Toxoplasmosis is a well-described disease entity that causes significant morbidity and mortality in both captive and free-ranging macropodids. The clinical presentation of toxoplasmosis in macropodids is variable, which reflects the multiple body systems affected by this disease. Animals may die without exhibiting premonitory signs or after the acute development of nonspecific signs of illness. In more chronic cases, clinical signs include neurologic deficits, blindness, respiratory signs, and, in some cases, diarrhea. Histologic lesions can be extensive and affect the pulmonary parenchyma, cardiac and skeletal muscle, lymph nodes, spleen, gastrointestinal tract, adrenal glands, pancreas, central nervous system, liver, and kidney. An antemortem diagnosis can be challenging, although a range of serologic tests are available. Treatment is frequently unrewarding, although recent evidence suggests that the anti-protozoal drug atovaquone may be effective in treating acute cases and eliminating infection. Attempts to vaccinate macropodids against toxoplasmosis have been unsuccessful, and preventive measures are limited to preventing exposure to sporulated oocysts in the environment.

Antibiotic resistance in bacteria is a growing problem in both human and veterinary medicine. Several studies documented the presence of resistant bacteria in humans, livestock, and domestic animals; however, limited research is available on the presence of antibiotic drug resistance in wildlife species. A cross-sectional study was conducted to estimate the prevalence of resistant bacteria collected from wild-caught, marine predatory fishes. Seven species of sharks and a single teleost species were opportunistically sampled from six different study sites in coastal Belize, coastal and nearshore waters of Louisiana, the Florida Keys, and Martha's Vineyard, Massachusetts. A total of 134 viable bacteria samples were isolated from the cloacal swabs of predatory fishes. Isolates were characterized by Gram-stain morphology and tested for resistance by using the Kirby-Bauer disc diffusion method. Thirteen drugs (penicillin G, piperacillin, ticarcillin, cefotaxime, ceftazidime, ceftiofur, amikacin, gentamicin, ciprofloxacin, enrofloxacin, doxycycline, chloramphenicol, and sulfamethoxazole) were selected for this study. Prevalence was calculated as the total number of isolates resistant to one or more drugs against the total number of samples in that study area or fish population. Sharks sampled in the Florida Keys exhibited the greatest resistance to a wide selection of drugs. Resistance to at least one drug was found in each of the six study sites and in all of the fish species sampled. Multidrug resistance was also documented in most of the study sites. Interspecific comparisons between redfish, Sciaenops ocellata, and sharks from Louisiana offshore waters (which represent species of the Carcharhinus genus) demonstrated a significantly higher prevalence in redfish, which may be because of the older age of the population. The findings of this study confirmed the presence of antibiotic-resistant bacteria in marine predatory fishes from multiple taxa and multiple geographic locations.

Hematologic and plasma biochemistry parameters of the white stork (Ciconia ciconia) were studied. Blood samples were taken from a total of 80 adult white storks kept in captivity in Hungarian zoos and bird repatriation stations, between 2002 and 2006. Hematologic (packed cell volume, 46.3% ± 5.3%; hemoglobin concentration, 127.8 ± 20.4 g/L; red blood cell counts, 2.28 ± 0.35 10¹²/l/l; white blood cell counts, 21.6 ± 4.2 10⁹/l/l; heterophils, 61.0% ± 9.8% [13.1 ± 3.2 × 10⁹/L]; lymphocytes, 34.3% ± 9.1% [7.4 ± 2.5 × 10⁹/L]; monocytes, 3.44% ± 2.3% [0.78 ± 0.57 × 10⁹/L]; eosinophils 0.75% ± 0.91% [0.16 ± 0.21 × 10⁹/L]; basophils 0.38% ± 0.56% [0.04 ± 0.07 × 10⁹/L]) and plasma biochemistry values (aspartate aminotransferase, 267.5 ± 145.8 U/L; L-γ-glutamyltransferase, 47.6 ± 49.3 U/L; lipase, 70.3 ± 60.6 U/L; creatine kinase, 443.9 ± 182.2 U/L; lactate dehydrogenase, 880.4 ± 293.6 U/L; alkaline phosphatase, 177.5 ± 116.6 U/L; amylase, 917.6 ± 314.3 U/L; glutamate dehydrogenase, 7.3 ± 4.0 U/L; total protein, 45.2 ± 8.1 g/L; uric acid, 459.2 ± 254.3 µmol/L; and bile acids, 46.3 ± 20.5 µmol/L) were determined. The results obtained can be used as reference values, because there are no established values previously reported for adult white storks.

