Mouse hepatitis virus (MHV) is the most prevalent virus that infects mice, and most MHV strains are enterotropic. Experiments were performed to elucidate the duration of enterotropic MHV-Y shedding by immunocompetent BALB/c and C57BL/6 mice and immunocompromised B and T cell-deficient mice. Although the use of molecular diagnostics to detect MHV infection is increasing, it is unclear whether the viral RNA detected is always infectious. The ability to detect MHV-Y transmission to sentinel mice exposed directly to infected mice or to soil bedding from infected mice was compared with reverse transcriptase–polymerase chain reaction-based detection of viral RNA in the feces. The BALB/c mice developed subclinical intestinal infection, and transmitted MHV-Y for four weeks. The C57BL/6 mice also developed subclinical intestinal infection, but only transmitted virus for two weeks. The T cell-deficient mice developed severe disseminated disease by two weeks and transmitted virus for four weeks. The B cell-deficient mice developed subclinical intestinal infection and transmitted virus for longer than three months, although virus RNA was not detected in feces late in the infection. Viral RNA detected in the feces of infected mice was almost always infectious. Non-infectious RNA was detected in a few mice for several days after transmission had ceased. In addition, constant exposure of naive mice to infected mice, via the use of serial sentinels, prolonged viral transmission.

A porcine adult ICU model would be useful for several avenues of investigation relevant to the care of critically ill patients. The purpose of the experiments reported here was to test the feasibility of such a model, using healthy swine. Swine (n = 4; body weight, 76 ± 5 kg) were instrumented with endotracheal, bladder, and central arterial and venous catheters, and were admitted to the intensive care unit (ICU) while undergoing mechanical ventilation under the continuous care of nurses. Cardiopulmonary parameters were monitored continuously, and serum biochemical parameters were measured intermittently. Survival was seven days in subject 1 and five and a half days in subject 2. Subjects 3 and 4 survived an abbreviated protocol (44 and 41 h, respectively). Care of the subjects was complicated by iatrogenic hemorrhage (n = 3), pneumonia (n = 2), and acute respiratory distress syndrome (n = 1). One subject was free of complications. Critically ill swine ≥ 70 kg can survive mechanical ventilation in the ICU for up to seven days. When iatrogenic injury occurs, swine respond well to clinical care protocols. Further testing is needed to develop a reproducible model and determine whether healthy swine can survive the ICU environment for longer than 41 h.

Helicobacter bilis is widespread among research mouse colonies. Serodiagnosis of Helicobacter infections involves use of bacterial lysates or membrane antigen preparations that lack specificity, necessitating the need to identify a specific and sensitive antigen. A previously reported recombinant protein (P167) was evaluated for use as an H. bilis specific antigen for serologic testing. Seventy-six mice naturally infected with Helicobacter spp. were identified from commercially bred or sentinel mice. Infection was confirmed and speciated by use of cecal specimen culture and fecal polymerase chain reaction (PCR) analysis, followed by restriction enzyme digest of the amplicon. Forty-one mice were determined to be monoinfected with H. bilis, 27 mice were determined to be monoinfected with H. hepaticus, and eight mice were infected with another species of Helicobacter. Serum was diluted 1:100 to evaluate the immunoreactivity to enzyme-linked immunosorbent assay preparations of H. bilis membrane extract and the immunodominant C and D fragments of the p167 gene. The sensitivity was greatest for the membrane extract preparation (76%), whereas sensitivity to the P167C and D recombinants was lower (62 and 51%, respectively). However, the specificity of the membrane extract preparation was low (87%), compared with the much improved specificity of the recombinant P167C and D fragments (96 and 96%, respectively). These findings suggest that the recombinant P167C and D fragments of the p167 gene product from H. bilis can be used as specific reagents in the serodiagnosis of H. bilis infection in mice.

Studies involving substantially lengthy rat surgeries require extended anesthesia periods and often involve use of sodium pentobarbital (PENT). Results of previous experiments from our laboratory and elsewhere suggest that the duration of anesthesia and the need for anesthetic supplementation may differ between male and female rats. In the study reported here, we induced anesthesia in male and female Sprague Dawley rats (n = 10 for each sex), using a three-step procedure: brief induction with 5% isoflurane inhalation, PENT (50 mg/kg of body weight, i.p), combined with 50 mg of PENT/kg given intragastrically. Adequate anesthesia depth was confirmed by absence of a response to a toe pinch. Plasma PENT concentration was measured at sequential 20-min periods and was found, on average, to be lower (P = 0.03) in male (13.28 ± 1.13 μg/ml) than in female (20.27 ± 0.66 μg/ml) rats, and decreased more rapidly (P = 0.003) in male rats. Distribution to a fractionally greater lean body mass and more rapid metabolism in males may account for these differences and explain the need for anesthetic supplementation in male, but not female rats.

