Highly immunodeficient NSG mice (NOD.Cg-Prkdc^scid Il2rg^tm1Wjl/SzJ) are commonly used as a models in preclinical studies for patient-derived engraftment. However, despite the frequency of their use, reference values for their clinical pathology markers have not been determined. In accordance with the American Society of Veterinary Clinical Pathology (ASVCP) recommendations, we established de novo reference values for hematologic and biochemical variables and evaluated bone marrow cytology and histology in forty 9-wk-old male and female NSG mice. Hematologic analyses were performed using 2 separate analyzers (IDEXX ProCyte Dx, Sysmex XT-2000iV) and biochemical values were measured using a Scil VetScan2. The primary hematologic characteristic seen in NSG mice was a very low white blood cell (WBC) count (below 1.6 10⁹/L). Lymphocyte and monocyte counts were respectively over- and under-estimated by the analyzers, as compared with manual counts, likely due to misidentification of the very low concentrations of these cell types by the analyzers. This analytical bias highlights the need for confirmatory microscopic observation of blood smears from these mice for WBC differential identification. Results for all other hematology and biochemistry variables were similar to those previously reported in inbred mice, except for MPV and an unexpectedly high glucose concentration (11.5 to 19.0 mmol/L), potentially due to the nonfasting status of the animals. The differential bone marrow cell count and Myeloid:Erythroid ratio (median 1.76) were also established. Megakaryocyte and adipocyte count differed significantly between the femoral diaphysis and metaphysis and between genders. These results provide a reliable resource of baseline data for hematologic variables for researchers monitoring graft rejection studies in NSG mice.

Although nesting material is beneficial to the welfare of laboratory mice, provision of appropriate amounts may impair visualization of the mice. In anticipation of our academic research institution transitioning to providing 6 grams of nesting material to all mice, we conducted a 2-step prospective epidemiologic study to 1) evaluate whether 0, 2, or 6 grams of nesting material alters the ability to identify sick or dead mice, and 2) evaluate the number and severity of health concerns identified in the presence of 6 grams of crinkle paper nesting material at cage-side health check as compared with cage change. Animal Treatment Reports (ATRs) and death incidences were collected across a variety of research and breeding uses. This information was used to determine if nesting material prevented prompt identification of mice in need of veterinary attention. The clinical health condition category (CHCC) was determined based on the severity of the animal's health condition on initial veterinary exam. Additional assessment determined if the identification of the animal's condition was a success (early-stage or mild illness when first identified) or a failure (late-stage or endstage illness when first identified). Mice that died spontaneously were also assessed with regard to which observation activity was being performed at the time of the animal's identification (daily health check or cage change) and location of the mouse in relation to the nest. The results showed that nesting material did not cause a significant increase in the severity of CHCCs at the time reported for veterinary evaluation. Successful identification of health concerns occurred significantly more often than failures. Death rates were similar between all nesting groups, and dead mice were more likely to be located outside of the nest. In summary, nesting material did not hinder the ability to identify mice in need of veterinary care during routine cage-side health checks and did not critically affect the ability to identify mice that died spontaneously. These results indicate that mice can receive appropriate amounts of crinkle paper nesting material without lowering the ability of staff to recognize mice in need of veterinary attention.

The combination of bedding substrate and nesting material within the microenvironment of mice is an important consideration for animal care programs in regard to optimizing animal wellbeing. We used 3 general or breeding mouse colonies in our institution to evaluate the effects of bedding substrate on nest building, breeding performance, and recognition of animal health concerns. A scoring system was developed to assess the incorporation of bedding into the nest cup base and walls (nest base incorporation, NBI) in a controlled study with mice bedded on either compressed paper (CP) or corncob (CC) bedding. Compared with CC cages, CP cages had higher NBI scores. To determine the influence of bedding type on the recognition of animal health concerns in an animal facility, cages bedded with CC followed by CP were evaluated for the overall frequency of health-concern reports during a 2-mo time frame for each bedding type in a single-subject A-B study design. The frequency of animal health-concern reports was similar in cages using CC or CP bedding. The animal health condition, rather than bedding type, was associated with the severity of the health problem at the initial report. Breeding performance was compared for 6 mo in matched CC and CP cages containing one of 13 genetically modified mouse lines. NBI scores were higher for breeders housed on CP compared with CC bedding. Monogamous breeder pairs housed on CP had significantly higher indexes of breeding performance (measured as the number of pups per dam per week on study) than did CC cages. This report supports the use of CP bedding in the mouse microenvironment to improve general wellbeing by supporting nesting behavior and reproductive performance without hindering the detection of animal health concerns.