Ulcerative oral and skin lesions have become an issue of concern for the health of the managed black rhinoceros (rhino) (Diceros bicornis) populations. Lesions exhibited by the black rhino are clinically similar to those observed in other species with superficial necrolytic dermatitis (SND). One biochemical alteration in dogs with SND is severe hypoaminoacidemia, and nearly all cases are fatal. The objective of this study was to determine if black rhinos with analogous lesions exhibit a similar hypoaminoacidemia. Amino acid concentrations were measured in monthly plasma samples collected for 1 yr from black rhinos with (n  =  4) and without (n  =  34) lesions clinically consistent with SND. The rhinos with skin and/or oral lesions were zoo born males, ages 2, 6, 17, and 23 yr, from four different facilities. Three rhinos recovered from skin (n  =  2) and oral lesions (n  =  1). However, the one male with both skin and oral lesions died with the disease. None of the affected black rhinos exhibited a decrease in any of the amino acids evaluated or for total amino acid concentrations (P > 0.05). Based on the absence of hypoaminoacidemia and the comparatively low mortality rate in rhinos with lesions, it appears that this syndrome is not entirely consistent with SND observed in other species. These data will be useful for future assessments of rhino nutritional status and other potential metabolic diseases.

Thirty-two free-ranging red foxes (Vulpes vulpes) were immobilized with one of three combinations: medetomidine (0.076 ± 0.017 mg/kg) and ketamine (2.1 ± 0.5 mg/kg; MK, n  =  16), medetomidine (0.057 ± 0.008 mg/kg) and low-dose midazolam (0.6 ± 0.1 mg/kg; MM-0.5, n  =  10), or medetomidine (0.067 ± 0.012 mg/kg) and high-dose midazolam (1.3 ± 0.2 mg/kg; MM-1, n  =  6) by i.m. injection. Induction and recovery times were recorded. Pulse, respiratory rate, body temperature, systolic and diastolic blood pressure, and oxygen saturation were measured. Anesthesia depth indicators were observed. There was a significant difference between the MM-0.5 and the MM-1 groups regarding induction time, 8.1 ± 2.1 min and 5.0 ± 1.7 min, respectively. The MK induction time was 6.9 ± 2.5 min, which was not significantly different from the other two groups. All combinations provided effective immobilization for at least 20–25 min. During immobilization, there were significant differences regarding rectal temperature, which was higher in the MK group; and blood pressure, which was higher in the MM-1 group. After administration of atipamezole at 5 mg per 1 mg medetomidine given, there was a significant difference between the groups in recovery time; MK foxes were standing within 3.9 ± 1.7 min, MM-0.5 foxes within 10.6 ± 4.5 min, and MM-1 foxes within 10.2 ± 3.4 min. None of the combinations caused rough or prolonged recoveries. Subjectively, the MM groups had smoother and less ataxic recoveries than the MK group. In conclusion, the authors recommend the use of medetomidine at 0.07 mg/kg in combination with midazolam at 0.8 mg/kg or ketamine at 2 mg/kg for the immobilization of free-ranging red foxes. During immobilization, monitoring of body temperature and oxygenation is recommended.

