Owl monkeys are New World primates frequently used in biomedical research. Despite the historical difficulty of breeding owl monkeys in captivity, several productive owl monkey breeding colonies exist currently. The animals in the colony we describe here are not timed-pregnant, and determination of gestational age is an important factor in prenatal care. Gestational age of human fetuses is often determined by using transabdominal measurements of fetal biparietal diameter. The purpose of this study was to correlate biparietal diameter measurements with gestational age in owl monkeys. We found that biparietal diameter can be used to accurately predict gestational age in owl monkeys.

Fur mite outbreaks remain a persistent problem in laboratory mouse colonies. All currently published treatment methods are labor-intensive, expensive, or unreliable. During a recent outbreak with Myobia musculi and Myocoptes musculinus in a large colony (approximately 30,000 cages), we developed a feed-based treatment regime in which ivermectin was the active ingredient. Rodent feed was compounded with 3 different concentrations of ivermectin (12, 24, and 48 ppm) and γ-irradiated. Postcompounding analysis revealed loss of ivermectin during manufacturing, but the remaining drug was stable for at least 6 mo. In an 8-wk toxicity study in a C57BL/6NTac mouse breeding colony, ad-libitum feeding of the 3 diets yielded estimated doses of 1.3, 2.7, and 5.4 mg/kg. Adult mice lacked adverse clinical effects, except that 1 of the 144 mice in the 48-ppm group developed tremors and ataxia and was euthanized. No significant differences between doses were revealed by CBC, serum chemistry, body weight, or gross necropsy. Plasma drug concentrations plateaued at a dose-dependent level 7 to 10 d after initiation of treatment and decreased to undetectable levels 6 to 9 d after its discontinuation. Fertility of the P0 generation was unaffected. Pup mortality was higher in the 24- and 48-ppm groups, reaching 100% at the higher dose. Animals exposed to ivermectin as neonates had normal weaning weights, but mice receiving 24-ppm feed had lower adult weights. Our results indicate that using feed containing 12 ppm ivermectin (estimated ingested dose, 1.3 mg/kg) was safe in a C57BL/6NTac breeding colony.

Refinement of animal care and housing is an important shared goal—and challenge—of the team of research, veterinary, and animal care personnel charged with ensuring the wellbeing of laboratory animals. This study addresses 2 issues central to decision-making and implementation of environmental enhancement: methods for useful and comprehensive cost analysis and evaluation of engineering, husbandry, and facilities considerations. The study was undertaken to analyze the feasibility and cost of providing wood shavings as a floor cover for pen-housed monkeys. The beneficial effects of bedding for the welfare of laboratory-housed animals have long been validated. Our study illustrates a workable team-based procedure for comprehensive cost analysis of an important environmental enhancement and demonstrates that the animal welfare benefit is accompanied by decreased husbandry costs. An engineering solution to the potential challenge that wood shavings pose in terms of clogging water pipes was successful. Another successful outcome was the reduction in water (estimated at 192,000 gal annually) and chemicals used to clean housing areas. Emphasis on rigorous evaluation and objective measures of cost and benefit, as well as inclusion of the many factors and teams involved in animal research, holds strong potential for building a better foundation from which to contribute effective changes and improvements in laboratory animal welfare. Taken together, the findings of this study demonstrate that team-based, integrative, and scientific evaluation of environmental enhancement is an effective approach to guide selection of strategies with maximal potential for improving animal welfare.

Environmental conditions may influence experimental outcomes in laboratory animals. In this study, we measured the effects of a vortex air-filtration device (AFD) on growth rate, morbidity, mortality, behavior, and gross pathology in P2a Leghorn chickens (Gallus gallus domesticus) raised from hatchlings to 6 wk of age. Growth rate was reduced in the group exposed to the operating AFD ('AFD on' group) compared with the 2 control groups ('AFD off' and 'Historical' groups). Similarly, 6-wk survival probability and body weight were decreased in the AFD-on group compared with controls. Splenic and cardiac weight indices were lower in the AFD-on and AFD-off groups compared with the Historical group. A progressive increase in the ambient sound level (Historical, 53.5 ± 1.7 dBA; AFD off, 63.6 ± 0.5 dBA; AFD on, 71.8 ± 0.8 dBA) was the only variable found to correlate with the physiologic differences observed across the 3 groups of growing chickens. These findings indicate that experimental outcomes with growing chickens are negatively affected by vortex air-filtration devices.

