The ionic composition of water is important for all fish. In the present study, the effects of total hardness and Ca²⁺:Mg²⁺ ratio on early life stages of rare minnows (Gobiocypris rarus), a promising laboratory fish in China, were evaluated. Paired parent fish were transferred to spawning aquaria (16 L) containing water at different total hardness and Ca:Mg ratios, and their offspring were further cultured at 25 ± 1 °C and 12:12-h light:dark photoperiod. Fertilization rates were not affected by total hardness to 480 mg L^–1 CaCO₃, but egg size decreased with increasing total hardness. Ca:Mg ratios less than 1:20 or greater than 8:1 had adverse influences on hatching, feeding, development, larval growth, and survival. Embryos and larvae incubated in Mg²⁺- and Ca²⁺-deficient waters exhibited high malformation rates and high mortality. Our results demonstrate that rare minnows can adapt to a wide range of total hardness and Ca:Mg ratios, although an imbalance between Ca²⁺ and Mg²⁺ in water is toxic to this species. To increase the comparability and usefulness of test results, we recommend the use of reconstituted or drinking water of defined total hardness and Ca:Mg ratio for the culture and toxicity testing of rare minnows.

Chlamydia pneumoniae (Cpn), a common respiratory pathogen of humans, is associated with human cardiovascular disease and the acceleration of atherosclerosis in hyperlipidemic animal models. Our laboratory has demonstrated that murine norovirus (MNV), a prevalent infection of laboratory mice, can unpredictably alter atherosclerosis in hyperlipidemic Ldlr^–/– and ApoE^–/– mice. Given that MNV has a tropism for macrophages and may exacerbate atherogenesis, we investigated whether coinfection with MNV and Cpn might alter macrophage phenotypes in vitro and atherosclerosis in ApoE^–/– mice. In the presence of oxidized low-density lipoprotein, coinfection of ApoE^–/– bone marrow-derived macrophages (BMDM) with MNV and Cpn resulted in significant increases in gene expression of IL6, MCP1, iNOS, and TNFα compared with Cpn-monoinfected BMDM. On the basis of these findings, we hypothesized that concurrent MNV–Cpn infection might increase plaque lesion size in vivo. As expected, Cpn monoinfection of ApoE^–/– mice increased mean plaque size by 62% compared with that in uninfected mice. However, MNV did not significantly alter plaque lesion size in MNV–Cpn-coinfected mice compared with Cpn-monoinfected mice. There were no differences in aortic cytokines locally at the site of plaque development or in peritoneal macrophages at 1 wk after infection in MNV–Cpn-coinfected mice compared with Cpn-monoinfected mice. MNV was not detected in the aortic tissue of MNV-infected mice at 1 or 8 wk after infection regardless of Cpn status. These data suggest that MNV infection does not appreciably alter plaque development in Cpn-accelerated atherosclerosis in ApoE^–/– mice.

Immunocompetent weanling mice infested with Myocoptes musculinus harbor high mite loads, yet burdens decrease with age. The development of immunity to the parasite may explain this observation. In this study, we followed M. musculinus burdens in Rag1^–/– mice and immunocompetent C57BL/6 controls from 4 to 36 wk of age and compared the clinical signs and body weights of noninfested and infested mice of both strains over time. In addition, histopathology of skin lesions and expression of cytokines and transcription factors associated with Th1- and Th2-type immune responses were assessed. Myocoptes burdens decreased and remained low in B6 mice over time, whereas Rag1^–/– mice showed an initial decrease in burdens after 4 wk of age followed by an increase from 24 to 36 wk. In addition, Rag1^–/– mice had higher burdens than B6 mice over time. Both strains of infested mice exhibited clinical signs of fur mite infestation—including alopecia, poor weight gain, mite-associated debris, and pruritus—and clinical signs positively correlated with the severity of the Myocoptes burden. Histopathology of skin from both strains of infested mice showed decreased lesion severity with age, likely a result of declining mite populations. Finally, compared with noninfested controls, infested B6 mice had increased expression of markers associated with the Th2-type immune response, which increased in magnitude with increasing age and duration of infestation. These results suggest that development of adaptive immunity plays a role in control of fur mite populations and that heavier infestations may result in more severe clinical signs and skin lesions.