In humans, fetal echocardiography represents the most important tool for the assessment of the cardiovascular well-being of the fetus. However, because of logistic, anatomic, and behavioral challenges, detailed fetal echocardiographic evaluation of marine mammals has not been previously described. Because the application of fetal echocardiography to cetaceans could have both clinical and academic importance, an approach to evaluating the fetal dolphin's cardiovascular status was developed with conventional, fetal echocardiographic techniques developed in humans. Eight singleton fetal bottlenose dolphins (Tursiops truncatus) were evaluated, each between 6 and 11 mo gestation; six fetuses underwent two fetal echocardiographic evaluations each, four at 3-mo intervals, and two at 0.5-mo intervals. Evaluations were performed without sedation, using conventional, portable ultrasound systems. Multiple transducers, probes, and maternal dolphin positions were used to optimize image quality. Fetal echocardiography included two-dimensional imaging and color flow mapping of the heart and great arteries, as well as pulsed Doppler evaluation of the umbilical artery and vein. Thorough evaluations of the fetal dolphins' cardiovascular status were performed, with the greatest resolution between 8 and 9 mo gestation. With the use of published human fetal echocardiographic findings for comparison, fetal echocardiography demonstrated normal structure and function of the heart and great arteries, including the pulmonary veins, inferior vena cava, right and left atria, foramen ovale, tricuspid and mitral valves, right and left ventricles, ventricular septum, pulmonary and aortic valves, main pulmonary artery and ascending aorta, and ductus arteriosus. Pulsed Doppler techniques demonstrated normal umbilical arterial and venous waveforms, and color flow mapping demonstrated absence of significant valvar regurgitation. Fetal echocardiography, particularly between 8 and 9 mo gestation, can provide a safe and detailed assessment of the cardiovascular status of the fetal bottlenose dolphin.

Foot lesions can compromise the health and welfare of captive birds. In this study, we estimated the prevalence of foot lesions in captive flamingos (Phoenicopteridae). The study was based on photos of 1,495 pairs of foot soles from 854 flamingos in 18 European and two Texan (USA) zoological collections. Methodology for evaluating flamingo feet lesions was developed for this project because no suitable method had been reported in the literature. Four types of foot lesions were identified: hyperkeratoses, fissures, nodular lesions, and papillomatous growths. Seven areas on each foot received a severity score from 0 to 2 for each type of lesion (0  =  no lesion, 1 =  mild to moderate lesion, 2  =  severe lesion). The prevalence of birds with lesions (scores 1 or 2) were 100%, 87%, 17%, and 46% for hyperkeratosis, fissures, nodular lesions, and papillomatous growths, respectively. Birds with severe lesions (score 2) constituted 67%, 46%, 4%, and 12% for hyperkeratosis, fissures, nodular lesions, and papillomatous growths, respectively. Hyperkeratosis and nodular lesions were most prevalent on the base of the foot and the proximal portion of the digits, likely reflecting those areas bearing the most weight. The second and fourth digits were most affected with fissures and papillomatous lesions; these areas of the foot appear to be where the most flexion occurs during ambulation. The study demonstrates that foot lesions are highly prevalent and widely distributed in the study population, indicating that they are an extensive problem in captive flamingos.

Seventeen adult chimpanzees (Pan troglodytes) with an average age of 37 yr were immobilized with a combination of tiletamine-zolazepam (TZ) and medetomidine (MED) by one of two modes of delivery. Group A animals received the drug combination intramuscularly at 3 mg/kg and 0.05 mg/kg, respectively. Animals in group B received MED by oral transmucosal administration, meaning oral delivery with presumptive transmucosal absorption. MED at 0.1 mg/kg was mixed with marshmallow crème, and delivery was followed by 3 mg/kg of TZ intramuscularly. Chimpanzees from both groups were recovered after administration of atipamezole at 0.3 mg/kg intramuscularly. All chimpanzees were compliant with oral transmucosal drug administration, although two chimpanzees preferred oral MED mixed with applesauce. All animals exhibited some anxiety and excitatory behavior associated with darting, but this was reduced in group B, which was premedicated with oral transmucosal MED. The mean time from TZ administration to sedation sufficient for human contact was 16.4 and 14.7 min with and without oral transmucosal premedication, respectively. The mean time for recovery for those chimpanzees given oral transmucosal premedication was 13.8 min, which was significantly shorter than the time of recovery for the group not given oral premedication (P  =  0.02). Oral transmucosal administration of MED provided light sedation in 16 of 17 chimpanzees to the level of arousable recumbency and a heavier sedation in one chimpanzee with no adverse side effects. TZ combined with MED by either oral transmucosal or injectable administration provided safe, heavy, long sedation with rapid, smooth, uneventful recoveries.

