Critical Analysis of Cerebrovascular Autoregulation During Repeated Head-Up Tilt

doi:10.1161/hs1001.097225

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Stroke. 2001;32:2403-2408
doi: 10.1161/hs1001.097225

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	Autonomic, reflex, and neurohumoral control of circulation

(Stroke. 2001;32:2403.)
© 2001 American Heart Association, Inc.

Original Contributions

Critical Analysis of Cerebrovascular Autoregulation During Repeated Head-Up Tilt

Richard L. Hughson, PhD; Michael R. Edwards, MSc; Deborah D. O’Leary, MSc J. Kevin Shoemaker, PhD

From the Cardiorespiratory and Vascular Dynamics Laboratory, Faculty of Applied Health Sciences, University of Waterloo, Waterloo, Ontario, Canada.

Correspondence to Prof Richard L. Hughson, Cardiorespiratory and Vascular Dynamics Laboratory, Faculty of Applied Health Sciences, University of Waterloo, 200 University Ave W, Waterloo, ON N2L 3G1, Canada. E-mail hughson{at}uwaterloo.ca

Background and Purpose—— Cerebrovascular autoregulationhas been described with a phase lead of cerebral blood flowpreceding changes in cerebral perfusion pressure (CPP), butthere has been less focus on the effect of CPP on cerebral vascularresistance. We investigated these relations during spontaneousfluctuations (control) and repeated head-up tilt.

Methods—— Eight healthy adults were studied in supinerest and repeated tilt with 10-second supine, 10 seconds at45° head-up tilt for a total of 12 cycles. Cerebral bloodflow was estimated from mean flow velocity (MFV) by transcranialDoppler ultrasound, CPP was estimated from corrected fingerpressure (CPP_F), and cerebrovascular resistance index (CVRi)was calculated in the supine position from CPP_F/MFV. Gain andphase relations were assessed by cross-spectral analysis.

Results—— In the supine position, MFV preceded CPP_F,but changes in CVRi followed CPP_F. Gain and phase relationsfor CPP_F as input and MFV as output were similar in supine andrepeated tilt experiments. Thus, changes in cerebrovascularresistance must have had a similar pattern in the supine andtilt experiments.

Conclusions—— Cerebrovascular autoregulation isachieved by changes in resistance in response to modulationsin perfusion pressure whether spontaneous or induced by repeatedtilt. The phase lead of MFV before CPP_F is a mathematical andphysiological consequence of the relation the input variable(CPP_F) and the manipulated variable (cerebrovascular resistance)that should not be taken as an indication of independent controlof cerebral blood flow.

Key Words: autoregulation • cerebral blood flow • ultrasonography, Doppler transcranial

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				M. R. Edwards, Z. L. Topor, and R. L. Hughson A new two-breath technique for extracting the cerebrovascular response to arterial carbon dioxide Am J Physiol Regulatory Integrative Comp Physiol, March 1, 2003; 284(3): R853 - R859. [Abstract] [Full Text] [PDF]

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