Whereas early investigations into ulcerative dermatitis (UD) focused on the possibility of a primary dermatopathology, several recent studies have advocated scratching behavior as a primary driver for UD. The aim of this study was to assess whether B6 mice exhibit excessive scratching under resting conditions or when provoked by epidermal barrier disruption. We hypothesized that B6 mice would exhibit more spontaneous scratching behavior and that B6 mice would be more pruritic after mild epidermal barrier injury compared with the other strains and stock tested. The behavior of the retired breeder female C57BL/6J, DBA/2J, BALB/cByJ, and Crl:CD1 mice was videotaped for 60 min. Behavior filming occurred at 17:15 and at 07:00 the next morning prior to (baseline) and after tape-stripping to initiate epidermal barrier disruption. Scratching duration was recorded as brief (less than 3 s) or prolonged (3 s or longer), on the basis of observations during a pilot study. In contrast to the hypothesis, B6 mice did not scratch significantly more frequently, have more long-duration scratching events, nor have a higher median scratching duration of prolonged scratching as compared with the other types of mice tested. In fact, B6 mice showed the lowest average scratching frequency and duration under both conditions. B6 mice demonstrated increased scratching behavior after epidermal barrier disruption, but the increased scratching did not surpass the rate or duration of scratching in the other types of mice tested. These findings do not support the idea that a strain-related tendency toward exaggerated scratching behavior under resting or epidermal barrier disruption conditions predisposes B6 mice to UD.

MRI is a great diagnostic tool for evaluating exotic animals, particularly in clinical practice and in research with animal models. Here we review various aspects of MRI of reptiles, rodents, and lagomorphs, including the indications for this modality, the preparation of subjects, and protocols for imaging various organs and the musculoskeletal system. Protocols for the anesthesia and immobilization of subjects to facilitate their imaging are discussed also.

The aim of this study was to evaluate the effect of oral enrofloxacin on the epileptic status of Genetic Absence Epilepsy Rats from Strasbourg (GAERS). Five adult female GAERS rats, with implanted extradural electrodes for EEG monitoring, were declared free of clonic seizures after an 8-wk observation period. Enrofloxacin was then added to their drinking water (42.5 mg in 750 mL), and rats were observed for another 3 days. The number of spike-and-wave discharges and mean duration of a single discharge did not differ before and after treatment, but 2 of the 5 rats developed clonic seizures after treatment. Enrofloxacin should be used with caution in GAERS rats because it might induce clonic seizures.

Five birds in a captive zebra finch research colony were diagnosed with systemic amyloidosis within a 7-mo period by means of postmortem Congo red staining and green birefringence under polarized light. The liver was the most frequently and usually the most seriously affected organ, followed by the spleen and then the kidney. All 5 birds had been clinically affected with various inflammatory, infectious, and neoplastic conditions associated with amyloid A (AA) amyloidosis in humans and animals. Immunohistochemistry using antisera against duck AA protein revealed that tissues from 2 of the 5 birds were positive for the presence of AA protein and systemic inflammation-associated amyloidosis. Although the development of AA amyloidosis has been associated with chronic inflammation, trauma, and various infectious and neoplastic diseases as well as possible genetic predispositions and stresses linked to overcrowding, the root causes for individual cases of AA amyloidosis are incompletely understood. As far as we know, this report is the first description of AA amyloidosis in captive, research zebra finches.