Ammonia control is an important characteristic of rodent bedding materials. Among natural bedding materials, corncob bedding provides excellent ammonia control but contains estrogenic compounds and is ingested by mice. By comparison, processed cellulose bedding products are biologically inert and harbor fewer bacteria but historically have shown low absorbency or poor ammonia control. New cellulose products have been developed to address these shortcomings. Over a 2-wk period, we evaluated intracage ammonia levels in mouse IVC using 4 bedding types: shaved aspen, corncob, virgin pelleted cellulose, and refined virgin diced cellulose. Ammonia levels were measured by using 3 methods: colored reagent tubes, colorimetric paper strips, and a photoionization detector. Corncob, pelleted cellulose, and diced cellulose showed better ammonia control than aspen as early as 4 d after cage changing and throughout the 2-wk measurement period. In addition, pelleted and diced cellulose products resulted in lower ammonia levels than corncob at the end of the 14-d cage-change interval. Our data indicate that pelleted or refined diced cellulose are viable alternatives to natural bedding products in IVC to limit the risk of exposure of mice to high ammonia levels.

Environmental enrichment for mice lags behind the standard enrichment offered to other laboratory rodents due to concerns about environmental variability and, in specific contexts, aggression. Our objective in this study was to evaluate concerns that the introduction of structural enrichment in the form of a single red acrylic mouse tunnel into murine housing may confound study findings. We measured effects on anxiety-like behaviors (elevated zero maze and open field activity), hippocampal neurogenesis, body weight gain, and physiologic markers of stress (adrenal gland weight, plasma corticosterone concentration, and neutrophil:lymphocyte ratio). Male and female C57BL/6J mice were randomly assigned to one of 2 groups: a standard-housed control group with enrichment consisting of paper nesting material, or an enriched group that received a single acrylic tunnel in addition to nesting material. All results fell within biologically normal ranges regardless of treatment, and variability (standard deviation) was not significantly different between groups for any measure. Mice in the enriched group showed modest differences during open field testing suggestive of decreased anxiety, traveling farther and depositing fewer fecal boli than standard-housed mice. Male mice in the tunnel-enriched group gained more body weight than standard-housed male mice. No significant effects by treatment were found in neurogenic or physiologic parameters. These results indicate that provision of simple structural enrichment is unlikely to have confounding effects on murine anxiety-like behaviors, neurogenesis, body weight gain, or physiologic parameters. We therefore recommend the inclusion of simple structural enrichment, such as an acrylic tunnel, to the standard environmental enrichment of social housing and nesting material for mice.

Compassion fatigue (CF) is a topic of increasing concern because it can affect the mental wellbeing of caregivers, including those caring for or using research animals. If unaddressed, compassion fatigue may adversely impact the quality of life for personnel working with animals in research settings and may influence their decision to remain in the field. This study used a cross-sectional anonymous online questionnaire to 1) examine compassion fatigue in individuals working with research animals in Canada and the US; 2) better understand how personal and work-related factors may influence feelings of CF; 3) assess coping mechanisms used to deal with CF; and 4) determine the beneficial components of a CF support program. A questionnaire was sent to laboratory animal professionals in Canada and the US via email listserves to survey the general population of laboratory animal workers and personnel working for a large North American contract research organization (CRO). A total of 422 responses were received and analyzed (n = 154 from the general population, n = 268 from the CRO). Most participants were female (73%, 309/422); 66% (101/154) and 69% (184/268) of the general laboratory animal science respondents and the CRO respondents, respectively, reported experiencing feelings of CF. Survey participants indicated that the most influential work-related factors associated with feelings of CF were understaffing, close relationships with experimental animals, a lack of resources for coping with CF, poor relationships with superiors, and lack of training in managing CF. Respondents indicated that the most influential personal factors contributing to feelings of CF were poor mental and physical health. The most commonly reported beneficial coping mechanisms were talking to a trusted individual, getting away from work, practicing self-care strategies, increasing opportunities for physical activity, and owning or caring for companion animals.

