Toe clipping is used to identify and genotype preweanling mice, but the procedure generates concerns relevant to pain and distress. The few pertinent studies available evaluated mice between postnatal days (PND) 3 and 7, advocate the use of toe clipping in mice PND 7 or younger, and identify handling as the most distressing aspect of the procedure. Because both toe and tail clipping may be necessary in older mice to obtain sufficient DNA for genotyping, we surmised that performing these procedures concurrently to minimize handling would be beneficial. We also examined reflex development until PND 21 and adult behavior at 8 to 10 wk of age in mice toe clipped at PND 7 or 17 and the benefits of using topical vapocoolant anesthesia. C57BL/6J pups at PND 7 and 17 were assigned to 1 of 4 groups: 1) clipping of digit 3 of contralateral fore- and hindpaws; 2) toe clipping after topical vapocoolant anesthesia; 3) unclipped, unsprayed controls; and, 4) unclipped and vapocoolant-sprayed. Compared with unanesthetized pups, those sprayed with vapocoolant vocalized and struggled more when handled and had more bleeding, erythema, and swelling, which persisted for as long as 12 h after toe clipping. Reflex development, anxiety, locomotion, and motor coordination were not different among groups or with regard to the age of toe clipping. No tissue reaction was noted microscopically in paws collected at 10 wk of age. We conclude that the use of vapocoolant cannot be recommended due to its harmful effects and that toe clipping at PND 7 or 17 does not significantly affect the long-term welfare of mice.

A goal of the Guide for the Care and Use of Laboratory Animals is to improve animal welfare by minimizing sources of fear, anxiety, and stress. As a result, it includes recommendations on overcrowding, frequency of cage changes, enrichment, and group housing. However, human odorants are a potential but unexplored source of fear, anxiety, and stress. Although mice have been maintained for decades for animal research, whether mice perceive humans as predators is unknown. If so, this would necessitate changes in animal care and use procedures to minimize this source of chronic fear, anxiety, and stress. Odorants from predator urine are well known to elicit strong fear responses in mice, leading to modification of animal behavior and elevated levels of stress. To begin asking whether human odors influence mouse behavior, we tested the effect of human urine odor on fear response in mice. We assessed mouse behavior by using a modified shuttle cage to record vari- ous parameters of mouse exposure to odorants. We found that mice displayed fear responses to 2,4,5-trimethylthiazoline, a synthetic analog of red fox feces, but no fear response to DMSO, the diluent for 2,4,5-trimethylthiazoline. In contrast, mice exposed to human urine samples showed no significant fear response.

The relationship among ammonia levels, cage-changing frequency, and bedding types is an important and potentially controversial topic in the laboratory animal science community. Some bedding options may not provide sufficient urine absorption and bacterial regulation to minimize ammonia production during the interval between cage changes. High intracage ammonia levels can cause subclinical degeneration and inflammation of nasal passages, rhinitis and olfactory epithelial necrosis in exposed mice. Here we sought to compare the effects of 4 commonly used bedding substrates (1/4-in. irradiated corncob, reclaimed wood pulp, aspen wood chips, and recycled newspaper) on ammonia generation when housing female C57BL/6 mice in static and individually ventilated caging. Intracage ammonia levels were measured daily for 1 wk (static cage experiment) or 2 wk (IVC experiment). The results of this study suggest that the corncob, aspen wood chip, and recycled newspaper beddings that we tested are suitable for once-weekly cage changing for static cages and for changing every 2 wk for IVC. However, ammonia levels were not controlled appropriately in cages containing reclaimed wood pulp bedding, and pathologic changes occurred within 1 wk in the nares of mice housed on this bedding in static cages.

Laboratory mice preferentially rear their offspring in communal nests (CN), with all mothers contributing to maternal care and feeding of all the pups. Previous studies using primarily outbred mice have shown that offspring reared under CN conditions may display increased preweaning growth rates and differences in adult behavior and neurobiology compared with mice reared under single-nesting (SN; one dam with her litter) conditions. Here we compared pup mortality; weaning and adult body weights; adult behavior; and gene expression in the hippocampus and frontal cortex between C57BL/6J, DBA/2J and 129x1/SvJ mice reared by using CN (3 dams and their litters sharing a single nest) or SN. Male and female pups of all 3 strains reared in CN cages showed higher body weight at weaning than did SN pups of the same strain, with no significant difference in pup mortality between groups. Adult male offspring reared in CN showed no differences in any behavioral test when compared with SN offspring. Combining CN dams and litters after parturition revealed greater cortical brain-derived neurotropic factor expression in adult male C57BL/6J offspring and cortical glucocorticoid receptor expression in adult male C57BL/6J and 129x1/SvJ offspring as compared with SN offspring of the same strain. Communal rearing can enhance juvenile growth rates but does not change adult behavior in inbred mouse strains, although potential effects on adult neurophysiology are possible.

