Otitis externa (OE) is a condition that involves inflammation of the external ear canal. OE is a commonly reported condition in humans and some veterinary species (for example, dogs, cats), but has not been reported in the literature in macaques. Here, we present a case series of acute and chronic OE likely precipitated by abrasion of the ear canal with a tympanic membrane electrode in 7 adult male rhesus macaques (Macaca mulatta). All animals displayed purulent, mucinous discharge from 1 or both ears with 3 macaques also displaying signs of an upper respiratory tract (URT) infection during the same period. A variety of diagnostic and treatment options were pursued including consultation with an otolaryngologist necessitated by the differences in response to treatment in macaques as compared with other common veterinary species. Due to the nature of the studies in which these macaques were enrolled, standard audiological testing was performed before and after OE, including tympanometry, auditory brainstem responses (ABRs), and distortion product otoacoustic emissions (DPOAEs). After completion of study procedures, relevant tissues were collected for necropsy and histopathology. Impaired hearing was found in all macaques even after apparent resolution of OE signs. Necropsy findings included abnormalities in the tympanic membrane, ossicular chain, and middle ear cavity, suggesting that the hearing impairment was at least partly conductive in nature. We concluded that OE likely resulted from mechanical disruption of the epithelial lining of the ear canal by the ABR electrode, thereby allowing the development of opportunistic infections. OE, while uncommon in macaques, can affect them and should be included as a differential diagnosis of any macaque presenting with otic discharge and/or auricular discomfort.
Decompensated right ventricular failure (RVF) in patients with pulmonary hypertension (PH) is fatal, with limited treatment options. Novel mechanical circulatory support systems have therapeutic potential for RVF, but the development of these devices requires a large animal disease model that replicates the pathophysiology observed in humans. We previously reported an effective disease model of PH in sheep through ligation of the left pulmonary artery (PA) and progressive occlusion of the main PA. Herein, we report a case of acute decompensation with this model of chronic RVF. Gradual PA banding raised the RV pressure (maximum RV systolic/mean pressure = 95 mmHg/56 mmHg). Clinical findings and laboratory serum parameters suggested appropriate physiologic compensation for 7 weeks. However, mixed venous saturation declined precipitously on week 7, and creatinine increased markedly on week 9. By the 10th week, the animal developed dependent, subcutaneous edema. Subsequently, the animal expired during the induction of general anesthesia. Post-mortem evaluation revealed several liters of pleural effusion and ascites, RV dilatation, eccentric RV hypertrophy, and myocardial fibrosis. The presented case supports this model's relevance to the human pathophysiology of RVF secondary to PH and its value in the development of novel devices, therapeutics, and interventions.
Teaching through the use of animals is an integral part of veterinary education. In addition to interactions with privately owned animals, veterinary students often learn using cadavers and institutionally owned animals. Veterinary students also frequently participate in research involving animals. Animal-based research is essential for the development of therapies and techniques that improve the lives of both animals and people. To investigate the perceptions of veterinary students at the North Carolina State University, College of Veterinary Medicine (NCSU-CVM) toward the use of animals in teaching and research, an anonymous survey was provided to current and recently graduated veterinary students. The aims of the study were to 1) gain a general understanding of veterinary student perceptions surrounding the use of animals in research and teaching, 2) determine if providing simple facts about the contributions of animals to medical advancements would increase the acceptance of animal use for teaching and research, and 3) determine if general perceptions regarding the use of animals in teaching and research change over the course of completing the veterinary curriculum. Descriptive statistics and frequency distributions were calculated for applicable response types. χ2 tests were used to identify factors that influenced perceptions of the use of animals in teaching and research. A change-indicator variable was created, and binary logistic regression was used to compare responses before and after completion of the educational component of the survey. Of 141 total survey respondents, 78% were accepting of the use of animals in teaching and research, with no significant difference in the overall acceptance after reading 6 facts about animal research. In addition, 24% of respondents stated that their perceptions had changed during the course of their veterinary education. Overall, veterinary students surveyed had a high acceptance of the use of animals in teaching and research.
The Northern greater galago (Otolemur garnettii) is a prosimian primate most commonly used to study the evolutionary development of vision and somatosensation. This study aimed to investigate the efficacy and cardiopulmonary effects of 3 sedation protocols commonly used in other primate species: 1) alfaxalone (Alf; 8 mg/kg IM) 2) ketamine alone (Ket; 20 mg/kg IM) and 3) ketamine + dexmedetomidine (Ket+Dex; 4 mg/kg + 25 μg/kg IM) with reversal (atipamezole; 250 μg/kg IM). A total of 34 animals were evaluated, including 11 juveniles and 23 adults. Cardiopulmonary parameters such as indirectblood pressure, heart rate, respiratory rate, and SpO2 were measured, and blood was collected for blood gas analysis and a chemistry panel. To examine the efficacy of each sedation protocol, induction time, immobilization time, and recovery time were recorded. Subjective measures of quality and efficacy included quality of induction, pedal withdrawal reflex, palpebral reflex, muscle tension, rectal temperature, and quality of recovery. All 3 protocols successfully immobilized the animals and all animals recovered from sedation. Heart rates were highest among the Ket group and the lowest for the Ket+Dex group. On average, the Alf group was immobilized for twice as long as either the Ket or Ket+Dex groups. The Ket+Dex group had the fastest average recovery time and subjectively had the best quality of recovery. Based on these results, Ket+Dex is recommended over Alf or Ket alone for brief sedation of healthy galagos.
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