We evaluated the systemic and cerebral effects induced by an increase to 100% of the inspired oxygen fraction (FiO2) on 20 comatose patients with head injury (9 patients) and SAH (11 patients). Brain tissue oxygen tension (PtiO2) was measured through a Clark electrode inserted in penumbra-like areas. We performed 55 hyperoxia tests by increasing FiO2 from 3 5 +/- 8% to 100% in one second and calculating the PtiO2 index as: PtiO2 variation from baseline at 1 minute/arterial oxygen tension (PaO2) variation from baseline at I minute x 100. One hundred percent FiO2 caused an increase of both arterial (from 139 +/- 28 to 396 +/- 77 mmHg) and cerebral (from 22.6 +/- 14 to 65.4 +/- 60 mmHg) oxygenation after 1 minute. The range of the PtiO2 response was not uniform and two groups were identified. The change was small, 0.8 mmHg/min/100 mmHg PaO2 (+/- 0.7; range 0-2) when mean PtiO2 was 19.7 +/- 13.1 mmHg, while a stronger response, 8 mmHg/min/100 mmHg PaO2 (5; range 3-18) (p < 0.01) was. found when mean PtiO2 was 31.7 +/- 14.3 mmHg. Since O2 diffusion should follow the gas diffusion law, the increase in diffusion distance due to a reduction of capillary density in focal lesions may explain this relationship.
Effects of hyperoxia on brain tissue oxygen tension in cerebral focal lesions / L. Longhi, V. Valeriani, S. Rossi, M. De Marchi, M. Egidi, N. Stocchetti. - 81:81(2002), pp. 315-317. ((Intervento presentato al convegno Internation Symposium on Intracranial Pressure and Brain Monitoring/Satellite, International Conference on Neurochemical Monitoring tenutosi a Cambridge, England nel 2000.
Effects of hyperoxia on brain tissue oxygen tension in cerebral focal lesions
L. LonghiPrimo
;N. StocchettiUltimo
2002
Abstract
We evaluated the systemic and cerebral effects induced by an increase to 100% of the inspired oxygen fraction (FiO2) on 20 comatose patients with head injury (9 patients) and SAH (11 patients). Brain tissue oxygen tension (PtiO2) was measured through a Clark electrode inserted in penumbra-like areas. We performed 55 hyperoxia tests by increasing FiO2 from 3 5 +/- 8% to 100% in one second and calculating the PtiO2 index as: PtiO2 variation from baseline at 1 minute/arterial oxygen tension (PaO2) variation from baseline at I minute x 100. One hundred percent FiO2 caused an increase of both arterial (from 139 +/- 28 to 396 +/- 77 mmHg) and cerebral (from 22.6 +/- 14 to 65.4 +/- 60 mmHg) oxygenation after 1 minute. The range of the PtiO2 response was not uniform and two groups were identified. The change was small, 0.8 mmHg/min/100 mmHg PaO2 (+/- 0.7; range 0-2) when mean PtiO2 was 19.7 +/- 13.1 mmHg, while a stronger response, 8 mmHg/min/100 mmHg PaO2 (5; range 3-18) (p < 0.01) was. found when mean PtiO2 was 31.7 +/- 14.3 mmHg. Since O2 diffusion should follow the gas diffusion law, the increase in diffusion distance due to a reduction of capillary density in focal lesions may explain this relationship.
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