Search results for "Tissue temperature"

showing 3 items of 3 documents

Changes of sensory conduction velocity and refractory periods with decreasing tissue temperature in man.

1977

Changes with temperature of maximum sensory nerve conduction velocity as well as absolute and relative refractory periods were tested in 14 human subjects. Corresponding to previously published findings maximum conduction velocity decreased with cooling following a Q10 of +1.4. The absolute and relative refractory periods were increased by cooling, the Q10 being -3.1 and -3.35 respectively. There was a tendency showing a more pronounced temperature effect at low temperatures. The Q10 and the steepness of the regressionline changed at the level of 26.9 degrees C, but were significant for the relative refractory period only.

AdultTime FactorsRefractory Period ElectrophysiologicalRefractory periodQ10Neural ConductionSensationAction PotentialsSensory systemElectromyographyNerve conduction velocityBody TemperatureNuclear magnetic resonancemedicineAnimalsHumansRefractory (planetary science)Ulnar NerveTissue temperaturemedicine.diagnostic_testChemistryAnatomyAxonsNeurologyCatsNeurology (clinical)Sensory nerve conduction velocityJournal of neurology
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Oxygenation of malignant tumors after localized microwave hyperthermia

1982

The oxyhemoglobin saturation (HbO2) of single red blood cells within tumor microvessels (diameter: 3-12 micrometers) of DS-Carcinosarcoma was studied using a cryophotometric micromethod. In untreated control tumors (mean tissue temperature approx. 35 degrees C) the measured values scattered over the whole saturation range from zero to 100 sat. %, the mean being 51 sat. %. Upon heating at 40 degrees C for 30 min, the oxygenation of the tumor tissue significantly improved as compared with control conditions. After 40 degrees C-hyperthermia a mean oxyhemoglobin saturation of 66 sat. % was obtained. In contradistinction to this, after 43 degrees C-hyperthermia the tumor oxygenation was signific…

MaleTissue temperatureErythrocytesHot TemperatureRadiationChemistryBiophysicsRats Inbred StrainsBlood flowOxygenationTumor OxygenationRatsNuclear magnetic resonanceCarcinosarcomaUntreated controlOxyhemoglobinsAnesthesiaAnimalsFemaleSarcoma ExperimentalMicrowave hyperthermiaMicrowavesSaturation (chemistry)Oxyhemoglobin saturationGeneral Environmental ScienceRadiation and Environmental Biophysics
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Impact of Various Thermal Doses on the Oxygenation and Blood Flow in Malignant Tumors Upon Localized Hyperthermia

1984

Hyperthermia exhibits various direct cytocidal effects (Dickson, 1977; Overgaard, 1977; Suit, 1977). During heat treatment in vivo, several indirect mechanisms enhance the direct cell-killing capacity of hyperthermia. Therefore, the effective use of hyperthermia can overcome some of the well-known problems involved in modern radiation therapy at least in some malignant tumors.

Tissue temperatureHyperthermiabusiness.industrymedicine.medical_treatmentOxygenationBlood flowTumor Oxygenationmedicine.diseaseRadiation therapyIn vivoAnesthesiamedicinebusinessOxyhemoglobin saturation
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