Paul M. Killough scite author profile

Paul M. Killough

3Publications

28Citation Statements Received

2Citation Statements Given

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Affiliations

Office of Research Services, Research Triangle Park Foundation, Environmental Protection Agency

Publications

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Dynamics of behavioral thermoregulation in the rat

Gordon

Lee

Chen

et al. 1991

American Journal of Physiology-Regulatory, Integrative and Comp

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Past studies have found that the laboratory rat placed in a temperature gradient prefers temperatures that are markedly below its lower critical ambient temperature (LCT), whereas other rodents (e.g., mouse, hamster, and guinea pig) generally select thermal environments associated with minimal metabolic expenditure. To further study the rat's thermoregulatory behavior, a temperature gradient was designed to monitor the selected ambient temperature (STa) and motor activity (MA) of food-deprived rats of the Long-Evans (LE), Fischer 344 (F344), and Sprague-Dawley (SD) strains over a 22-h period. All three rat strains selected relatively cool STas of 21-26 degrees C during the first 1-3 h in the temperature gradient. This was followed by a gradual increase in the STa that peaked at 4 (F344) to 6 h (SD and LE) after being placed in the gradient. The LE strain had a significantly lower STa during the initial period in the gradient. There were slight decreases in the STa during the nocturnal phase in the F344 and SD strains concomitant with marked increases in MA. These results indicate that the rat requires a relatively long adjustment period in a temperature gradient before it exhibits STas that are associated with minimal metabolic expenditure. Given adequate time for accommodation, behavioral thermoregulatory responses of the rat appear to be similar to those of other rodents.

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Behavioral determination of the preferred foot pad temperature of the mouse

Gordon

Becker

Killough

et al. 2000

Journal of Thermal Biology

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A novel water delivery system for administering volatile chemicals while minimizing chemical waste in rodent toxicity studies

et al. 2010

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Rodent toxicity studies typically use water bottles to administer test chemicals via drinking water. However, water bottles provide inconsistent exposure of volatile chemicals due to varying headspace, and lead to excessive waste of test material. To refine drinking water toxicity studies in rodents by enhancing sample quality and consistency, and minimizing waste, we designed and implemented a novel water delivery system that keeps the water chilled, headspace free and protected from light. Materials used were resistant to chemical interaction. In this gravity-fed system, a 6-L Teflon w water bag, stored in a polystyrene cooler on the cage rack, was connected to a stainless steel manifold delivering water to five cages via specialized drinking valves. Due to the absence of headspace in the water bag, this system allows consistent exposure of volatile chemicals. In addition, small diameter tubing throughout the system reduces the amount of test material residing in the system and minimizes chemical waste.

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Paul M. Killough

Dynamics of behavioral thermoregulation in the rat

Behavioral determination of the preferred foot pad temperature of the mouse

A novel water delivery system for administering volatile chemicals while minimizing chemical waste in rodent toxicity studies

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