AJP - Regulatory, Integrative and Comparative Physiology, Vol 253, Issue 1 128-R135, Copyright © 1987 by American Physiological Society
Significance of vessel size and type in vascular heat transfer
D. E. Lemons, S. Chien, L. I. Crawshaw, S. Weinbaum and L. M. Jiji
This study was undertaken to gain a better understanding of the fundamental
mechanisms of micro- and macrovascular heat transfer by experimentally
identifying those vessels most important in the process. Tissue temperature
fields around thermally nonequilibrated vessels were determined using a
small temperature sensor that was guided through the rabbit thigh to
generate a detailed temperature map. The measurements revealed that the
lower limit of vessel size for thermal nonequilibration was 100 microns for
arteries and 400 microns for veins. Local temperature fields were found
around four of the five (80%) arteries that were greater than 300 microns
in diameter but in only 3 of the 12 (25%) veins greater than 400 microns.
These experimental results are in good agreement with previously published
theoretical studies (5) in which it was concluded that thermal
equilibration in the branching countercurrent vascular network of the
rabbit limb occurs in vessels an order of magnitude larger than the
capillaries. In those studies the smallest vessels capable of carrying heat
were predicted to be 50 microns ID with the major blood tissue heat
exchange occurring in vessels greater than 100 micron ID. These findings
contrast with the view that most heat transfer occurs in the capillaries
and suggest that vascular heat transfer analysis must take into account the
vascular architecture of the 50- to 1,000-micron vessels where most heat
transfer occurs.
