Evaluation of tarsal injuries in C57BL/6J male mice.

Tarsal joint abnormalities have been observed in aged male mice on a C57BL background. This joint disease consists of calcaneal displacement, inflammation, and proliferation of cartilage and connective tissue, that can progress to ankylosis of the joint. While tarsal pathology has been described previously in C57BL/6N substrains, as well as in STR/ort and B10.BR strain, no current literature describes this disease occurring in C57BL/6J mice. More importantly the behavioral features that may result from such a change to the joint have yet to be evaluated. This condition was observed in older male mice of the C57BL/6J lineage, around the age of 20 weeks or older, at a frequency of 1% of the population. To assess potential phenotypic sequela, this study sought to evaluate body weight, frailty assessment, home cage wheel running, dynamic weight bearing, and mechanical allodynia with and without the presence of pain relief with morphine. Overall mice with tarsal injuries had significantly higher frailty scores (p< 0.05) and weighed less (p<0.01) compared to unaffected mice. Affected mice had greater overall touch sensitivity (p<0.05) and they placed more weight on their forelimbs (p<0.01) compared to their hind limbs. Lastly, when housed with a running wheel, affected mice ran for a shorter length of time (p<0.01) but tended to run a greater distance within the time they did run (p<0.01) compared to unaffected mice. When tested just after being given morphine, the affected mice performed more similarly to unaffected mice, suggesting there is a pain sensation to this disease process. This highlights the importance of further characterizing inbred mouse mutations, as they may impact research programs or specific study goals.

Shared and distinctive features of the gut microbiome of C57BL/6 mice from different vendors and production sites, and in response to a new vivarium.

Animal models play a critical role in establishing causal relationships between gut microbiota and disease. The laboratory mouse is widely used to study the role of microbes in various disorders; however, differences between mouse vendors, genetic lineages and husbandry protocols have been shown to contribute to variation in phenotypes and to non-reproducibility of experimental results. We sought to understand how gut microbiome profiles of mice vary by vendor, vendor production facility and health status upon receipt into an academic facility and how they change over 12 weeks in the new environment. C57BL/6 mice were sourced from two different production sites for each of three different vendors. Mice were shipped to an academic research vivarium, and fresh-catch stool samples were collected from mice immediately from the shipping box upon receipt, and again after 2, 6 and 12 weeks in the new facility. Substantial variation in bacterial proportional abundance was observed among mice from each vendor at the time of receipt, but shared microbes accounted for most sequence reads. Vendor-specific microbes were generally of low abundance. Microbial profiles of mice from all vendors exhibited shifts over time, highlighting the importance of environmental conditions on microbial dynamics. Our results emphasize the need for continued efforts to account for sources of variation in animal models and understand how they contribute to experimental reproducibility.

Seroconversion of 1-year-old Mice to Murine Norovirus.

Rodent sentinel screening for adventitious pathogens is an integral part of many biomedical research institutes and universities that use rodents in research. Typical screening programs involving live sentinel animals typically purchase young SPF sentinel animals that are sampled and replaced quarterly. Previous reports suggest that mice as old as 6 mo are effective sentinels for various agents. In efforts to reduce the number of animals used in our sentinel program, we wanted to investigate the possibility of keeping sentinel animals inhouse for 12 mo at a time. We exposed mice (age, 40 to 48 wk) to murine norovirus (MNV) to test whether they could reliably produce detectable levels of antibodies (similar to younger mice) to this adventitious pathogen. Mice first exposed to MNV at 40 to 48 wk of age seroconverted to MNV after both direct inoculation (through gavage) and indirect exposure (from soiled-bedding transfer) at the same or greater frequency than mice first exposed at 8 to 12 wk of age. These findings indicate that, at least for MNV, sentinel residence time can be extended from 3 to 12 mo without compromising the reliability of seroconversion, thus ultimately reducing sentinel animal numbers. This practice, combined with nonanimal testing modalities (for example, exhaust duct sampling), can increase the sensitivity and specificity of rodent surveillance programs and minimize the use of live animals.

Sex- and Strain-related Differences in the Stress Response of Mice to CO2 Euthanasia.