During serologic rabies surveys, bleeding is often difficult or almost impossible in small or endangered mammals such as bats. Therefore, the usefulness of an alternative, less invasive technique—that is, the use of blood-sucking reduviid bugs (Dipetalogaster maximus and Rhodnius prolixus)—was investigated. Bugs were used in combination with a conventional method (retro-orbitale bleeding) to obtain blood samples from the same individual NMRI-mice (Mus musculus) vaccinated against rabies. Rabies virus-neutralizing antibody (VNA) titers between paired blood samples obtained from the same mice were compared. The accuracy (between-method comparison), precision (repeatability of results), and robustness (influence of digestion on blood parameter) of the bug method was evaluated. VNA titers in the blood sample obtained from the bugs' crops were equivalent to those from samples collected directly from the mice. No differences between samples taken from different bugs that had fed on the same mouse were noted. In addition, there were no changes in VNA titers in blood samples collected from the triatomine bugs for up to 4 hr after completion of the blood meal. This study demonstrates that the application of blood-sucking bugs offers a validated alternative for obtaining blood samples to determine rabies virus–neutralizing antibody titers and is highly suitable for animals with limited or no accessibility of veins by conventional sampling techniques.

The biology and reproductive anatomy of male loggerhead sea turtles (Caretta caretta) have been difficult to study. The principle method for evaluation of the coelomic cavity in both adult and juvenile male sea turtles is celioscopy. The purpose of this study was to describe the technique and structures seen when scanning the inguinal region of live, wild-caught, adult male loggerhead sea turtles and to compare these findings to those resulting from celioscopy and necropsy. Twenty-one adult male loggerhead sea turtles were collected by trawling in the Cape Canaveral shipping channel in April 2007. All turtles were placed in dorsal recumbency and imaged with a Sonosite 180 Vet Plus (Sonosite, Inc., Bothell, Washington 98021, USA) and a microconvex, 4–7-MHz curvilinear array probe. The inguinal region was divided into four quadrants: cranial, lateral, medial, and caudal. Celioscopy was performed on 13 turtles, and biopsies were obtained of the testes and the epididymides to confirm correct identification of the structures. In the cranial aspect of the inguinal region, the urinary bladder and large and small intestines were identified. In the lateral inguinal region, the lung and kidney were seen. In the medial aspect of the inguinal region, the testis and epididymis were routinely identified. In the caudal aspect of the inguinal region, the coxofemoral joint was seen. A small learning curve was required; however, correlation with celioscopy and biopsy showed that consistent, repeatable identification of caudal coelomic structures was easily achieved. Ultrasound provided an inexpensive, rapid, noninvasive method to evaluate the reproductive anatomy of live-captured, male loggerhead sea turtles.

Pulmonary carcinoma was diagnosed in an 18 -year-old captive female great horned owl (Bubo virginianus). The owl presented with a history of progressive weakness and sudden onset of frank blood in the droppings. On physical examination, the owl had multiple white to yellow plaques in the oral cavity, decreased air sac sounds on the right side, dyspnea (during manual restraint), and reduced pectoral musculature. Whole-body radiographs revealed obliteration of the right-sided air sacs, a soft tissue plaque/density in the left caudal thoracic air sac, soft tissue opacity over the coelomic organs, and increased medullary opacity in the distal right humerus. The owl died during anesthetic recovery, and the body was submitted for necropsy. Although the clinical signs, physical examination results, radiographic signs, and gross pathology supported a diagnosis of mycotic infection, such as aspergillosis, histopathology confirmed pulmonary carcinoma with metastases to the air sacs and humerus.

Five cases of late-stage abortion in dama gazelle (Gazella dama) occurred in the United Arab Emirates. Histopathologic and molecular diagnostics found the abortions to be associated with Coxiella burnetii infection. Examination of the herd 6 mo later revealed a significant number of serologically positive animals but failed to detect the antigen in genital swabs. There are few reports in the literature of C. burnetii abortion in nondomestic ungulates and no published reports from the United Arab Emirates.

