Effect of hyperventilation on regional cerebral blood flow in head-injured children

Kestle, John R. W.

Effect of hyperventilation on regional cerebral blood flow in head-injured children

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Publication Type	Journal Article
School or College	School of Medicine
Department	Neurosurgery
Creator	Kestle, John R. W.
Other Author	Skippen, Peter; Seear, Michael; Poskitt, Ken; Cochrane, Doug; Annich, Gail; Handel, Jeffrey
Title	Effect of hyperventilation on regional cerebral blood flow in head-injured children
Date	1997
Description	Objectives: To study cerebral blood flow and cerebral oxygen consumption in severe head-injured children and also to assess the effect of hyperventilation on regional cerebral blood flow. Design: Prospective cohort study. Setting: Pediatric intensive care unit at a tertiary-level university children's hospital. Patients: Twenty-three children with isolated severe brain injury, whose admission Glasgow Coma Scores were <8. Interventions: Paco2 was adjusted by altering minute ventilation. Cerebral metabolic measurements were made at three levels of Paco2 (>35,25 to 35, and <25 torr [>4.7,3.3 to 4.7, and <3.3 kPa]) after allowing 15 mins for equilibrium. Measurements and Main Results: Thirty-eight studies (each study consisting of three sets of measurements at different levels of Paco2) were performed on 23 patients. At each level of Paco2, the following measurements were made: xenon-enhanced computed tomography scans; cerebral blood flow; intracranial pressure; jugular venous bulb oxygen saturation; mean arterial pressure; and arterial oxygen saturation. Derived variables included: cerebral oxygen consumption; cerebral perfusion pressure; and oxygen extraction ratio. Cerebral blood flow decreased below normal after head injury (mean 49.6 + 14.6 mL/min/100 g). Cerebral oxygen consumption decreased out of proportion to the decrease in cerebral blood flow; cerebral oxygen consumption was only a third of the normal range (mean 1.02 ? 0.59 mL/min/100 g). Neither cerebral blood flow nor cerebral oxygen consumption showed any relationship to time after injury, Glasgow Coma Score at the time of presentation, or intracranial pressure. The frequency of one or more regions of ischemia (defined as cerebral blood flow of <18 mL/min/ 100 g) was 28.9% during normocapnia. This value increased to 73.1% for Paco2 at <25 torr. Conclusions: Severe head injury in children produced a modest decrease in cerebral blood flow but a much larger decrease in cerebral oxygen consumption. Absolute hyperemia was uncommon at any time, but measured cerebral blood flow rates were still above the metabolic requirements of most children. The clear relationship between the frequency of cerebral ischemia and hypocarbia, combined with the rarity of hyperemia, suggests that hyperventilation should be used with caution and monitored carefully in children with severe head injuries. (Crit Care Med 1997; 25:1402-1409).
Type	Text
Publisher	Wolters Kluwer (LWW)
Volume	25
Issue	8
First Page	1402
Last Page	1409
Subject	Cerebral blood flow; Head injury; Jugular venous oximetry; Xenon computed tomography scan; Head-injured children
Subject LCSH	Hyperventilation; Cerebral circulation; Oximetry; Tomography; Cerebral ischemia
Language	eng
Bibliographic Citation	Skippen, P., Seear, M., Poskitt, K., Kestle, J. R. W., Cochrane, D., Annich, G., & Handel, J. (1997). Effect of hyperventilation on regional cerebral blood flow in head-injured children. Critical Care Medicine, 25(8), 1402-9.
Rights Management	© Wolters Kluwer (LWW) http://lww.com
Format Medium	application/pdf
Format Extent	1,295,360 bytes
Identifier	ir-main,13166
ARK	ark:/87278/s6805ktp
Setname	ir_uspace
ID	703488
Reference URL	https://collections.lib.utah.edu/ark:/87278/s6805ktp