An open-loop model for investigating mammalian thermosensitivity

Christopher J. Gordon; Cassandra D. Haley; P. McLennan; Mike Tipton; I. Mekjavic; N. Taylor

doi:10.1016/j.jtherbio.2004.08.043

An open-loop model for investigating mammalian thermosensitivity

Christopher J. Gordon, Cassandra D. Haley, P. McLennan, Mike Tipton, I. Mekjavic, N. Taylor

University of Wollongong

Research output: Contribution to journal › Article › peer-review

Abstract

We have developed, and herein describe, a simple, open-loop model in the rat, in which both skin and hypothalamic temperatures can be modified and clamped. A water-perfused thermode was positioned in the abdomen to drive hypothalamic temperature, and a water-perfused jacket was used to clamp skin temperature. These permitted the independent control of hypothalamic and skin temperatures. The former could be altered between 35 and 41 °C whilst achieving an isothermal skin temperature clamp. Similarly, skin temperature could be modified between 22 and 42 °C whilst hypothalamic temperature was clamped. Maximal hypothalamic heating and cooling rates were: 0.75 and -2.04 °C h-1 100 g-1. We are currently using this animal model to investigate how central thermosensitivity is affected via manipulations of hypothalamic cooling rates.

Original language	English
Pages (from-to)	703-707
Number of pages	5
Journal	Journal of Thermal Biology
Volume	29
Issue number	7-8
DOIs	https://doi.org/10.1016/j.jtherbio.2004.08.043
Publication status	Published - 2004

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10.1016/j.jtherbio.2004.08.043

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title = "An open-loop model for investigating mammalian thermosensitivity",

abstract = "We have developed, and herein describe, a simple, open-loop model in the rat, in which both skin and hypothalamic temperatures can be modified and clamped. A water-perfused thermode was positioned in the abdomen to drive hypothalamic temperature, and a water-perfused jacket was used to clamp skin temperature. These permitted the independent control of hypothalamic and skin temperatures. The former could be altered between 35 and 41 °C whilst achieving an isothermal skin temperature clamp. Similarly, skin temperature could be modified between 22 and 42 °C whilst hypothalamic temperature was clamped. Maximal hypothalamic heating and cooling rates were: 0.75 and -2.04 °C h-1 100 g-1. We are currently using this animal model to investigate how central thermosensitivity is affected via manipulations of hypothalamic cooling rates.",

author = "Gordon, {Christopher J.} and Haley, {Cassandra D.} and P. McLennan and Mike Tipton and I. Mekjavic and N. Taylor",

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T1 - An open-loop model for investigating mammalian thermosensitivity

AU - Gordon, Christopher J.

AU - Haley, Cassandra D.

AU - McLennan, P.

AU - Tipton, Mike

AU - Mekjavic, I.

AU - Taylor, N.

PY - 2004

Y1 - 2004

N2 - We have developed, and herein describe, a simple, open-loop model in the rat, in which both skin and hypothalamic temperatures can be modified and clamped. A water-perfused thermode was positioned in the abdomen to drive hypothalamic temperature, and a water-perfused jacket was used to clamp skin temperature. These permitted the independent control of hypothalamic and skin temperatures. The former could be altered between 35 and 41 °C whilst achieving an isothermal skin temperature clamp. Similarly, skin temperature could be modified between 22 and 42 °C whilst hypothalamic temperature was clamped. Maximal hypothalamic heating and cooling rates were: 0.75 and -2.04 °C h-1 100 g-1. We are currently using this animal model to investigate how central thermosensitivity is affected via manipulations of hypothalamic cooling rates.

AB - We have developed, and herein describe, a simple, open-loop model in the rat, in which both skin and hypothalamic temperatures can be modified and clamped. A water-perfused thermode was positioned in the abdomen to drive hypothalamic temperature, and a water-perfused jacket was used to clamp skin temperature. These permitted the independent control of hypothalamic and skin temperatures. The former could be altered between 35 and 41 °C whilst achieving an isothermal skin temperature clamp. Similarly, skin temperature could be modified between 22 and 42 °C whilst hypothalamic temperature was clamped. Maximal hypothalamic heating and cooling rates were: 0.75 and -2.04 °C h-1 100 g-1. We are currently using this animal model to investigate how central thermosensitivity is affected via manipulations of hypothalamic cooling rates.

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JO - Journal of Thermal Biology

JF - Journal of Thermal Biology

IS - 7-8

ER -

An open-loop model for investigating mammalian thermosensitivity

Abstract

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