Hiatal hernia was diagnosed in three exotic felines—lynx (Lynx lynx), cougar (Puma concolore), and lion (Panthera leo). All cats had a history of anorexia. Thoracic and abdominal radiographs showed evidence of a soft tissue mass within the caudal mediastinum suggestive of a hiatal hernia in all animals. A barium esophagram was performed in one case. All animals underwent thoracic or abdominal surgery for hernia reduction. Surgical procedures included: intercostal thoracotomy with herniorrhaphy and esophagopexy (lynx and cougar), and incisional gastropexy (lion). Concurrent surgical procedures performed were gastrotomy for gastric foreign body removal and jejunostomy tube placement. Clinical signs related to the hiatal hernia disappeared after surgery and recurrence of signs was not reported for the time of follow-up.

Melanocytic neoplasms were diagnosed in a captive black rhinoceros (Diceros bicornis) and a captive Indian rhinoceros (Rhinoceros unicornis) from different facilities. The first case was a 10-yr-old, captive-born male black rhinoceros that presented with a small firm cutaneous mass on the dorsal midline. Aspirate cytology results were suggestive of a melanocytic neoplasm, and histologic examination of the excised mass confirmed a well-differentiated neoplasm with much pigment production, minimal anaplasia, and no mitotic figures. Several months after mass removal, a similar mass with identical histologic features was excised from the right medial thigh. The second case was a 28-yr-old, wild-born female Indian rhinoceros that presented with a draining wound at the coronary band of a rear digit. Histologic examination of a biopsy from this lesion revealed a melanocytic neoplasm with moderate cellular anaplasia, frequent mitoses, and scant pigment production. At necropsy, the tumor was found to ablate P3 and most deep tissues of the toe. No evidence of vascular invasion or metastasis was found. These two cases represent the only melanocytic neoplasms in Rhinoceridae reported in detail in the literature.

In April 2007, two newborn springboks (Antidorcas marsupialis) from a zoo of southern France were found dead. Necropsy was performed on the two animals and revealed arthrogryposis, mild facial structural abnormalities, and bilateral enlargement of the kidneys with concurrent hydronephrosis in both newborns. Histopathologically, extensive cytoplasmic vacuolation of neurons in the central nervous system, thyroid follicular epithelium, renal tubular epithelium, enterocytes, hepatocytes, and ruminal epithelial cells was the most remarkable lesion in both animals. By electron microscopy, the vacuoles were membrane bound and contained scattered membranous and granular material within a primarily electron-lucent background. Hence, a diagnosis of lysosomal storage disease was established, with gross, histological, and ultrastructural features suggestive of an inherited form of mannosidosis. This report documents the first case of lysosomal storage disease in springboks.

A 39-yr-old, acyclic, uniparous, female white rhinoceros with a history of recurrent vaginal bleeding was euthanized following a period of respiratory distress and ill-thrift. The rhinoceros' uterus had previously been evaluated by ultrasound and diffuse endometrial hyperplasia and two benign uterine leiomyomas had been diagnosed. At necropsy examination, a large, infiltrative, metastatic uterine adenocarcinoma was found multifocally throughout the uterus, scattered within the peritoneal cavity, on the diaphragm, the splenic capsule, the pleural surface of the lung and mesenteric lymph nodes. A large volume (100 L) of ascites fluid was present in the abdominal and pleural cavities.

