Middle cerebral artery flow velocity and pulse pressure during dynamic exercise in humans

doi:10.1152/ajpheart.00979.2004

Middle cerebral artery flow velocity and pulse pressure during dynamic exercise in humans

Shigehiko Ogoh,¹ Paul J. Fadel,¹ Rong Zhang,² Christian Selmer,³ Øivind Jans,³ Niels H. Secher,³ and Peter B. Raven¹

¹Department of Integrative Physiology, University of North Texas Health Science Center, Fort Worth; ²Institute for Exercise and Environmental Medicine, Presbyterian Hospital and The University of Texas Southwestern Medical Center, Dallas, Texas; and ³Copenhagen Muscle Research Center, Department of Anesthesia, Rigshospitalet, University of Copenhagen, Copenhagen, Denmark

Submitted 23 September 2004 ; accepted in final form 1 December 2004

Exercise challenges cerebral autoregulation (CA) by a largeincrease in pulse pressure (PP) that may make systolic pressureexceed what is normally considered the upper range of CA. Thisstudy examined the relationship between systolic blood pressure(SBP), diastolic blood pressure (DBP), and mean arterial pressure(MAP) and systolic (V_s), diastolic (V_d). and mean (V_m) middlecerebral artery (MCA) blood flow velocity during mild, moderate,and heavy cycling exercise. Dynamic CA and steady-state changesin MCA V in relation to changes in arterial pressure were evaluatedusing transfer function analysis. PP increased by 37% and 57%during moderate and heavy exercise, respectively (P < 0.05),and the pulsatility of MCA V increased markedly. Thus exerciseincreased MCA V_m and V_s (P < 0.05) but tended to decreaseMCA V_d (P = 0.06). However, the normalized low-frequency transferfunction gain between MAP and MCA V_m and between SBP and MCAV_s remained unchanged from rest to exercise, whereas that betweenDBP and MCA V_d increased from rest to heavy exercise (P <0.05). These findings suggest that during exercise, CA is challengedby a rapid decrease rather than by a rapid increase in bloodpressure. However, dynamic CA remains able to modulate bloodflow around the exercise-induced increase in MCA V_m, even duringhigh-intensity exercise.

cerebral circulation; diastolic velocity; systolic velocity

Address for reprint requests and other correspondence: S. Ogoh, Dept. of Integrative Physiology, Univ. of North Texas Health Science Center, 3500 Camp Bowie Blvd., Fort Worth, TX 76107 (E-mail: sogoh{at}hsc.unt.edu)

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