Whether social isolation of adult rats under standard laboratory conditions produces significant long-term alterations in behavior and physiology is unclear. In the present study, male Sprague–Dawley rats were singly or paired-housed for 10 wk. During this period, they were tested for acquisition, extinction, and reacquisition of heroin (0.3 mg/kg)-conditioned place preference. Fecal corticoid metabolite levels were analyzed several times throughout the period of housing, and food consumption and body weight were monitored. During place conditioning, heroin induced a significant increase in locomotor activity in both singly and pair housed rats, and the resulting place preference was similar in both groups. However, singly housed rats showed increased motor reactivity to heroin on reconditioning after extinction and displayed significant reacquisition of conditioned place preference, compared with pair-housed animals. Over the 10-wk period of the study, there were no differences in body weight or food consumption between groups. Mild significant increases in relative adrenal gland weight and decreases in relative brain weight were noted in singly housed animals compared with those paired. Significant decreases in nocturnal fecal corticoid metabolite output were noted in both groups, with loss of circadian variation in fecal corticoid levels over the course of the study. These data suggest that male Sprague–Dawley rats, irrespective of single or pair housing, develop reduced hypothalamic–pituitary–adrenal axis activity over time under standard laboratory housing conditions. Single housing can enhance both this effect and sensitivity to the stimulatory and rewarding actions of heroin after withdrawal.

Handling small animals for veterinary and experimental procedures can negatively affect animal wellbeing. We hypothesized that playful handling (tickling) would decrease stress associated with repeated injections in adult laboratory rats, especially those with prior tickling experience. We compared responses of 4 groups of male Sprague–Dawley rats to intraperitoneal injection of saline daily for 10 d. Rats either tickled or not tickled as juveniles (2 min/d for 21 d) were exposed as adults to either a passive hand or tickling for 2 min immediately before and after injections. Rates of vocalization (22- and 50-kHz ultrasonic vocalizations (USV), indicative of negative and positive affective states, respectively, and audible calls indicative of pain and discomfort) were quantified before, during, and after injection. Tickling before and after injection, especially when combined with juvenile tickling experience (ending 40 to 50 d earlier), increased 50-kHz USV rates before and after injection, reduced audible call rate during injection, and decreased the duration of the injection procedure. The treatments did not affect indicators of physiologic stress (body weight change; fecal corticosteroid levels). We conclude that playful handling performed in association with a mildly aversive procedure serves as a useful refinement by inducing a positive affective state that mitigates the aversiveness of the procedure and makes rats easier to handle, especially when they have been accustomed to tickling as juveniles.

Examination of ventilated rat racks prior to semiannual sanitation revealed silicone nozzles and ventilation ports that were partially or completely occluded with granular debris. We subsequently sought to document performance standards for rack sanitation and investigate the effect of ventilation port occlusion on rack function and animal husbandry practices. We hypothesized that individually ventilated cages with occluded airflow would require more frequent cage changes, comparable to those for static cages (that is, every 3 to 4 d). Sprague–Dawley rats were housed under one of 4 conditions: no airflow occlusion, occluded air-supply inlet, occluded air-exhaust outlet, and occlusion of both inlet and outlet. Cages were changed when daily ammonia concentration exceeded 20 ppm or after 14 d had elapsed. Most cages with unoccluded or partial airflow occlusion remained below the 20 ppm limit until day 12 or 13. Cages with occlusion of both inlet and outlet exceeded 20 ppm ammonia by as early as day 5. Airflow was significantly lower in cages with occlusion of both inlet and outlet airflow. Weekly inspection revealed that occlusion of ventilation ports was detectable by 3 mo after semiannual sanitation. This study demonstrates that silicone nozzles should be removed prior to rack sanitation to improve the effectiveness of cleaning ventilation ports and nozzles. While the rack is in use, silicone nozzles and ventilation ports should be inspected regularly to identify occlusion that is likely to diminish environmental quality in the cage. Intracage ammonia levels are significantly higher when both inlet and outlet airflow are occluded.

After surgery, rodents frequently receive acetaminophen-treated drinking water for pain relief, but the effectiveness of this practice is often questioned. Gel products are now available to facilitate the delivery of oral medication to rodents after surgery. We sought to compare consumption of flavored medicated gel and medicated water after surgery and to determine whether providing supplemental acetaminophen in gel form ensures the ingestion of a therapeutic dose of an analgesic after surgery. Male C57BL/6 mice were allocated into 3 groups after surgery: those that received acetaminophen-treated water and untreated gel (MW group); those that received medicated gel and untreated water (MG group); and those that received acetaminophen in both forms (MWG group). Total water and gel consumption were monitored daily from the day before surgery until 2 d thereafter. Mice in the MG group consumed significantly less gel than water, and consequently, the total acetaminophen dose per mouse in the MG group (49 mg/kg) was significantly less than that of the MWG group (347 mg/kg). Although the dose consumed by mice in the MW group (158 mg/kg) approached the targeted acetaminophen dose of 200 mg/kg, only mice in the MWG group actually achieved the desired dose. The results of this study indicate that flavored acetaminophen-containing gel can be used in combination with medicated water to ensure that rodents ingest the targeted dose of medication.