The effects of nonylphenol (NP) on plasma vitellogenin (VTG) and steroid hormone values, as well as hepatic cytochrome P450 1A (CYP1A) and glutathione-S-transferase (GST) activities, were measured in goldfish (Carassius auratus) fed a diet with a low (formulated diet, FD) or high (commercial diet, CD) content of phytoestrogens, including genistein and daidzein. Male goldfish with secondary sexual characteristics were exposed to nominal NP concentrations of 0.1, 1.0, 10, and 100 μg/L in the water for 28 days while being fed either the FD or CD diet at 1.0% of body weight daily. Plasma VTG concentration in male goldfish exposed to 100 μg of NP/L and fed FD was significantly higher than that in the FD-fed control fish at seven, 21, and 28 days. However, fish of the CD-fed group exposed to 100 μg of NP/L had significantly higher plasma VTG concentration than did fish of the CD-fed control group at 28 days only. Moreover, plasma VTG concentration in fish of the CD-fed control group was about 100-fold higher than that in fish of the FD-fed control group. Although the estrogenic effects of a phytoestrogen-enriched diet caused a decrease in testosterone and/or 11-ketotestosterone values in the CD-fed fish, there was no dose-response relationship between androgen and amount of NP to which the FD-fed fish were exposed. Nonylphenol does not have appreciable effects on hepatic CYP1A and GST activities in male goldfish at concentrations as low as 100 μg/L. These results suggest that NP has estrogenic activity in male goldfish at the nominal concentration of 100 μg/L, and that phytoestrogens, such as genistein and daidzein, in the CD inhibit an aspect(s) of steroid release and/or synthesis common to testosterone and 11-ketotestosterone. However, results of in vivo screening assays for endocrine-disrupting chemicals may be seriously affected by phytoestrogens in the diet, depending on content or potency of estrogenic activity; therefore, we recommend use in research of a standardized, open-formula diet in which estrogenic substances have been reduced to amounts that do not alter the results of studies that are influenced by exogenous estrogens.

Mice are generally housed in groups in cages lined with an absorbent bedding material at ambient temperature (T_a) of 20 to 24°C, which is comfortable for humans, but cool for mice. Little is known about the effects of bedding on thermoregulation of group-housed mice. To determine whether bedding material affects thermoregulatory stability, core temperature (T_c) and motor activity (MA) were monitored by use of radiotelemetry in female CD-1 mice housed in groups of four in a standard plastic cage at T_a of 23.5°C. Ten groups were tested using three types of bedding material: a deep layer of heat-treated wood shavings (DWS) that allowed mice to burrow, a thin layer of wood shavings (TWS) just covering the bottom of the cage floor, or a layer of beta chips (BC). Mice could not burrow in the TWS or BC. The T_c and MA were affected by bedding type and time of day. Mice housed with DWS maintained a significantly higher T_c (ΔT_c = 1.0°C) during the day, compared with that in mice housed with TWS and BC. During the night, T_c and MA were high in all groups and there was no effect of bedding type on T_c or MA. Effect of bedding on metabolic rate (MR) was estimated by measuring oxygen consumption for six hours in groups of four mice at T_a of 23.5°C. The T_c was significantly reduced in mice housed on the TWS and BC, but MR was unaffected by bedding type. There was a trend for higher MR in mice on BC. Compared with use of other bedding materials, housing mice on DWS and comparable materials provides an environment to burrow, thus reducing heat loss. The effects of bedding material on temperature regulation may affect rodent health and well being. Moreover, bedding will affect variability in toxicologic and pharmacologic studies whenever an endpoint is dependent on body temperature.

Evaluation of a pharmaceutical's safety includes assessment of the potential for ophthalmologic toxicity. These nonclinical studies commonly use various outbred stocks of mice. Pretest indirect ophthalmoscopic examinations in the commonly used outbred stock Hsd:ICR(CD-1) indicated that retinal degeneration was a problem in this particular outbred stock of mice. This prompted the authors to examine other stocks of outbred mice routinely used in the performance of nonclinical safety studies. Groups of mice were observed over a 13-week period to determine the progression and changing incidence of retinal degeneration. Light intensity in the room and caging was measured during the study, and it was determined that light did not play a direct role in the progression of the retinal degeneration observed during the study. Histomorphologic examination of the mouse eyes was performed at the end of the study to confirm the presence of retinal degeneration observed after ophthalmoscopic examination. The incidence of retinal atrophy in the various outbred stocks of mice was: Crl:CFW(SW)BR (98.3%), Tac(SW)fBR (80%), Tac:Icr:Ha(ICR)fBR (75%), Hsd:ICR(CD-1) (43.3%), and Crl:CF-1BR (3.0%). Retinal atrophy was not observed in the following outbred mice stocks: Crl:CD-1(ICR)BR, HsdWin:CFW1, and Hsd:NSA(CF-1). On the basis of these findings, it is highly recommended that pretest ophthalmologic screening be performed on mice to obviate pre-existing conditions from confounding or invalidating nonclinical study results.

