Journal ArticleDOI
A New Simplified Bioheat Equation for the Effect of Blood Flow on Local Average Tissue Temperature
Sheldon Weinbaum,Latif M. Jiji +1 more
TLDR
A new simplified three-dimensional bioheat equation is derived to describe the effect of blood flow on blood-tissue heat transfer and shows that the vascularization of tissue causes it to behave as an anisotropic heat transfer medium.Abstract:
A new simplified three-dimensional bioheat equation is derived to describe the effect of blood flow on blood-tissue heat transfer. In two recent theoretical and experimental studies [1, 2] the authors have demonstrated that the so-called isotropic blood perfusion term in the existing bioheat equation is negligible because of the microvascular organization, and that the primary mechanism for blood-tissue energy exchange is incomplete countercurrent exchange in the thermally significant microvessels. The new theory to describe this basic mechanism shows that the vascularization of tissue causes it to behave as an anisotropic heat transfer medium. A remarkably simple expression is derived for the tensor conductivity of the tissue as a function of the local vascular geometry and flow velocity in the thermally significant countercurrent vessels. It is also shown that directed as opposed to isotropic blood perfusion between the countercurrent vessels can have a significant influence on heat transfer in regions where the countercurrent vessels are under 70-micron diameter. The new bioheat equation also describes this mechanism.read more
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Journal ArticleDOI
Mathematical modeling of freezing and thawing process in tissues: a porous media approach
Sushil Kumar,V. K. Katiyar +1 more
TL;DR: In this article, a mathematical model has been developed to study the phase change phenomena during the freezing and thawing process in biological tissues using porous media approach, effective heat capacity formulation is used for phase change problem.
Journal ArticleDOI
Analysis of the Weinbaum-Jiji Model of Blood Flow in the Canine Kidney Cortex for Self-Heated Thermistors
TL;DR: The Weinbaum-Jiji equation can be applied to situations where: 1) the vascular anatomy is know; 2) the blood velocities are known; 3) the effective modeling volume includes many vessels; and 4) the vessel equilibration length is small compared to the actual length of the vessel.
Journal ArticleDOI
Laser-induced hyperthermia of nanoshell mediated vascularized tissue – A numerical study
TL;DR: Laser-induced hyperthermia treatment of tumor in a 2-D axisymmetric tissue embedded with moderate size blood vessels is studied and effects of power density, laser exposure time, beam radius, diameter of blood vessel and volume fractions of nanoshells on temperature spread in the tissue are analyzed.
Journal ArticleDOI
Yawning Reduces Facial Temperature in the High-Yawning Subline of Sprague-Dawley Rats
Jose R. Eguibar,Carlos A. Uribe,Carmen María Aránzazu Cejudo Cortés,Amando Bautista,Andrew C. Gallup +4 more
TL;DR: This study is the first clear demonstration of yawning-induced thermal cooling on the surface of the face, providing convergent evidence that this behavior plays a functional role in thermoregulation.
Journal ArticleDOI
Analysis of thermal conductivity in living biological tissue with vascular network and convection
TL;DR: In this paper, the authors analyzed the heat transfer in living biological tissue and presented an analytical model for the effective thermal conductivity of living biological tissues by taking into account the effects of geometric structures of branching vascular network and convection caused by blood flow.