Although relief of postoperative pain is an imperative aspect of animal welfare, analgesics that do not interfere with the scientific goals of the study must be used. Here we compared the efficacy of different analgesic agents by using an established rat model of supraspinatus tendon healing and a novel gait-analysis system. We hypothesized that different analgesic agents would all provide pain relief in this model but would cause differences in tendon-to-bone healing and gait parameters. Buprenorphine, ibuprofen, tramadol–gabapentin, and acetaminophen were compared with a no-analgesia control group. Gait measures (stride length and vertical force) on the operative forelimb differed between the control group and both the buprenorphine (2 and 4 d postsurgery) and ibuprofen (2 d postsurgery) groups. Step length was different in the control group as compared with the tramadol–gabapentin (2 d after surgery), buprenorphine (2 and 4 d after surgery), and ibuprofen (2 d after surgery) groups. Regarding tendon-to-bone healing, the ibuprofen group showed less stiffness at the insertion site; no other differences in tendon-to-bone healing were detected. In summary, the analgesics evaluated were associated with differences in both animal gait and tendon-to-bone healing. This information will be useful for improving the management of postsurgical pain without adversely affecting tissue healing. Given its ability to improve gait without impeding healing, we recommend use of buprenorphine for postsurgical pain management in rats. In addition, our gait-analysis system can be used to evaluate new analgesics.

Effective management of postoperative pain is an essential component of the care and welfare of laboratory animals. A sustained-release formulation of buprenorphine (Bup-SR) has recently been introduced to the veterinary market and has been reported to provide analgesia for as long as 72 h. Using evoked mechanical and thermal hypersensitivity tests, we here evaluated the antinociceptive effects of Bup-SR in a model of incisional pain in rats. Paw withdrawal responses were obtained before and 1 through 4 d after surgery. Rats are assigned to receive Bup-SR (0.3, 1.2, or 4.5 mg/kg SC once) or buprenorphine HCl (Bup HCl, 0.05 mg/kg SC twice daily for 3 d). Responses to mechanical and thermal stimuli in the 1.2 and 4.5 Bup-SR groups did not differ from those of rats in the Bup HCl group. Thermal latency on day 3 in rats that received 0.3 mg/kg Bup-SR was significantly different from baseline, indicating that this dose effectively decreased thermal hypersensitivity for at least 48 h. Marked sedation occurred in rats in the 4.5 Bup-SR group. Our findings indicate that Bup-SR at 0.3 or 1.2 mg/kg SC is effective in minimizing hypersensitivity with minimal sedation for at least 48 h (thermal hypersensitivity) and 72 h, respectively, in the incisional pain model in rats.

Although the safety and efficacy of tricaine methanesulfonate (MS222) for anesthesia of fish are well established, other anesthetics used less commonly in fish have been less extensively evaluated. Therefore, we compared gradual cooling, lidocaine hydrochloride (300, 325, and 350 mg/L), metomidate hydrochloride (2, 4, 6, 8, and 10 mg/L), and isoflurane (0.5 mL/L) with MS222 (150 mg/L) for anesthesia of adult zebrafish. The efficacy and safety of each agent was evaluated by observing loss of equilibrium, slowing of opercular movement, response to tail-fin pinch, recovery time, and anesthesia-associated mortality rates. At 15 min after anesthetic recovery, we used a novel-tank test to evaluate whether anesthetic exposure influenced short-term anxiety-like behavior. Behavioral parameters measured included latency to enter and number of transitions to the upper half of the tank, number of erratic movements, and number of freezing bouts. Behavior after anesthesia was unaltered regardless of the anesthetic used. Efficacy and safety differed among the anesthetics evaluated. Gradual cooling was useful for short procedures requiring immobilization only, but all instrumentation and surfaces that come in contact with fish must be maintained at approximately 10 °C. MS222 and lidocaine hydrochloride at 325 mg/L were effective as anesthetic agents for surgical procedures in adult zebrafish, but isoflurane and high-dose lidocaine hydrochloride were unsuitable as sole anesthetic agents due to high (30%) mortality rates. Although MS222 remains the best choice for generating a surgical plane of anesthe- sia, metomidate hydrochloride and gradual cooling were useful for sedation and immobilization for nonpainful procedures.

Extrauterine pregnancy (EP) is infrequent in mammalian species and occurs when fertilized ova implant and develop outside the uterus. A common outcome is abdominal pregnancy resulting in mummified fetuses (lithopedia). Here we describe an unusual case of abdominal pregnancy with early and near full-term lithopedia. Macroscopic findings supported the diagnosis of lithopedia with distinct age differences and facilitated further characterization of primary ectopia and risk factors leading to this occurrence.