Regulatory guidelines and best practices in the care of research animals allow diets milled for laboratory animals to be used within 180 d of formulation but otherwise permit latitude and professional judgment in how and when feed is offered. As such, practices at some research institutions allow for the replenishment (‘topping up’) of fresh chow over that existing in the cage food hopper, rather than complete replacement of the diet on a regular basis. To determine the depletion rate of a pelleted diet as fed from a conventional overhead food hopper, the consumption of full hoppers of food was measured for breeding pairs of mice in production and gender-specific groups of weanlings and juvenile mice kept in ventilated cages at 71.9 ± 0.2 °F (approximately 22.6 °C) and 40% ± 5% relative humidity. Breeding pairs of mice depleted 97% of a 250-g ration within 44 d of offering and consumed diet at a rate of 4.7 ± 0.5 g per mouse daily. Gender-grouped weanling and juvenile mice housed 5 to 6 per cage exhausted more than 99% of a 500-g ration of diet in 24 d and consumed chow at a rate of 3.4 ± 0.3 g per animal daily. These findings suggest that breeding pairs and groups of mice kept 5 to 6 per cage deplete feed at such a rate that diets can be fed by using replenishment provided diet is offered within 5 mo of the milling date.
Little is known about the prevalence of zoonotic infections among laboratory animal care technicians (LAT). Q fever, a disease caused by Coxiella burnetii, is a known occupational hazard for persons caring for livestock. We sought to determine the seroprevalence of C. burnetii antibodies among LAT and to identify risk factors associated with C. burnetii seropositivity. A survey was administered and serum samples collected from a convenience sample of 97 LAT. Samples were screened by using a Q fever IgG ELISA. Immunofluorescent antibody assays for phase I and phase II IgG were used to confirm the status of samples that were positive or equivocal by ELISA; positive samples were titered to endpoint. Antibodies against C. burnetii were detected in 6 (6%) of the 97 respondents. In our sample of LAT, seropositivity to C. burnetii was therefore twice as high in LAT as compared with the general population. Age, sex, and working with sheep regularly were not associated with seropositivity. Risk factors associated with seropositivity included breeding cattle within respondent's research facility, any current job contact with waste from beef cattle or goats, and exposure to animal waste during previous jobs or outside of current job duties. Only 15% of responding LAT reported being aware that sheep, goats, and cattle can transmit Q fever. Research facilities that use cattle or goats should evaluate their waste-management practices and educational programs in light of these findings. Additional efforts are needed to increase awareness among LAT regarding Q fever and heightened risk of exposure to infectious materials. Physicians should consider the risk of infection with C. burnetii when treating LAT with potential occupational exposures.