An assessment of ambient noise and other environmental variables in a nonhuman primate housing facility

An assessment of ambient noise and other environmental variables in a nonhuman primate housing facility

Acoustic noise and other environmental variables represent potential confounds for animal research. Of relevance to auditory research, sustained high levels of ambient noise may modify hearing sensitivity and decrease well-being among laboratory animals. The present study was conducted to assess env...

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Veröffentlicht in:Lab animal 2022-08, Vol.51 (8), p.219-226
Hauptverfasser: McLeod, Alexander R., Burton, Jane A., Mackey, Chase A., Ramachandran, Ramnarayan
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631/378/2619
706/648/496
Animal Models
Animal research
Animals
Animals, Laboratory - physiology
Biomedical and Life Sciences
Hearing - physiology
Housing
Housing, Animal
Humans
Humidity
Laboratory animals
Life Sciences
Noise - adverse effects
Primates
Veterinary Medicine/Veterinary Science
Vibration
Well being
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container_title Lab animal
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creator McLeod, Alexander R.
Burton, Jane A.
Mackey, Chase A.
Ramachandran, Ramnarayan
description Acoustic noise and other environmental variables represent potential confounds for animal research. Of relevance to auditory research, sustained high levels of ambient noise may modify hearing sensitivity and decrease well-being among laboratory animals. The present study was conducted to assess environmental conditions in an animal facility that houses nonhuman primates used for auditory research at the Vanderbilt University Medical Center. Sound levels, vibration, temperature, humidity and luminance were recorded using an environmental monitoring device placed inside of an empty cage in a macaque housing room. Recordings lasted 1 week each, at three different locations within the room. Vibration, temperature, humidity and luminance all varied within recommended levels for nonhuman primates, with one exception of low luminance levels in the bottom cage location. Sound levels at each cage location were characterized by a low baseline of 58–62 dB sound pressure level, with transient peaks up to 109 dB sound pressure level. Sound levels differed significantly across locations, but only by about 1.5 dB. The transient peaks beyond recommended sound levels reflected a very low noise dose, but exceeded startle-inducing levels, which could elicit stress responses. Based on these findings, ambient noise levels in the housing rooms in this primate facility are within acceptable levels and unlikely to contribute to hearing deficits in the nonhuman primates. Our results establish normative values for environmental conditions in a primate facility, can be used to inform best practices for nonhuman primate research and care, and form a baseline for future studies of aging and chronic noise exposure. Sound levels, vibration, temperature, humidity and luminance were recorded in an animal facility that houses nonhuman primates; the findings may be used to characterize environmental conditions in similar primate facilities and inform best practices for nonhuman primate research and care.
doi_str_mv 10.1038/s41684-022-01017-9
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706/648/496
Animal Models
Animal research
Animals
Animals, Laboratory - physiology
Biomedical and Life Sciences
Hearing - physiology
Housing
Housing, Animal
Humans
Humidity
Laboratory animals
Life Sciences
Noise - adverse effects
Primates
Veterinary Medicine/Veterinary Science
Vibration
Well being
title An assessment of ambient noise and other environmental variables in a nonhuman primate housing facility
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