The 2013 edition of the AVMA Guidelines for the Euthanasia of Animals recommends a 10% to 30% volume displacement rate (VDR) per minute for CO2 euthanasia of rodents. Here we sought to evaluate behavior and plasma catecholamine levels in multiple strains of male and female mice, euthanized individually or in a group, with CO2 VDR of 10% to 100%. Behavioral observations included ataxia, labored breathing, time to recumbency, time to surgical plane of anesthesia, and the number of jumps or paws at the face during the euthanasia process. Behaviors did not differ significantly between male and female mice at any of the VDR, but interstrain differences occurred. Slower VDR resulted in longer periods of ataxia and labored breathing regardless of euthanasia as a group or as an individual. In addition, mice jumped and pawed at the face more often with slower VDR than higher. At all VDR, mice euthanized as a group had lower catecholamine levels than mice euthanized individually, but there were no significant differences between VDR. Time to recumbency and time to surgical plane anesthesia were longer with slower displacement rates; in addition, these parameters were prolonged for mice euthanized as a group compared with individually. Overall, faster VDR do not appear to be more distressful than slower rates. In fact, faster VDR shorten the time during which mice might experience distress prior to recumbency.

Lethal injection for execution: chemical asphyxiation?

BACKGROUND: Lethal injection for execution was conceived as a comparatively humane alternative to electrocution or cyanide gas. The current protocols are based on one improvised by a medical examiner and an anesthesiologist in Oklahoma and are practiced on an ad hoc basis at the discretion of prison personnel. Each drug used, the ultrashort-acting barbiturate thiopental, the neuromuscular blocker pancuronium bromide, and the electrolyte potassium chloride, was expected to be lethal alone, while the combination was intended to produce anesthesia then death due to respiratory and cardiac arrest. We sought to determine whether the current drug regimen results in death in the manner intended. METHODS AND FINDINGS: We analyzed data from two US states that release information on executions, North Carolina and California, as well as the published clinical, laboratory, and veterinary animal experience. Execution outcomes from North Carolina and California together with interspecies dosage scaling of thiopental effects suggest that in the current practice of lethal injection, thiopental might not be fatal and might be insufficient to induce surgical anesthesia for the duration of the execution. Furthermore, evidence from North Carolina, California, and Virginia indicates that potassium chloride in lethal injection does not reliably induce cardiac arrest. CONCLUSIONS: We were able to analyze only a limited number of executions. However, our findings suggest that current lethal injection protocols may not reliably effect death through the mechanisms intended, indicating a failure of design and implementation. If thiopental and potassium chloride fail to cause anesthesia and cardiac arrest, potentially aware inmates could die through pancuronium-induced asphyxiation. Thus the conventional view of lethal injection leading to an invariably peaceful and painless death is questionable.

General Considerations for Mouse Survival Surgery.

Personnel performing surgery on mice commonly lack formal medical training and most training in mouse surgery focuses on the mechanical skills required for a procedure with less emphasis on perioperative techniques. Consequently, a basic concept that underpins successful surgery, aseptic technique, may not be fully understood or incorporated into the training process. This unit provides a framework in which to plan and carry out surgical procedures in mice using appropriate aseptic technique. Curr. Protoc. Mouse Biol. 2:263-271 © 2012 by John Wiley & Sons, Inc.

Comparison of traditional and PCR methods during screening for and confirmation of Aspiculuris tetraptera in a mouse facility.

Pinworm detection in laboratory rodents typically is accomplished by using the tape test or various modifications of fecal flotation test to detect eggs. Direct examination of intestinal contents remains the 'gold standard' for pinworm detection, with the limitation of euthanasia of animals. Here, we compare traditional and real-time PCR methodologies during screening for and confirming the presence of Aspiculuris tetraptera. Two sets of pooled fecal samples collected from each of 521 microisolation cages in a mouse facility suspected to be pinworm-positive were tested by PCR and fecal flotation methods. The number of PCR-positive cages was 48 (9.2%) compared with 5 (0.96%) by the fecal flotation method. All of the cages determined to be positive by fecal flotation were positive by PCR. We evaluated 8 positive cages containing 26 mice from the screening group 5 wk later to confirm the initial findings; for 7 of these cages, PCR results from the initial screening were confirmed by fecal centrifugation concentration (FCC) or direct worm detection. Among the 26 mice, 4 were pinworm-positive by FCC, 5 by maceration, and 16 by PCR. All 4 mice positive by FCC were positive by PCR; PCR was positive for 7 of the 9 mice in which pinworms were detected by FCC or maceration. Our study demonstrates that real-time PCR for survival testing of mice for A. tetraptera effectively augments current detection methods for quarantine and routine health monitoring.