This paper reports in detail, for the first time, on two anesthetic procedures performed on a 15-yr-old, 530 kg, adult male Sumatran rhinoceros (Dicerorhinus sumatrensis). The anesthetic procedures were carried out in order to perform semen collection via electro-ejaculation, using well-established methods, and in order to examine and sample bilateral corneal opacities. Anesthesia for the first procedure was induced with a combination of 5 mg (0.0094 mg/kg) butorphanol tartrate and 5 mg (0.0094 mg/kg) detomidine hydrochloride administered intramuscularly. Subsequently, 0.74 mg (0.0014 mg/kg) etorphine and 3 mg (0.0057 mg/kg) acepromazine, with an additional 1.5 mg butorphanol (0.0028 mg/kg) and 1.5 mg (0.0028 mg/kg) detomidine, were administered intramuscularly. The second procedure was carried out using an intramuscular combination of butorphanol (0.019 mg/kg) and detomidine (0.019 mg/kg), followed by etorphine (0.0023 mg/kg) and acepromazine (0.009 mg/kg). During the second procedure, the depth of anesthesia was managed with very small, supplemental intravenous doses of 50 mg ketamine (0.094 mg/kg). Sequential arterial blood gas analysis demonstrated respiratory acidosis with hypoxemia. Heart rate and respiratory rate ranged between 60–74 beats per minute (bpm), and 10–20 breaths per minute, respectively. Reversal after 100 min, with the intravenous administration of 150 mg (0.28 mg/kg) naltrexone and intravenous 20 mg (0.038 mg/kg) atipamezole, was uneventful and rapid, with the animal standing after 2 min. This combination provides satisfactory general anesthesia in this critically endangered species and will facilitate veterinary management of this species in captivity.

Two adult, spayed, female raccoons were diagnosed with thyroid neoplasia. One raccoon had a palpable, left-sided, nonfunctional thyroid adenocarcinoma which was treated with a thyroidectomy twice with local recurrence both times. After the second recurrence, pulmonary metastases were identified. A third thyroidectomy was performed, and a vascular access port was placed for administration of intravenous doxorubicin. The raccoon developed pancytopenia and became anorexic after chemotherapy, and the owner elected humane euthanasia. The second raccoon had nonpalpable, bilateral, functional follicular thyroid adenomatous hyperplasia and was treated with a right thyroidectomy and a partial left thyroidectomy, leaving behind the grossly normal portion of the left thyroid. However, the animal was still hyperthyroid after surgery and was then successfully managed with topical methimazole gel. Thyroid pathology has been documented in raccoons in Europe, but is not reported in the United States. Thyroid neoplasia in raccoons can occur as a nonfunctional adenocarcinoma, as is commonly reported in dogs, or as a functional adenoma, as is commonly reported in cats. Raccoons with adenocarcinomas should be evaluated for pulmonary metastasis. Methimazole gel may be a viable treatment option for raccoons with hyperthyroidism.

Cerebral xanthomatosis was diagnosed in three female green water dragons (Physignathus cocincinus), all of which presented with progressive neurologic signs. No antemortem evidence for xanthomatosis was identified, but on postmortem examination cholesterol granulomas, composed of cholesterol clefts surrounded by macrophages and multinucleated giant cells, were found in the forebrain of each animal and were associated with significant displacement and pressure on the adjacent brain. Although the cause of xanthomatosis in these animals is unknown, nutrition and trauma may be involved in the pathogenesis of this condition.

From September 2000 to January 2002, a serologic survey was conducted in a population of free-ranging Brazilian tapirs (Tapirus terrestris) inhabiting Emas National Park and surrounding areas in Goiás state, central Brazil, as part of an ecologic study. Ten tapirs were immobilized with a tiletamine–zolazepam combination, and blood samples were collected. All sera were negative for Leptospira spp., Brucella abortus, and equine infectious anemia; and one of 10 animals was positive for Toxoplasma gondii. This report represents the first serologic survey for selected infectious diseases in a free-ranging population of Brazilians tapirs in central Brazil.

A 1.5-yr-old captive male Gambian giant pouched rat (Cricetomys gambianus) died after suffering from anorexia, weakness, and dyspnea for 3 wk. Thoracic radiographs of thorax and abdomen and computed tomography showed a severe biventricular enlargement of the heart and a moderate hepatomegaly. Necropsy revealed a severe, bilateral hypertrophic cardiomyopathy and dilation of the right ventricle due to multifocal bilateral, valvular endocardiosis of all atrioventricular valves and acute hepatic congestion. Histologically, the atrioventricular valves were multifocally thickened by a marked endocardiosis with stromal accumulation of Periodic acid-Schiff (PAS)-positive, mucinous material. Although common in dogs, endocardiosis has not been described in Nesomyidaes. As in other affected species, the pathogenesis of endocardiosis in this species remains unclear.