Insulin resistance occurs during various stages of the estrus cycle in dogs. To quantify the effects of proestrus–estrus (PE) and determine whether PE affects liver insulin sensitivity, 11 female mongrel dogs were implanted with sampling and intraportal infusion catheters. Five of the dogs (PE group) entered proestrus after surgery; those remaining in anestrus were controls. The dogs were fasted overnight, [3-³H]glucose and somatostatin were infused through peripheral veins, and glucagon was infused intraportally. Insulin was infused intraportally, with the rate adjusted to maintain arterial plasma glucose at basal levels (PE, 294±25 μU/kg/min; control, 223±21 μU/kg/min). Subsequently the insulin infusion rate was increased by 0.2 mU/kg/min for 120 min (P1) and then to 1.5 mU/kg/min for the last 120 min (P2); glucose was infused peripherally as needed to maintain euglycemia. Insulin concentrations did not differ between groups at any time; they increased 3 μU/mL over baseline during P1 and to 3 times baseline during P2. The glucose infusion rate in PE dogs during P2 was 63% of that in control dogs. Net hepatic glucose output and the endogenous glucose production rate declined 40% to 50% from baseline in both groups during P1; during P2, both groups exhibited a low rate of net hepatic glucose uptake with full suppression of endogenous glucose production. The glucose disappearance rate during P1 and P2 was 35% greater in control than PE dogs. Therefore, PE in canines is associated with loss of nonhepatic (primarily muscle) but not hepatic insulin sensitivity.

Brain MRI scans revealed various occipital horn variants in a pedigreed baboon colony consisting of Papio hamadryas anubis and its hybrids. We retrospectively characterized these variants and evaluated their relationships to epilepsy phenotypes and scalp EEG findings. MRI scans (3D, T1-weighted) from 208 baboons (female, 134 female; male, 74; age [mean ± 1 SD], 16 ± 5 y) were reviewed; 139 (67%) of these animals also underwent scalp EEG previously. Occipital horn variants included elongation (extension of the occipital ventricle behind the mediobasal origin of the calcarine fissure), which affected 23 baboons (11%; 7 bilateral, 9 left, 7 right), and elongation with enlargement (colpocephaly), which occurred in 30 baboons (14%; 7 bilateral, 11 left, 12 right). The incidence of the occipital horn variants did not differ according to age or prenatal or perinatal history. Colpocephaly was associated with craniofacial trauma but not with witnessed seizures. Abnormal scalp EEG findings, including interictal epileptic discharges, did not differ significantly among the occipital horn morphologies. This study is the first radiologic description of occipital horn variants, particularly colpocephaly, in baboons. Whereas colpocephaly is frequently associated with other radiologic and neurologic abnormalities in humans, it is mostly an isolated finding in baboons. Because craniofacial trauma can occur in the setting of seizure-related falls, its increased association with colpocephaly may reflect an increased risk of seizures or of traumatic brain injuries due to seizures. Colpocephaly in baboons needs to be characterized prospectively radiologically, neurologically, histopathologically, and genetically to better understand its etiology and clinical significance.

Hemangiosarcoma is a malignant tumor of vascular endothelial origin that is sporadically reported in rhesus macaques. This report describes the clinicopathologic features of a 1-y-old rhesus macaque with spontaneous disseminated hemangiosarcoma that originally presented as a focal cutaneous mass. Histopathologic examination of multiple tumor foci revealed regions in which the neoplastic cells formed diffuse sheets, as well as the well-defined vascular channels typically associated with hemangiosarcoma. Multiple endothelial cell immunomarkers were used to confirm the diagnosis in this rhesus macaque. The tumor exhibited staining properties consistent with those seen in domestic animals and humans. In addition, to our knowledge, this animal represents the youngest case of any form of spontaneous hemangiosarcoma reported in the rhesus macaque to date.

A 5-y-old multiparous female common marmoset (Callithrix jacchus) presented with acute weight loss of approximately 25% over a 1-wk period. An abdominal mass was apparent on physical examination, and radiographs suggested peritoneal effusion. Exploratory laparotomy revealed hemoperitoneum and an enlarged, gray, hemorrhaging uterus; ovariohysterectomy was performed, and the marmoset recovered. Histologic evaluation of the ovaries and uterus revealed uterine rupture, with invasion of placental villi lined by trophoblasts through the myometrium to the serosal layer. Primary uterine rupture is a rare but serious obstetric event in humans and has been reported only rarely in NHP. This report is the first description of primary uterine rupture during early pregnancy in a common marmoset.