Fur mites are a persistent problem in contemporary laboratory mouse colonies. We conducted several studies to evaluate fur mite diagnostic methodologies and interpretation of results. Retrospective analysis of test results from sentinel mice exposed to soiled bedding collected from colonies infested with Myobia musculi and Myocoptes musculinus revealed the skin scrape test to be more reliable than pelt examination, provided that both the head and dorsal thoracolumbar regions were sampled. To assess their diagnostic accuracy, 3 commercial laboratories were sent positive control slides containing mites, mite parts, or eggs in sets of slides containing diagnostic skin scrapings in varying ratios. Laboratory B correctly identified the positive control slide. Laboratory A identified 1 of 3 positive control slides, whereas laboratory C failed to identify both positive control slides submitted. To determine the time required for a mouse to shed its entire hair coat, fur of Crl:CD1(ICR), BALB/cAnNCrl, and Crl:CFW(SW) albino mice was dyed black and the presence of dyed fur evaluated monthly for 8 mo. Limited dyed hair was still present at 8 mo; therefore, finding eggs or egg casings many months after treatment cessation does not necessarily imply treatment failure. To evaluate the effectiveness of soiled bedding sentinels for detection of fur mites in a mite-infested colony, we exposed naïve mice to varying amounts (100%, 50%, 25%, 2.5%, and 0%) of soiled bedding in clean bedding. As little as 2.5% soiled bedding resulted in detection of a positive sentinel within a 2-mo period.

Research in cutaneous biology frequently involves models that use mice housed in SPF conditions. Little information is available concerning the species of bacteria that normally inhabit the skin of these mice. The aim of this study was to characterize the bacterial skin flora of mice housed under SPF conditions. Skin biopsies from C57BL/6 mice under normal and surgically prepped conditions were both cultured and analyzed by using DNA extraction and sequencing. The species isolated most commonly from culture were staphylococci. Coagulase-negative staphylococci were isolated more frequently than was Staphylococcus aureus. Molecular sequencing yielded several additional organisms not found by culture. Overall, culturing of isolates yielded 14 species of bacteria, and molecular sequencing identified another 6 species. Investigators conducting cutaneous research in mouse models should aware of the cutaneous bacterial flora present on these mice.

The current study was performed to understand the level of sound produced by ventilated racks, animal transfer stations, and construction equipment that mice in ventilated cages hear relative to what humans would hear in the same environment. Although the ventilated rack and animal transfer station both produced sound pressure levels above the ambient level within the human hearing range, the sound pressure levels within the mouse hearing range did not increase above ambient noise from either noise source. When various types of construction equipment were used 3 ft from the ventilated rack, the sound pressure level within the mouse hearing range was increased but to a lesser degree for each implement than were the sound pressure levels within the human hearing range. At more distant locations within the animal facility, sound pressure levels from the large jackhammer within the mouse hearing range decreased much more rapidly than did those in the human hearing range, indicating that less of the sound is perceived by mice than by humans. The relatively high proportion of low-frequency sound produced by the shot blaster, used without the metal shot that it normally uses to clean concrete, increased the sound pressure level above the ambient level for humans but did not increase sound pressure levels above ambient noise for mice at locations greater than 3 ft from inside of the cage, where sound was measured. This study demonstrates that sound clearly audible to humans in the animal facility may be perceived to a lesser degree or not at all by mice, because of the frequency content of the sound.

This study analyzed the genetic composition of 3382 genetically characterized and pedigreed animals currently maintained under 3 different housing configurations at the California National Primate Research Center, including the indoor colony, outdoor 'corn cribs,' and half-acre field cages. Summary statistics based on 15 short tandem repeats strongly suggest significant effects of genetic drift, including the loss of allele diversity, among the enclosures within the housing facilities even though gene flow among the different housing units is actively promoted by colony management. Management methods of selectively harvesting female macaques to prevent overrepresentation of one or only a few matrilines and cross-fostering 1-wk-old infants among breeding cages and corn cribs have been insufficient to prevent genetic subdivisions among the cages and corn cribs and to evenly distribute genetic diversity throughout the colony. In addition to promoting several colony management strategies recommended herein to effectively curb inbreeding and genetic differentiation, current attempts of infant cross-fostering and minimizing matriline fragmentation should be expanded. The inclusion of inbred or highly genetically homogeneous animals with diminished allele diversity in linkage and association studies will likely compromise the potential for identifying allele–disease associations, whereas the inclusion of macaques from different geographic origins or their hybrids (or both) in experimental research confounds interpretations of phenotypic differences, due to inflation of the genetic contribution to phenotypic variance.

