Predictions of blood flow from thermal clearance during regional hyperthermia

Predictions of blood flow from thermal clearance during regional hyperthermia

In order to provide a method for estimation of regional blood flow during hyperthermia, a mathematical model has been developed which employs thermal clearance to measure this physiologic parameter. Limbs of mongrel dogs were heated with 2450 megaHertz microwaves to temperatures of 43 degrees C, 45...

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Bibliographic Details
Published in:International journal of radiation oncology, biology, physics Vol. 9; no. 9; p. 1335
Main Authors: Milligan, A J, Conran, P B, Ropar, M A, McCulloch, H A, Ahuja, R K, Dobelbower, Jr, R R
Format: Journal Article
Language:English
Published: United States 01-09-1983
Subjects:
Animals
Body Temperature
Dogs
Forelimb
Hindlimb
Hyperthermia, Induced
Mathematics
Models, Biological
Muscles - blood supply
Neoplasms - blood supply
Prognosis
Regional Blood Flow
Time Factors
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Summary:In order to provide a method for estimation of regional blood flow during hyperthermia, a mathematical model has been developed which employs thermal clearance to measure this physiologic parameter. Limbs of mongrel dogs were heated with 2450 megaHertz microwaves to temperatures of 43 degrees C, 45 degrees C, or 47 degrees C and thermal washout was measured at five minute intervals throughout each treatment period. Calculated blood flow indicates that in response to heat challenge, normal tissue compensates by increasing regional blood flow within the treatment volume. This increase in blood flow continues to a maximum value after which the blood flow begins to decrease. Data indicate that the time for maximum increase in blood flow (induction time) decreases as treatment temperature increases. These induction times were 40 minutes, 25 minutes, and 15 minutes for treatment temperatures of 43 degrees, 45 degrees, and 47 degrees C, respectively. The data also show that the calculated value of peak blood flow is directly related to treatment temperature. Calculated peak blood flow values reached 37.8, 59.0, and 183.0 ml/minute/100 grams of tissue during 43 degrees, 45 degrees, and 47 degrees C, hyperthermia, respectively. It is suggested that a therapeutic advantage could be gained by treating tumors for a specific length of time during which the blood flow in adjacent normal tissues continues to increase. This would take maximum advantage of normal tissue's ability to compensate for increased temperature, and would exploit any decreased ability of tumor tissue to perform this same function.
ISSN:0360-3016
DOI:10.1016/0360-3016(83)90265-1