Buprenorphine is a commonly used opioid for mitigating pain in laboratory mice after surgical procedures; however, the dosing interval necessary for standard buprenorphine may require treatment every 4 to 6 h to maintain an adequate plane of analgesia. An alternative formulation that provides prolonged plasma concentration with long-lasting effects would be beneficial in achieving steady-state analgesia. We evaluated a long-lasting and highly concentrated formulation of buprenorphine (Bup-LHC) in mice. Pharmacokinetic analysis was performed to assess plasma concentrations in male C57BL/6J (B6) and female CD1 mice after subcutaneous injection of 0.9 mg/kg. The Bup-LHC formulation provided plasma drug levels that exceeded the therapeutic level for at least 12 h in male B6 mice and was below therapeutic levels by 8 h in female CD1 mice. An experimental laparotomy model was used to assess analgesic efficacy. Female CD1 mice were treated with either Bup-LHC (0.9 mg/kg) or saline at 1 h before undergoing an ovariectomy via a ventral laparotomy. At 3, 6, 12, 24, and 48 h after surgery, pain was assessed based on the following behaviors: orbital tightness, grooming, wound licking, rearing, arched posture, ataxia, piloerection, nest building, and general activity. At 3 and 6 h after surgery, Bup-LHC–treated mice had significantly less wound licking and orbital tightness and considerably higher activity levels than did saline-treated mice. At 12 h, wound licking, orbital tightness and activity in Bup-LHC–treated mice were no longer significantly different from those of saline-treated mice. The results of this study suggest that Bup-LHC at 0.9 mg/kg provides sufficient plasma concentrations for analgesia in mice for 6 to 12 h after administration, as demonstrated behaviorally for at least 6 h after surgery.

The AVMA Guidelines on Euthanasia state that, to decrease potential distress of animals, the home cage should be used for the euthanasia of mice. The current study evaluated this recommendation by comparing behavioral and physiologic changes in ICR and SJL mice that were euthanized by using a 30% volume per minute displacement rate of 100% CO₂ in either their home cage or an induction chamber. Blood samples were collected to assess blood glucose, serum corticosterone, and serum noradrenaline as markers of physiologic wellbeing. Behavioral assessment was performed (with emphasis on behaviors including rearing, jumping, sniffing at the gas inlet, and grooming) from the introduction of gas to the estimated time to loss of consciousness (i. e., the time period when the animal would be expected to experience pain or distress). Despite significant differences between mouse strains, no significant differences were detected in the physiologic or behavioral parameters assessed when comparing the home cage with the induction chamber. This finding suggests that— from the perspective of a mouse—either the home cage or an induction chamber can be used for induction of anesthesia with CO₂ during the euthanasia procedure.

von Frey (vF) monofilaments are used to quantify mechanical hypersensitivity and nociception in rodents; however, this method of testing has been criticized due to inconsistencies in testing methods, filament properties, and nonlinearity. This study compared withdrawal thresholds measured by using vF monofilaments with those of a novel mechanical threshold testing device currently in development (RatMet) in a carrageenan inflammatory model in 9- to 11-wk-old male Wistar rats. Rats were randomly assigned to assessment of mechanical hypersensitivity after intraplantar carrageenan injection by using either vF monofilaments (n = 10) or the RatMet device equipped with 3 sizes of probe tips (0.9 mm [RM0.9], n = 15; 0.5 mm [RM0.5], n = 11; and 0.09 mm [RM0.09], n = 11). All RatMet probe sizes and vF monofilaments identified a reduction in withdrawal threshold after treatment. Systematic differences in threshold were identified between vF and both RM0.9 and RM0.5 groups; RM0.09 did not differ from vF. Withdrawal thresholds showed linear relationships with probe diameter, square root of probe diameter, and area of the RatMet probes. In contrast, exponential relationships were observed with the vF monofilaments. Furthermore, none of the RatMet probe results differed in accuracy when comparing a single test with the averages of 3 or 5 tests per time point. Overall, the RatMet device measurements have construct validity even when the number of testing replicates is low. These data indicate that the RatMet device produces data comparable with those from vF monofilaments, with the potential for a shortened testing period without a decrease in accuracy.

