Abstract
The distribution of oxygen tension (PO2) in microvessels and in the tissues of the rat brain cortex on inhaling air (normoxia) and pure oxygen at atmospheric pressure (normobaric hyperoxia) was studied with the aid of oxygen microelectrodes (diameter = 3–6 μm), under visual control using a contact optic system. At normoxia, the PO2 of arterial blood was shown to decrease from [mean (SE)] 84.1 (1.3) mmHg in the aorta to about 60.9 (3.3) mmHg in the smallest arterioles, due to the permeability of the arteriole walls to oxygen. At normobaric hyperoxia, the PO2 of the arterial blood decreased from 345 (6) mmHg in the aorta to 154 (11) mmHg in the smallest arterioles. In the blood of the smallest venules at normoxia and at normobaric hyperoxia, the differences between PO2 values were smoothed out. Considerable differences between PO2 values at normoxia and at normobaric hyperoxia were found in tissues at a distance of 10–50 μm from the arteriole walls (diameter = 10–30 μm). At hyperbaric hyperoxia these values were greater than at normoxia, by 100–150 mmHg. In the long-run, thorough measurements of PO2 in the blood of the brain microvessels and in the tissues near to the microvessels allowed the elucidation of quantitative changes in the process of oxygen transport from the blood to the tissues after changing over from the inhalation of air to inhaling oxygen. The physiological, and possibly pathological significance of these changes requires further analysis.
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Accepted: 23 March 1999
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Ivanov, K., Sokolova, I. & Vovenko, E. Oxygen transport in the rat brain cortex at normobaric hyperoxia. Eur J Appl Physiol 80, 582–587 (1999). https://doi.org/10.1007/s004210050637
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DOI: https://doi.org/10.1007/s004210050637