Aug 1, 1984

Human whole-blood oxygen affinity: effect of temperature

Journal of Applied Physiology: Respiratory, Environmental and Exercise Physiology
A ZwartW G Zijlstra

Abstract

phe effect of temperature changes on human whole-blood O2 affinity was measured in the blood of six healthy donors over almost the entire O2 saturation (SO2) range (1-99%). The results showed that temperature has no influence on the shape of the O2 dissociation curve, implying that the temperature coefficient (delta log PO2/delta T) is independent of SO2. Simultaneous measurements of the total (proton) Haldane factor (delta[HbH]/[delta HbO2]) at the five temperatures under study (22, 27, 32, 37, and 42 degrees C) revealed that this factor depends on temperature. The liberation of protons from hemoglobin appeared to be linear with respect to changes in SO2. We therefore conclude that the (proton) Bohr factor (H+ factor) is dependent on temperature over the entire SO2 range in the same way as previously described for SO2 = 50%. The exothermic oxygenation reaction in whole blood was accompanied by a heat evolution (delta HO2) of 42.7 kJ/mol (monomeric) hemoglobin.

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Mentioned in this Paper

Dioxygen
Alveolar Ventilation Function
Whole Blood
Cell Respiration
Oxygen Saturation Measurement
Oxygen Affinity
Hemoglobin Measurement
Whole Blood Specimen
Hemoglobin

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