Housing and husbandry of Xenopus laevis affect the quality of oocytes for heterologous expression studies.
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To assess the effect of Xenopus husbandry on oocyte quality for membrane transport physiology experiments, we compared a recirculating-water housing system with a static-water system in a 23-mo study. Two groups of frogs (n = 8) were maintained separately for the entire study: one group was housed in a multiinvestigator centrally managed Xenopus facility, which consists of 33 tanks placed on a shared and recirculating water system; the other group was housed in a satellite facility used by a single investigator and consisting of static tanks placed in a dedicated cold-room. The activity of a heterologously expressed membrane transporter was assessed every 4 to 5 wk for a total of 23 mo. Activity of the mouse cotransporter NKCC1 was assessed through isotopic (86) Rb influx measurements under 2 experimental conditions: stimulation of cotransporter by coinjection of regulatory kinases and by exposure to a hypertonic solution. The results showed a significant difference in the level of ion fluxes under these 2 experimental conditions between the 2 groups of oocytes. During the entire period, oocytes isolated from frogs maintained in the static facility demonstrated consistently robust NKCC1 function, whereas oocytes isolated from frogs maintained in the recirculating facility showed inconsistent and weaker cotransporter function. Furthermore, the oocytes isolated from frogs maintained in the recirculating facility showed significant deterioration during the summer months (April to August), a seasonal variation that was muted in frog oocytes maintained in the static facility. (+info)
Training veterinary care technicians and husbandry staff improves animal care.
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Our animal care facility has always relied on an animal health team consisting of veterinarians, veterinary care technicians, and husbandry staff to provide a high level of animal care. As our rodent population increased, it became necessary to modify the roles and responsibilities of these staff members to accommodate the program's expansion. To accomplish that modification, we developed a training program that focused primarily on technicians by using a case-management algorithm. To support our technicians, we provided additional training to animal husbandry staff as they assumed the primary role in the initial assessment of the animals' health. After completing the training, technicians made the transition from simply identifying health issues to actually making decisions for treating and euthanizing rodents. This training program empowered all team members and resulted in a staff that could provide consistent, high-quality veterinary care more efficiently. (+info)
Differences in postsurgical recovery of CF1 mice after intraperitoneal implantation of radiotelemetry devices through a midline or flank surgical approach.
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Minimizing the pain or discomfort of research animals through refinement of surgical techniques is inherent in the humane use of animals in investigative studies. The current approach for intraperitoneal implantation of radiotelemetry devices in mice is a ventral midline incision. An optional surgical approach is a flank incision. We used multidimensional analysis to compare midline and flank approaches for implantation of radiotelemetry devices in regard to time of surgery, activity, temperature, food intake, gel intake, body weight, and vitality scores. A third group was used to evaluate the effects of buprenorphine in healthy mice. The study demonstrated positive benefits related to the flank approach, including quicker surgery times, improved activity levels, more stable temperature homeostasis, smaller losses in body weight, and quicker return to presurgical baseline levels of food intake. In addition, direct effects of buprenorphine included decreases in food intake and body weight, with the effects on body weight lasting approximately 8 d after treatment. Collectively, these results suggest that implantation of intraperitoneal radiotelemetry devices by using a flank approach is beneficial to mice. (+info)
Characterization of cardiac time intervals in healthy bonnet macaques (Macaca radiata) by using an electronic stethoscope.
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Nonhuman primates are used frequently in cardiovascular research. Cardiac time intervals derived by phonocardiography have long been used to assess left ventricular function. Electronic stethoscopes are simple low-cost systems that display heart sound signals. We assessed the use of an electronic stethoscope to measure cardiac time intervals in 48 healthy bonnet macaques (age, 8+/-5 y) based on recorded heart sounds. Technically adequate recordings were obtained from all animals and required 1.5+/-1.3 min. The following cardiac time intervals were determined by simultaneously recording acoustic and single-lead electrocardiographic data: electromechanical activation time (QS1), electromechanical systole (QS2), the time interval between the first and second heart sounds (S1S2), and the time interval between the second and first sounds (S2S1). QS2 was correlated with heart rate, mean arterial pressure, diastolic blood pressure, and left ventricular ejection time determined by using echocardiography. S1S2 correlated with heart rate, mean arterial pressure, diastolic blood pressure, left ventricular ejection time, and age. S2S1 correlated with heart rate, mean arterial pressure, diastolic blood pressure, systolic blood pressure, and left ventricular ejection time. QS1 did not correlate with any anthropometric or echocardiographic parameter. The relation S1S2/S2S1 correlated with systolic blood pressure. On multivariate analyses, heart rate was the only independent predictor of QS2, S1S2, and S2S1. In conclusion, determination of cardiac time intervals is feasible and reproducible by using an electrical stethoscope in nonhuman primates. Heart rate is a major determinant of QS2, S1S2, and S2S1 but not QS1; regression equations for reference values for cardiac time intervals in bonnet macaques are provided. (+info)
Pathology of the laboratory mouse: an International Workshop on Challenges for High Throughput Phenotyping.
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Minimizing animal numbers: the variable-criteria sequential stopping rule.
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The variable-criteria sequential stopping rule (SSR) allows an investigator to use a few subjects at a time to determine whether a planned experiment is worth pursuing without increasing the rate of false discoveries (type I errors). The SSR is appropriate whenever testing a null hypothesis if the experiment can be conducted in stages. The investigator adds a predetermined number of subjects at each stage and tests repeatedly for significance until the experiment is stopped because: (1) a significant effect is detected; (2) the effect is clearly not going to be significant; or (3) the predetermined maximal number of subjects has been reached. Two crucial features of the SSR are that it holds the probability of a type I error constant and maintains excellent power. The method is more efficient than is performing a typical significance test after a power analysis because SSR can require 30% fewer subjects to achieve the same power. The variable-criteria SSR provides a formal method for assuring the use of a minimal number of animals. This article provides practical examples of how to use the SSR in combination with a t test, one-way ANOVA, one-way ANOVA with a planned contrast as the focus of the stopping rule, or, in limited circumstances, multifactorial ANOVA. (+info)