The Effect of Rate of Heating or Cooling Prior to Heating on Tumor and Normal Tissue Microcirculatory Blood Flow

Overview

Journal Biorheology

Publisher Sage Publications

Specialty Biophysics

Date 1984 Jan 1

PMID 6487766

Citations 7

Authors

M Dewhirst

J F Gross

D Sim

P Arnold

D Boyer

Affiliations

Soon will be listed here.

Abstract

Single vessel responses to hyperthermia were studied in tumor and normal tissues using a transparent access window chamber. Rates of heating less than or equal to .68 degrees C/minute preserved relatively better vascular function in normal than tumor tissue. A rate of heating of 1.0 degrees C/minute lowered normal tissue statis temperatures so they were no different from tumor. Cooling to 30 degrees C prior to heating slowed normal arteriolar flows to less than 5% of 38 degrees C controls. Heating resulted in increased flow in those vessels, but maximum flows never exceeded 5% of flows achieved in similar vessels which were not cooled first. The implications of this work are that rate of heating and cooling prior to heating can alter normal tissue vascular response to heat in a way that could prove deleterious to maintaining efficient vascular function in that tissue relative to tumor.

Citing Articles

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Accurate Three-Dimensional Thermal Dosimetry and Assessment of Physiologic Response Are Essential for Optimizing Thermoradiotherapy.

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Overheating or overcooling: heat transfer in the spot to fight against the pandemic obesity.

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THERMAL DOSE REQUIREMENT FOR TISSUE EFFECT: EXPERIMENTAL AND CLINICAL FINDINGS.

Dewhirst M, Viglianti B, Lora-Michiels M, Hoopes P, Hanson M Proc SPIE Int Soc Opt Eng. 2014; 4954:37.

PMID: 25301982 PMC: 4188373. DOI: 10.1117/12.476637.

Tumour thermotolerance, a physiological phenomenon involving vessel normalisation.

Dings R, Loren M, Zhang Y, Mikkelson S, Mayo K, Corry P Int J Hyperthermia. 2011; 27(1):42-52.

PMID: 21204622 PMC: 3086848. DOI: 10.3109/02656736.2010.510495.