Baseline urinalysis values in common bottlenose dolphins under human care in the Caribbean.
Natalia Jiménez-ZucchetTamara Alejandro-ZayasChristian A Alvarado-MacedoMaría Renée Arreola-IllescasLissette Benítez-AraizaLilian Bustamante-TelloDanilo Cruz-MartínesNayeli Falcón-RoblesLuz Garduño-GonzálezMaría Concepción López-RomahnAna Michelle Martínez-TaylorAdriana Mingramm-MurilloCarlos OrtízAntonio L Rivera-GuzmánRocío Sabater-DuránAngélica Sánchez-JiménezRoberto Sánchez-OkruckyLydia StaggsRaúl Torres-SalcedoMaría Vences-FernándezBert Rivera-MarchandAntonio A Mignucci-GiannoniPublished in: Journal of veterinary diagnostic investigation : official publication of the American Association of Veterinary Laboratory Diagnosticians, Inc (2019)
Urinalysis is a rapid, simple, inexpensive, and reliable test that documents urine abnormalities reflecting various types of renal, hormonal, or metabolic diseases. Urinalysis could assist proper monitoring of the health of dolphins under human care; however, normal baseline values for dolphin urinalysis have not been reported, to our knowledge. We sampled urine from 193 common bottlenose dolphins ( Tursiops truncatus), living under human care in 24 Caribbean dolphinariums, by voluntary free-catch and analyzed the urine for chemical and microscopic variables using multi-agent dry reagent chemistry dipstick test strips, dedicated pH reagent strips, and unstained sediment slides. Most urine was clear, pale yellow to dark yellow, and had a fishy odor. Dipstick glucose, bilirubin, ketones, and nitrites were negative in all dolphins. The urine pH was acidic ( x¯ ± SD; 5.88 ± 0.58) and specific gravity (SG) was 1.035 ± 0.008. Most animals had 0-2 red blood cells and white blood cells per 40× field, and were negative for proteins. On microscopic sediment, 42.7% of samples had few-to-many squamous epithelial cells; hyaline and epithelial casts were observed only rarely. Crystals were observed in 36.6% of the samples; most were calcium oxalate dihydrate (48.2%) and amorphous urates (42.4%). The values obtained in our study can be used as a reference for health monitoring of dolphins in dolphinariums, and to monitor renal conditions and function in dolphins being rehabilitated or under human care.
Keyphrases
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