In biomedical research, surgeons are often responsible for simultaneously conducting rodent surgical procedures, monitoring anesthesia, and adjusting nonsterile equipment. Maintaining appropriate aseptic technique can be challenging when working under these conditions. Applying a sterile barrier material such as aluminum foil to nonsterile surfaces in these circumstances offers an innovative, inexpensive option to improve asepsis. The purpose of this study was to validate the sterility of foodgrade aluminum foil for use as a sterile barrier on nonsterile equipment during rodent surgery. In this investigation, 10 boxes of aluminum foil were assessed for sterility by using ATP swabs and replicate organism detection and counting (RODAC) plates at 0, 14, and 28 d and 6 mo. At 6 mo, foil was applied to surgical equipment, and sterility was assessed by using ATP swabs and RODAC plates. Results revealed no ATP-positive results at any time point. During assessment of samples obtained directly from boxes, RODAC plates yielded minimal bacterial growth (1 cfu per plate) in 2 of the 10 boxes at initial testing and in 1 box at the day 0, day 14, and 6 mo time points. No growth was observed at day 28 (tested directly from the box) or at 6-mo apparatus testing. Our data revealed minimal bacterial growth on tested samples and support the use of Reynolds Wrap aluminum foil as a sterile barrier on nonsterile surfaces during aseptic rodent surgery.

Measurement of intraocular pressure (IOP) is a standard procedure in ophthalmic research in animals, specifically in glaucoma research, and the control of IOP is essential during certain veterinary ophthalmic surgeries. We evaluated the effect of isoflurane on IOP in the clinically healthy laboratory rabbits and tested a way to minimize the alteration of IOP during isoflurane anesthesia. After measurement of the baseline IOP in each eye of 9 awake New Zealand white rabbits, animals were anesthetized by using either: (1) isoflurane without premedication, (2) a combination of ketamine and xylazine, or (3) isoflurane inhalation after an injection of ketamine–xylazine premedication. Isoflurane led to a sustained increase in IOP of approximately 12 mm Hg. In contrast, ketamine and xylazine decreased IOP by nearly 5 mm Hg (all values compared with baseline measurements in awake, unrestrained animals). The observed decrease in IOP after ketamine–xylazine anesthesia is consistent with anesthetic effects generally seen during anesthesia in other studies. The increased IOP after isoflurane anesthesia in rabbits in this study was an unexpected result that appears to be specific to this combination of anesthetic and animal species. Premedication with ketamine–xylazine diminished the effect of isoflurane inhalation on IOP. These results should be considered in the design of ophthalmic research studies using rabbits and in intraocular surgery where IOP stability is desired.

African swine fever virus (ASFV), the causative agent of African Swine Fever (ASF), is an infectious disease of swine that is associated with high rates of morbidity and mortality in naive populations. ASFV is challenging to work with in vitro and the in vivo immune response remains an active area of study. Vaccine development, pathogenesis, and diagnostic assay development studies often require use of live swine housed in high-containment laboratories. Studies of this type are intended to obtain key data yet must minimize the pain and distress experienced by the animals. To implement humane endpoints, pigs are ideally euthanatized by barbiturate overdose prior to death from ASFV infection, as the final stages of ASF can be clinically severe. However, due to the complex nature of ASFV pathogenesis, predicting when an infected animal will become moribund and require euthanasia is difficult. The current study was intended to aid in predicting the onset of moribundity in swine. Toward this end, we performed statistical analyses of historical health record data from 103 swine experimentally infected with ASFV. Regression analysis suggested that rectal temperature has potential utility as a marker for predicting moribundity, whereas viral strain and duration of survival after inoculation were significant risk factors for death due to disease rather than euthanasia.

Integrating animals into a new group is a challenge for both free-ranging and captive adult male rhesus monkeys (Macaca mulatta), and for females in groups receiving new males. To ensure the genetic viability of the population, however, male transfers must occur in both natural and captive settings. To facilitate the introduction of groups of adult males to adult females, we designed a new enclosure that is attached to the outdoor compound where females are housed. Here we describe the construction of 3 introduction enclosures, their use during 4 introductions of groups of adult males to adult females, a brief comparison of introduction success rates associated with the new introduction enclosures with those of our traditional male introduction method, and a critique by the various groups of staff members working with the new enclosures. Overall, the introduction enclosures benefitted both the macaques and the facility personnel and appear to be a useful enhancement to our process of integrating breeding groups.

Erratum to article in Volume 59 Issue 5: https://www.ingentaconnect.com/contentone/aalas/jaalas/2020/00000059/00000005/art00012