A captive colony of Brazilian free-tailed bats (Tadarida brasiliensis) was vaccinated with a commercial monovalent inactivated rabies virus (RABV) vaccine (RABVAC 1). Baseline rabies virus neutralizing antibodies (VNA) and the response to vaccination were measured in 50 bats. Rabies VNA was detected in the plasma of 64% (27/42) of bats that had been vaccinated 1 yr prior, but only 19% (8/42) had levels considered adequate. Rabies VNA was detected in the plasma of 63% (5/8) of bats with no record of previous vaccination, suggesting natural RABV exposure before captivity. All bats demonstrated a VNA response by 10 days postvaccination, and baseline titer significantly predicted humoral response to vaccination. No adverse reactions to vaccination or clinical signs of RABV infection were observed in the bats during a 6-mo observation period. Annual vaccination may maintain immunity against RABV infection in captive colonies of bats.

Plasma clearance of iohexol was evaluated in eight anesthetized California sea lions (Zalophus californianus), without evidence of renal dysfunction, to determine if the one-compartment model and the sample protocol used in dogs and cats could be applied to this species. Nonlinearity between samples in 75% (6/8) of sea lions voided those results. An additional two anesthetized sea lions were sampled at 5, 30, 45, 60, 120, 180, 240, and 360 min post iohexol injection and semi-logarithmic curves calculated. Plasma iohexol clearance values calculated by one-, two-, and noncompartment models were in poor agreement, suggesting that the standardized protocol described for dogs and cats cannot simply be applied to California sea lions, probably due to the effects of the dive reflex induced during anesthesia.

This study was performed to determine the histologic structure of the uropygial gland in an osprey. The gland was composed of two elongated lobes which were enclosed in a capsule of connective tissue. Each lobe of the gland had a large central cavity with one excretory duct. The secretory tubules consisted of four cell types: basal, intermediate, secretory, and degenerative. The intermediate cells in the osprey were few in number and did not form a layer, while secretory and degenerative cells consist of 2–3 strata, indicating a high level of lipogenesis. The membranes and peripheral cytoplasm of degenerative cells located in the base of the lobes revealed calcium (Ca² ) deposition and an intense acidophilic reaction.

A 15-yr-old, male lesser Madagascar hedgehog tenrec (Echinops telfairi) presented with a mass caudal to the right ear. Cytology suggested a sarcoma. Surgical removal was attempted. Histology was consistent with a soft tissue sarcoma. The mass recurred within 331 days post operation. Radiation therapy was initiated. Computed tomography was used for staging in conjunction with three-dimensional computerized treatment planning software to permit accurate lesion localization and to optimize normal tissue sparing. A total dose of 6,480 cGy was administered in 24 fractions over 46 days. Transient hind limb paresis developed during the course of the radiation therapy, but resolved after 7 days with prednisone treatment. Minimal acute radiation toxicity was observed. The mass responded with at least a 90% reduction in volume following radiation treatment. The animal survived 266 days from the initiation of treatment. On necropsy, a small mass and granulation tissue were found at the site of the initial neoplasm, indicating good regional control of the tumor; however, extensive metastases to the spleen and liver were present. Immunohistochemically, the original, recurrent, and metastatic populations were strongly positive for HMB 45 and weakly positive for S-100, and the final diagnosis was metastatic amelanotic melanoma.

A 14-year-old female pudu (Pudu puda) developed a uterine prolapse after unassisted parturition. The length of time between the prolapse and replacement of the organ was not known but was less than 24 hr. When the prolapse was first noticed, uterine tissue appeared undamaged and was immediately cleaned with antiseptic solution, handled carefully during replacement, and prophylactic antibiotic and anti-inflammatory drugs were given. The pudu appeared clinically normal until 4 days postpartum, when she developed clinical signs of tenesmus, dysuria, and a purulent discharge from the vulva. Despite further treatment, the animal was found dead 10 days postpartum, even though it had not shown any other signs of systemic illness. Gross and histologic lesions supported a diagnosis of septicemia secondary to metritis. Arcanobacterium pyogenes was isolated from lung, liver, and uterine exudate.

