Abstract
The skin of mouse tail has been used to study the effect of hyperthermia on the oxygen enhancement ratio (OER). Heating was by immersion of a portion of the tail in hot water. Radiation was given either immediately before or after hyperthermia. The average skin reaction between 15 and 50 days after treatment was taken as the end-point. The OER in the absence of hyperthermia was 1.77, suggesting significant hypoxia of the skin. When hyperthermia was given after irradiation the measured value for the OER was not significantly different, but with prior hyperthermia the OER was increased to an average value of 2.3. This increase in OER is probably due to a transient increase in blood circulation following hyperthermia and causing improved tissue oxygenation during irradiation. As a consequence we would expect a greater thermal enhancement ratio for heat given before irradiation than afterwards, and this has frequently been observed with other normal tissues. There was no evidence that heat reduces OER, as has been reported by some authors on the basis of experiments performed on cells in vitro.
Highlights
Summary.-The skin of mouse tail has been used to study the effect of hyperthermia on the oxygen enhancement ratio (OER)
There was no evidence that heat reduces OER, as has been reported by some authors on the basis of experiments performed on cells in vitro
Moist desquamation occurred after doses of 25 Gy or more, reaching a maximum at 30 davs after exposure, and heahng at a rate that was dose-dependent
Summary
Summary.-The skin of mouse tail has been used to study the effect of hyperthermia on the oxygen enhancement ratio (OER). When hyperthermia was given after irradiation the measured value for the OER was not significantly different, but with prior hyperthermia the OER was increased to an average value of 2.3. This increase in OER is probably due to a transient increase in blood circulation following hyperthermia and causing improved tissue oxygenation during irradiation. As a consequence we would expect a greater thermal enhancement ratio for heat given before irradiation than afterwards, and this has frequently been observed with other normal tissues. Chemotherapy, has increasingly become When hyperthermia is used to enhance the subject of laboratory investigation. the effects of radiation there are conflicting
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