Muscle Metaboreflex Contribution to Sinus Node Regulation During Static Exercise : Insights From Spectral Analysis of Heart Rate Variability

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Circulation. 1999;100:27-32

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(Circulation. 1999;100:27-32.)
© 1999 American Heart Association, Inc.

Clinical Investigation and Reports

Muscle Metaboreflex Contribution to Sinus Node Regulation During Static Exercise

Insights From Spectral Analysis of Heart Rate Variability

Ferdinando Iellamo, MD; Paolo Pizzinelli, MD; Michele Massaro, MD; Gianfranco Raimondi, MD; Giuseppe Peruzzi, MD; Jacopo Maria Legramante, MD

From the Dipartimento di Medicina Interna (F.I., M.M., G.R., G.P., J.M.L.), Università di Roma "Tor Vergata," Rome, Italy, and Ospedale S. Gerardo (P.P.), Monza, Italy.

Correspondence to Dr Ferdinando Iellamo, Dipartimento Medicina Interna, Università di Roma "Tor Vergata," Via O. Raimondo, 8, 00173 Roma, Italy. E-mail iellamo{at}med.uniroma2.it

Background—It is currently assumed that during static exercise,central command increases heart rate (HR) through a decreasein parasympathetic activity, whereas the muscle metaboreflexraises blood pressure (BP) only through an increase in sympatheticoutflow to blood vessels, because when the metaboreflex activationis maintained during postexercise muscle ischemia, BP remainselevated while HR recovers. We tested the hypotheses that themuscle metaboreflex contributes to HR regulation during static exercisevia sympathetic activation and that the arterial baroreflexis involved in the HR recovery of postexercise muscle ischemia.

Methods and Results—Eleven healthy male volunteers performed 4-minutestatic leg extension (SLE) at 30% of maximal voluntary contraction,followed by 4-minute arrested leg circulation (ALC). Autonomicregulation of HR was investigated by spectral analysis of HRvariability (HRV), and baroreflex control of heart period wasassessed by the spontaneous baroreflex method. SLE resultedin a significant increase in the low-frequency component of HRVthat remained elevated during ALC. The normalized high-frequency componentof HRV was reduced during SLE and returned to control levels duringALC. Baroreflex sensitivity was significantly reduced duringSLE and returned to control levels during ALC when BP was keptelevated above the resting level while HR recovered.

Conclusions—The muscle metaboreflex contributes to HR regulation duringstatic exercise via a sympathetic activation. The bradycardia thatoccurs during postexercise muscle ischemia despite the maintainedsympathetic stimulus may be explained by a baroreflex-mediatedincrease in parasympathetic outflow to the sinoatrial node thatoverpowers the metaboreflex-induced cardiac sympathetic activation.

Key Words: exercise • muscles • heart rate • nervous system, autonomic • baroreceptors

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