The purpose of this study was to determine the level of pain elicited by mammary fat pad removal surgery and the effects of postoperative analgesics on recovery. Female FVB mice were anesthetized, and mammary fat pad removal was performed. After surgery, mice received carprofen, buprenorphine, a combination of carprofen and buprenorphine, or saline treatment. Additional mice received anesthesia but no surgery or treatment. Food and water intake, body weight, wheel running activity, and a visual assessment score were recorded daily for 4 d after surgery and compared with presurgical findings. Corticosterone metabolites in fecal samples were analyzed at 12 and 24 h postsurgically and compared with baseline values. All surgical groups had significantly decreased food intake at 24 h, with a return to baseline by 48 h. The combination treatment resulted in a significantly decreased water intake and body weight at 24 h. All surgical groups had significantly decreased wheel running activity at 24 h only. The visual assessment scores indicated mild pain for all surgical groups, with the buprenorphine treated mice showing the highest pain index scores, as compared with nonsurgical controls. Fecal corticosterone metabolite levels did not differ significantly between any of the groups or across time. The parameters used in this study did not indicate that administration of these analgesic regimens improved recovery as compared with that of saline-treated mice. Care should be taken when using visual assessment scores to evaluate pain in mice, given that analgesics may have side effects that inadvertently elevate the score.

Buprenorphine is administered to humans and animals for postoperative pain management, although its use is associated with complications. Alternative analgesics, including the nonsteroidal antiinflammatory meloxicam, are available, but information on their postoperative effects is limited. The objective of the present study was to compare buprenorphine (0.03 mg/kg SC twice daily for 3 d) with meloxicam (2 mg/kg SC initial dose followed by 1 mg/kg SC once daily for 2 d) by assessing parameters relating to postsurgical recovery in rats that underwent surgical implantation of radiotelemetric transducers. Rats treated after surgery with buprenorphine showed greater reductions in body weight, food consumption, locomotor activity, and nighttime heart rates than did meloxicam-treated rats. Buprenorphine and meloxicam treatments both had stimulatory effects on mean arterial pressure and daytime heart rate measurements, although effects on nighttime mean arterial pressure were greater in the buprenorphine-treated rats. In summary, the lesser physiologic changes associated with meloxicam, as compared with buprenorphine, suggest that meloxicam offers advantages for use as a postoperative analgesic after laparotomy and radiotelemetric transducer implantation in rats.

The potential of a severe influenza pandemic necessitates the development of an organized, rational plan for continued laboratory animal facility operation without compromise of the welfare of animals. A comprehensive laboratory animal program pandemic response plan was integrated into a university-wide plan. Preparation involved input from all levels of organizational hierarchy including the IACUC. Many contingencies and operational scenarios were considered based on the severity and duration of the influenza pandemic. Trigger points for systematic action steps were based on the World Health Organization's phase alert criteria. One extreme scenario requires hibernation of research operations and maintenance of reduced numbers of laboratory animal colonies for a period of up to 6 mo. This plan includes active recruitment and cross-training of volunteers for essential personnel positions, protective measures for employee and family health, logistical arrangements for delivery and storage of food and bedding, the removal of waste, and the potential for euthanasia. Strategies such as encouraging and subsidizing cryopreservation of unique strains were undertaken to protect valuable research assets and intellectual property. Elements of this plan were put into practice after escalation of the pandemic alerts due to influenza A (H1N1) in April 2009.

