Firing Properties of Single Muscle Vasoconstrictor Neurons in the Sympathoexcitation Associated With Congestive Heart Failure

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Circulation. 1999;100:1708-1713

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(Circulation. 1999;100:1708-1713.)
© 1999 American Heart Association, Inc.

Clinical Investigation and Reports

Firing Properties of Single Muscle Vasoconstrictor Neurons in the Sympathoexcitation Associated With Congestive Heart Failure

Vaughan G. Macefield, PhD; Bengt Rundqvist, MD, PhD; Yrsa B. Sverrisdottir, BSc; B. Gunnar Wallin, MD, PhD; Mikael Elam, MD, PhD

From the Departments of Clinical Neuroscience and Cardiology (B.R.), Sahlgren University Hospital, Göteborg, Sweden.

Correspondence to Dr V.G. Macefield, Prince of Wales Medical Research Institute, High Street, Randwick, NSW 2031, Australia.

Background—Congestive heart failure (CHF) in humans isassociated with a marked sympathoexcitation, including an augmentedmuscle sympathetic nerve activity (MSNA) in intraneural multiunitrecordings. In the present study, single-unit recording wasused to evaluate whether the firing properties of individualmuscle vasoconstrictor neurons can reveal underlying mechanismsfor this increase in MSNA.

Methods and Results—Eight patients with CHF (NYHA classII to IV; left ventricular ejection fraction, 29±5%,mean±SEM) were studied. In standard multiunit recordings,MSNA burst incidence (bursts/100 heartbeats) ranged from 65%to 100% (88±5%). Using selective tungsten microelectrodes,we made recordings from 16 single muscle vasoconstrictor axons.Mean unit firing probability (ie, the percentage of cardiacintervals in which a single axon fired) was 54.5±5.2%(range, 21 to 89%), and mean firing frequency was 0.98±0.22Hz (0.14 to 3.86 Hz), both of which were higher than seen previouslyin healthy subjects (P<0.001). Although single neurons occasionally generatedmultiple spikes per sympathetic burst, such multiple firing wasrare and was not different from that seen in healthy subjects.

Conclusions—An increased firing frequency of individual vasoconstrictorneurons is one mechanism for the increased number of multiunitMSNA bursts at rest in CHF. The neurons discharge in more diastolesthan in healthy subjects (ie, firing probability is increased),but the likelihood of discharging >1 impulse per sympatheticburst is not increased. Despite the intense multiunit activityat rest, the firing characteristics of individual vasoconstrictoraxons indicate a remaining capacity for transient increasesof MSNA in CHF.

Key Words: nervous system, autonomic • heart failure

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