Background and Purpose: Guinea pigs are one of the most difficult rodents to anesthetize safely, and as a consequence, there is a paucity of reports regarding the effects of anesthesia on their cardiorespiratory variables. We used long-term indwelling cannulas for studying the guinea pig in the conscious state, and subsequently investigated the effects of four types of injectable anesthetic regimens on cardiorespiratory variables.Methods: Using barometric plethysmography (conscious: long-term cannulated, n = 11; no cannulation, n = 28) or trachea-out plethysmography (anesthetized: n = 7 for each of the four groups), we recorded ventilatory, cardiovascular, metabolic, and arterial gas variables during air breathing and in response to 10 min of hypoxia (8% O₂) and 10 min of hypercapnia (8% CO₂). The four anesthetic regimens tested were: Saffan (infused at 9.75 mg/kg of body weight/h, i.v.); ketamine/xylazine (14.6/3.7 mg/kg/h, i.v.); pentobarbitone (8.3 mg/kg/h, i.v.) plus Innovar Vet (0.15 mg/kg every 1 to 1.5 h, s.c.); or pentobarbitone alone (22 mg/kg/h, i.v.).Results: The least depressive anesthetic with regard to ventilation (V_E) was ketamine/xylazine. Air breathing was depressed by only 17% (cf. approx 50 to 60% for all other regimes), and the V_E responses to hypoxia and hypercapnia were attenuated the least. All anesthetics equally depressed mean arterial blood pressure (from 70 mmHg to 56 mmHg) and ketamine/xylazine was the only anesthetic to reduce heart rate (from 260 beats/min to 198 beats/min).Conclusion: Although all anesthetics induce cardiorespiratory depression to some extent, the use of ketamine/xylazine is recommended for future use in respiratory studies of the guinea pig where anesthesia cannot be avoided.

During the fall of 2001, a tuberculosis outbreak caused by Mycobacterium bovis occurred in a conditioned colony of rhesus (Macaca mulatta) and cynomolgus (Macaca fascicularis) macaques at Stanford University School of Medicine. During this outbreak, we evaluated the diagnostic performance of a new in vitro tuberculosis screening test (PRIMAGAM). The PRIMAGAM test measures the interferon-gamma (IFNγ) response to purified protein derivatives (PPDs) of M. bovis and M. avium. On the basis of the results of the last test administered before necropsy, the PRIMAGAM test had good sensitivity (68%) and excellent specificity (97%), compared with the disease status, as determined by the presence or absence of gross and/or histologic lesions indicative of tuberculosis. By contrast, sensitivity and specificity of the tuberculin skin test (TST) was 84 and 87%, respectively. Both tests suffered from intermittent positive and negative reactions on repeat testing. Overall, however, there was no significant difference (P = 0.09, McNemar's χ²-test) and moderate agreement (κ = 0.52) between these two tests. Lastly, the IFNγ response to bovine PPD was significantly lower in infected cynomolgus macaques. Moreover, each test failed to detect tuberculosis in three cynomolgus macaques. Fortunately, they were different animals; therefore, we recommend the parallel use of the TST and PRIMAGAM test for maximal overall sensitivity in a tuberculosis screening program, especially for cynomolgus macaques.

An athymic nude mouse with severe head tilt due to otitis media was identified. Within weeks of identification of this first case, immune-deficient mice of various genotypes from the same facility were similarly affected, and cases from other facilities were found within two months. Culture of ear exudate specimens from affected mice yielded bacteria that were initially identified as Burkholderia cepacia, a plant pathogen considered an important opportunistic pathogen in persons with cystic fibrosis or chronic granulomatous disease. Several of these isolates, however, were subsequently identified as B. gladioli on the basis of results of biochemical analysis and a species-specific polymerase chain reaction (PCR) assay. Genotyping analysis revealed clonality among the isolates, indicating a shared strain among affected mice. A 16S rDNA-based PCR assay specific for the genera Burkholderia and Ralstonia, and a selective culture medium were used in efforts to characterize the epidemiology of this outbreak. In addition to culture of specimens from the oropharyngeal cavity of affected mice, samples were obtained from the environment, feces, sipper tubes, drinking water, and soiled bedding from cages of affected individuals. Burkholderia gladioli was most consistently detected in oropharyngeal swab specimens from affected mice. The PCR assay was equivalent to selective culture in identifying mice in the carrier state that did not have clinical signs of infection. However, neither detection method had sufficient sensitivity to reliably identify all carrier mice, causing the organism to persist at low levels unless entire colonies of immune-deficient mice were removed. The organism was highly resistant to antibiotic therapy. The source and epidemiology of this organism remain unknown. This epizootic serves as an important reminder that immunocompromised rodent colonies may harbor important human opportunistic pathogens.

Hemochromatosis was diagnosed in a 14-year-old, male, red ruffed lemur (Varecia variegata ruber) on the basis of abnormal results of serum biochemical analysis, including high serum ferritin and transferrin saturation values, and of liver biopsy. Therapy included chelation, using desferoxamine to remove excess iron and S-adenosylmethionine to improve liver function, and monthly peripheral blood removal by phlebotomy to reduce total body iron content. Response to treatment was assessed by changes in the lemur's attitude and appetite, as well as variations in serum biochemical and iron panel values. Initial improvement was associated with the onset of therapy. After 56 days of treatment, results of serum biochemical analysis indicated a decrease in iron panel values Treatment was temporarily discontinued from days 56 to 65, and the lemur's condition worsened, so therapy was re-instituted. However, the lemur died of hepatocellular carcinoma on day 110 of treatment.