We determined the efficacy of ivermectin-compounded feed against fur mites in mice and describe its use to eradicate mites in vivaria holding approximately 30,000 cages. C57BL/6NCrl mice infested with Myobia musculi and Myocoptes musculinus were treated with ivermectin-compounded feed (approximate ingested dose, 1.3 mg/kg) for 1, 4, or 8 consecutive weeks. Regardless of treatment duration, all treated mice, as well as contact sentinels, remained free of fur mites for as long as 21 wk after treatment. No adverse effects were observed. Subsequently, facility-wide treatment was implemented in an attempt to eradicate fur mites from 3 vivaria housing approximately 120,000 mice. Medicated feed was provided for 8 wk to ensure that all cages and mice were treated. A single investigative group reported adverse effects in their colony 4 wk after treatment was initiated; mortality was attributed to ivermectin toxicity after an intracranial injection at 1 d of age. Naïve pups were unaffected. No other adverse effects were noted. Approximately 14,500 skin scrape samples were evaluated during the 12-mo posttreatment surveillance period. All samples were negative for mites. To our knowledge, this is the first report of successful eradication of fur mites from a mouse colony of this large size.

A 16-mo-old female house musk shrew (Suncus murinus) with a 1-wk history of a rapidly growing subcutaneous mass in the interscapsular region was euthanized and submitted for necropsy. Macroscopic examination identified an irregular, well-demarcated, solid, tan-white subcutaneous mass. A small cavity containing a microchip device was present at the center of the mass. In addition, massive splenomegaly was evident grossly. Histologically, the subcutaneous mass comprised spindle cells arranged in a storiform pattern of interweaving bundles, consistent with a high-grade soft tissue sarcoma with multifocal necrosis. Immunohistochemical investigation suggested that the neoplastic cells were positive for neuron-specific enolase and (rarely) α-smooth muscle actin and negative for cytokeratin, desmin, S100, and vimentin. In light of the mesenchymal histopathologic phenotype and the lack of specific immunoreactivity pattern, the mass was considered to be most consistent with a poorly differentiated sarcoma. To our knowledge, this is the first report of a microchip-associated soft tissue sarcoma in a shrew.

Here we describe gross and histopathologic findings in a laboratory-confined adult male raccoon (Procyon lotor) with microscopic ossified areas in pulmonary alveoli. At the time of necropsy, gross lesions were present in the kidneys and in one thyroid gland. Noteworthy microscopic findings included multifocal foci of osseous tissue within the alveoli of the lungs, bilateral thyroid adenomas, pancreatic islet cell amyloidosis, cortical kidney infarcts, cystic adenomatous hyperplasia of urinary bladder, and mineralizations (psommama bodies) of small blood vessels of meninges and choroid plexus. Pulmonary ossification in raccoons has not been reported previously. The other histopathologic lesions have been documented to occur as incidental findings in raccoons and do not appear to have any apparent association with the formation of osseous foci in the lungs of the animal described.

Husbandry staff noticed a research-naïve, young-adult, female finch tossing its head back intermittently. A second finch exhibiting similar signs was reported a few days later. Postmortem necropsy and histopathology with hematoxylin and eosin and acid-fast staining on the first finch revealed the presence of acid-fast organisms in several organs. After presumptive diagnosis of mycobacteriosis, all remaining finches housed in the same room as the first underwent necropsy and histology. Three additional finches were positive for Mycobacterium-like acid-fast organisms. Incidental findings of megabacteriosis were noted histopathologically on 2 other finches.

A cynomolgus macaque presented with an ecchymotic and edematous left leg approximately 1 wk after a blood sample had been collected from the left femoral vein. Ecchymosis was noted in the femoral triangle, prepuce, and scrotum. The animal was not febrile or exhibiting signs of pain or distress. Duplex Doppler ultrasound imaging was used to evaluate the area. An arteriovenous fistula between the femoral artery and vein, accompanied by a pseudoaneurysm arising from the femoral artery, was identified. Various invasive and noninvasive treatment options for the pseudoaneurysm, including surgical repair, thrombin injection, stent placement, and ultrasound-guided compression repair (UGCR), were considered. UGCR was chosen as the first option for treatment. After a total of 20 min of UGCR at the neck of the pseudoaneurysm, complete thrombosis was achieved. Subsequent imaging of the lesion revealed resolution of the pseudoaneurysm. Because of the risks involved with invasive management techniques for this vascular lesion, UGCR is a valuable noninvasive treatment option for the repair of pseudoaneurysms.