Local variations in the cerebral microcirculatory response to hypercapnia and haemorrhage |
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Authors: | O. J. Kirkeby I. R. Rise C. Risöe |
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Affiliation: | (1) Institute for Surgical Research, The National Hospital, Norway;(2) Department of Neurosurgery, Ullevaal Hospital, University of Oslo, Oslo, Norway |
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Abstract: | Summary This study evaluates local variations of the cerebral vasomotor responses to hypercapnia and haemorrhagic hypotension in a pig model. Four laser Doppler flow probes were used in each pig. There was considerable variation in laser Doppler signals between the four probes in baseline recordings. The increases in flow after CO2 administration in 7 pigs had a mean coefficient of variation of 0.43 ± 0.31, and the flow changes after blood loss in another 7 pigs had a mean coefficient of variation of 0.45 ± 0.34. The range of flow changes within each animal was large; the probe with the highest CO2 response showed on the average a 273% ± 157% larger CO2 response than the probe with the lowest CO2 response. Correspondingly, the probe with the best preserved blood flow after blood loss had on the average a flow value of 93% ± 12% of the baseline value, while the probe that changed most with haemorrhage had a flow value of 44% ± 24% of the baseline value. Single laser Doppler recordings have been used for the monitoring of cerebral blood flow in neurosurgical critical care, but our results suggest that a single laser Doppler flow probe is not an adequate method to monitor vasoreactivity in neurosurgical patients because flow signals from one probe may be unrepresentative for other sites in the brain. |
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Keywords: | Laser Doppler flowmetry cerebral blood flow autoregulation carbon dioxide reactivity |
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