This site is intended for healthcare professionals

Go to /sign-in page

You can view 5 more pages before signing in

Go to /pro/cpd-dashboard page

This page is worth 0.05 CPD credits. CPD dashboard

Go to /account/subscription-details page

This page is worth 0.05 CPD credits. Upgrade to Pro

Reduced heat loss response

Last reviewed dd mmm yyyy. Last edited dd mmm yyyy

Authoring team

Physiological mechanisms to reduce heat loss include:

  • reduced sweating: however, minimal effect because sweating does not tend to occur at temperatures lower than 36 degrees centigrade. Insensible losses are still present and cannot be regulated.
  • piloerection: the sympathetic nervous system stimulates the arrectores pilorum smooth muscle in skin to raise hairs up from the skin surface. This 'traps' a layer of insulating air in animals with fur, so reducing heat loss by conduction and radiation. The response is present in Man - characterised by 'goose flesh' - but is functionally unimportant due to the sparsity of hairs.
  • vasoconstriction: the posterior hypothalamus increases sympathetic vasoconstriction of arteriolar and pre-capillary smooth muscle. This results in less blood travelling through the superficial arcades of the skin, losing heat energy in transit. Also, vasoconstriction aids the counter current heat exchange mechanism between arteries and their associated venae comitantes.

Create an account to add page annotations

Annotations allow you to add information to this page that would be handy to have on hand during a consultation. E.g. a website or number. This information will always show when you visit this page.

The content herein is provided for informational purposes and does not replace the need to apply professional clinical judgement when diagnosing or treating any medical condition. A licensed medical practitioner should be consulted for diagnosis and treatment of any and all medical conditions.

Connect

Copyright 2024 Oxbridge Solutions Limited, a subsidiary of OmniaMed Communications Limited. All rights reserved. Any distribution or duplication of the information contained herein is strictly prohibited. Oxbridge Solutions receives funding from advertising but maintains editorial independence.