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- Author or Editor: Elizabeth Howerth x
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Abstract
OBJECTIVE
To determine whether an enrofloxacin–silver sulfadiazine emulsion (ESS) labeled for treatment of otitis externa in dogs has ototoxic effects in rabbits following myringotomy.
ANIMALS
6 healthy adult New Zealand White rabbits.
PROCEDURES
Rabbits were anesthetized for brainstem auditory-evoked response (BAER) tests on day 0. Myringotomy was performed, and BAER testing was repeated. Saline (0.9% NaCl) solution and ESS were then instilled in the left and right middle ears, respectively, and BAER testing was repeated prior to recovery of rabbits from anesthesia. Application of assigned treatments was continued every 12 hours for 7 days, and rabbits were anesthetized for BAER testing on day 8. Rabbits were euthanized, and samples were collected for histologic (6 ears/treatment) and scanning electron microscopic (1 ear/treatment) examination.
RESULTS
Most hearing thresholds (11/12 ears) were subjectively increased after myringotomy, with BAER measurements ranging from 30 to 85 dB in both ears. All day 8 hearing thresholds exceeded baseline (premyringotomy) values; results ranged from 30 to 85 dB and 80 to > 95 dB (the upper test limit) in saline solution–treated and ESS-treated ears, respectively. All ESS-treated ears had heterophilic otitis externa, epithelial hyperplasia of the external ear canal, various degrees of mucoperiosteal edema, and periosteal new bone formation on histologic examination. Scanning electron microscopy revealed that most outer hair cells in the ESS-treated ear lacked stereocilia or were absent.
CONCLUSIONS AND CLINICAL RELEVANCE
Results supported that ESS has ototoxic effects in the middle ear of rabbits. Further research is needed to confirm these findings. Myringotomized laboratory rabbits may be useful to study ototoxicity of drugs used in human medicine.
Abstract
Case Description—A 10-month-old Boxer was evaluated for fever and signs of cervical pain.
Clinical Findings—Physical examination revealed lethargy, fever, and mucopurulent ocular and preputial discharge. On neurologic examination, the gait was characterized by a short stride. The dog kept its head flexed and resisted movement of the neck, consistent with cervical pain. Clinicopathologic findings included neutrophilic leukocytosis, a left shift, and monocytosis. Cervical radiographs were unremarkable. Cerebrospinal fluid analysis revealed neutrophilic pleocytosis and high total protein content. On the basis of signalment, history, and clinicopathologic data, a diagnosis of steroid-responsive meningitis-arteritis was made.
Treatment and Outcome—The dog was treated with prednisone (3.2 mg/kg [1.45 mg/lb], PO, q 24 h), for 3 weeks with limited response. Consequently, azathioprine (2 mg/kg [0.9 mg/lb], PO, q 24 h) was administered. Three weeks later, the dog was evaluated for tachypnea and lethargy. Complete blood count revealed leukopenia, neutropenia, and a left shift. Thoracic radiography revealed a diffuse bronchointerstitial pattern. The dog subsequently went into respiratory arrest and died. On histologic evaluation, amoebic organisms were observed in the lungs, kidneys, and meninges of the brain and spinal cord. A unique Acanthamoeba sp was identified by use of PCR assay.
Clinical Relevance—This dog developed systemic amoebic infection presumed to be secondary to immunosuppression. The development of secondary infection should be considered in animals undergoing immunosuppression for immune-mediated disease that develop clinical signs unrelated to the primary disease. Although uncommon, amoebic infection may develop in immunosuppressed animals. Use of a PCR assay for identification of Acanthamoeba spp may provide an antemortem diagnosis.