This study assessed whether arterial oxygenation could be increased by treatment with intranasal oxygen supplementation in brown bears (Ursus arctos) with hypoxemia during anesthesia with medetomidine-zolazepam-tiletamine. Arterial blood samples were collected anaerobically from the femoral artery before and during oxygen supplementation. An oxygen flow rate of 2–5 L/min administered intranasally to brown bears weighing 12–120 kg markedly increased arterial oxygenation. Intranasal oxygen supplementation proved to be a simple and efficient method for treatment of hypoxemia in anesthetized bears.

Neosporosis was diagnosed in a 16- year-old female white rhinoceros (Ceratotherium simum) that died suddenly without clinical signs. Histopathology revealed disseminated protozoan tachyzoites in liver, adrenal cortex, kidney, and intestine, with morphology compatible with either Toxoplasma or Neospora. The organism was identified as Neospora caninum with the use of primary rabbit anti–N. caninum antibody immunohistochemistry and polymerase chain reaction. The exact source of infection remains unknown, but it is suspected that N. caninum oocysts were ingested from the soil.

A 37-yr-old male chimpanzee (Pan troglodytes) was evaluated for intermittent diarrhea, scrotal swelling, and lethargy of 2 days duration. Physical examination revealed marked swelling of the scrotum and perineal tissues with mild pitting edema and crepitus. Computed tomography revealed a mixed gas and soft-tissue density extending from the caudal ventral subcutaneous tissues caudally to the scrotum and perineal tissues. Surgical exploration and castration were performed to establish drainage, and culture revealed a polymicrobial infection. A diagnosis of scrotal and fascial plane abscessation consistent with Fournier's gangrene was made. Although castration with open drainage was performed, the animal died 36 hr after surgery. Postmortem examination and histopathology revealed necrotizing fasciitis of the penis, vaginal tunic, and subcutaneous perineal and perianal tissues.

Radio telemetry has greatly advanced the understanding of wild animal ecology. Telemetry studies must ensure that placement of transmitters does not influence the health and behavior of study animals. Here, 10 American badgers (Taxidea taxus) were implanted with beeswax-coated abdominal radio transmitters under general anesthesia and tracked for an average of 14 mo. Behavior and movements of all badgers indicated successful short-term recovery from implantation; however, three mortalities were observed between 5 mo and 15 mo after capture. Cause of death could not be determined for two badgers due to decomposition of the carcasses. A third badger that was recovered in good postmortem condition died from sepsis secondary to a transmitter-related omental torsion. This study indicates that there is some risk associated with abdominally implanted radio transmitters in badgers. Future studies involving implanted transmitters in mammals should focus on identifying safe and effective telemetry devices that do not affect the health of study animals.

A 2.5-yr-old female llama (Lama peruana) with skin lesions was presented to the Animal Health Center in Seoul Grand Park Zoo, Korea. Mites of the genus Demodex in the absence of other mites or fungi were identified from the lesions by skin scrapings. The bodies were elongated, tapered, and 200–280 µm in length; four pairs of stumpy legs were present at the front of the body, and the striated opisthosoma constituted about half of the body length. Histologic examination of the skin biopsy showed typical folliculitis, hyperkeratinization of epidermis, and infiltration of inflammatory cells, consisting mainly of eosinophils and monocytes, in dermis. Although mites were undetected in the dilated hair follicles, the histologic features are consistent with descriptions of infestation by Demodex spp. This is believed to be the first case of skin lesions associated with Demodex sp. in L. peruana. Incidental findings were previously described in a different species of llamas (Lama glama) without any recognized symptoms. Treatment with amitraz (0.025%) eliminated the mites and resolved the clinical signs.

A spinner dolphin (Stenella longirostris) was found stranded in Hawaii with cutaneous nodules and enlarged lymph nodes. Numerous Cryptococcus gattii VGI yeast were observed in multiple organs with minimal inflammation. This case represents the first reported infection of C. gattii in a dolphin from Hawaii.