Summary
The responses of seventeen single units to changes in skin temperature were recorded in fifteen guinea-pigs anaesthetized with urethane. All units were located in the subcoeruleus region which has been discussed as part of the thermoafferent system. Thermal stimuli were applied to different skin areas. The receptive fields of sixteen cold-responsive units were found to be parts of the abdominal and thoracic skin. The cold-responsive units could be subdivided into two groups. Ten units showed the known classic cold-responsive steady state response. A short-term thermal adaptation was seen in six units. These units had peak activities at skin temperatures between 22°C and 29°C and decreased their firing rates within 5 to 40 minutes when the temperature of the receptive skin area was kept constant in the range between 20°C and 29°C. This short-term cold-adaptive effect could be reversibly abolished by warming the corresponding skin area for a certain period of time. The short-term adapting neurones could be conceived of as the neurophysiological correlate to cold-adaptive changes in thermogenic responses seen in three guinea-pigs. Oxygen uptake and shivering activity were reduced in animals, which had reached approximately constant skin and core body temperature during sustained external cooling.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Brück, K. & Hinckel, P. (1980). Thermoregulatory noradrenergic and serotonergic pathways to hypothalamic units. J. Physiol.304, 193–202.
Brück, K. & Hinckel, P. (1982). Thermoafferent systems and their adaptive modifications. Pharmac. Ther.17, 357–381.
Dickenson, A.H. (1977). Specific responses of rat raphé neurones to skin temperature. J. Physiol.273, 277–293.
Hensel, H. (1973). Neural processes in thermoregulation. Physiol. Rev.53, 948–1017.
Hensel, H. (1976). Correlations of neural activity and thermal sensation in man. In: Sensory Functions of the Skin, ed. Zotterman, Y., pp. 331–353, Oxford: Pergamon Press.
Hinckel, P., Cristante, L. & Brück, K. (1983). Inhibitory effects of the lower brain stem on shivering. J. Therm. Biol.8, 129–131.
Hinckel, P. & Schröder-Rosenstock, K. (1981). Responses of pontine units to skin-temperature changes in the guinea-pig. J. Physiol.314, 189–194.
Hinckel, P. & Schröder-Rosenstock, K. (1982). Central thermal adaptation of lower brain stem units in the guinea-pig. Pflügers Arch.395, 344–346.
Järvilehto, T. (1973). Neural coding in the temperature sense. Ann. Acad. Sci. Fenn. Ser. B,184, 1–71.
Rössner, W. (1965). Stereotaktischer Hirnatlas vom Meerschweinchen. Lochham/München: Pallas Verlag.
Tindal, J.S. (1965). The forebrain of the guinea-pig in stereotaxic coordinates. J. Comp. Neurol.124, 259–266.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Hinckel, P., Schröder-Rosenstock, K. Central short-term cold adaptation in the guinea-pig. Pflugers Arch. 398, 259–261 (1983). https://doi.org/10.1007/BF00657162
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00657162