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RESEARCH PRODUCT
Effect of hyperthermia on tumor blood flow.
P VaupelMüller-klieser Wsubject
Hyperthermiamedicine.medical_specialtyHot TemperatureTime FactorsPhysiologyChemistryMicrocirculationNormal tissueBlood flowNeoplasms Experimentalmedicine.diseaseRatsMiceCell killingEndocrinologyTreatment modalityRegional Blood FlowPhysiology (medical)Internal medicineCancer cellmedicineAnimalsIrradiationPerfusionBlood Flow Velocitydescription
Differences in blood perfusion rates between tumors and normal tissue can be utilized to selectively heat many solid tumors. Blood flow in normal tissues is considerably increased at temperatures commonly applied during localized hyperthermia. In contrast, tumor blood flow may respond to localized heat typically in two different blood flow patterns: Flow may either decrease continuously with increasing exposure time and/or temperature or flow may exhibit a transient increase followed by a decline. A decrease in blood flow at high thermal doses can be observed in most of the tumors, whereas an increase in flow at low thermal doses seems to occur less frequently. The inhibition of blood flow at high thermal doses may lead to physiological changes in the microenvironment of the cancer cells that increase the cell killing effect of hyperthermia. Flow increases at low thermal doses can enhance the efficiency of other treatment modalities, such as irradiation or the administration of antiproliferate drugs.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1984-08-01 | Biorheology |