal trade around Southeast Asia, including Thailand. Most of them are usually moribund and need intensive veterinary interventions to recover their health before being released to the wild. However, a lack of reliable haematology and clinical biochemistry references for Thai confiscated Sunda pangolins is a major difficulty for reaching this goal. The aim of this study was to establish a standard panel of haematology and serum biochemistry profiles used for confiscated pangolins in Thailand. Coccygeal venepuncture of 52 confiscated pangolins was performed. Haematology and serum biochemistry data acquisitions were made using automated blood analysers. The lower and upper limits at 90% confidence interval were calculated. The means of all parameters were calculated and then compared with those in two previous studies (p < 0.005). Blood corpuscle morphometry was done manually. All blood corpuscles in females were bigger than males. There were differences of haematologic and biochemical parameters among this study and previous studies in some aspects. Wide scientific discussion was made to explain these variations. A panel of haematology and serum biochemistry profiles for Thai confiscated Sunda pangolin has been established. Veterinarians can refer to all parameters to evaluate the animals’ health and diseases.
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