Spontaneous baroreflex control of heart rate versus cardiac output: altered coupling in heart failure.
Sala-Mercado, Javier A ; Ichinose, Masashi ; Hammond, Robert L ; et al. ; - ASI Sponsor
Mar - 2007
ISSN : 0363-6135 ;
journal : American journal of physiology. Heart and circulatory physiology

Issue : 3
type: Article Journal

Abstract
In heart failure (HF), there is a reduced baroreflex sensitivity at rest, and during dynamic exercise there is enhanced muscle metaboreflex activation (MRA). However, how the arterial baroreflex modulates HR during exercise is unknown. We tested the hypothesis that spontaneous baroreflex sensitivity (SBRS) is attenuated during exercise in HF and that MRA further depresses SBRS. In seven conscious dogs we measured heart rate (HR), cardiac output, and left ventricular systolic pressure at rest and during mild and moderate dynamic exercise, before and during MRA (via imposed reductions of hindlimb blood flow), and before and after induction of HF (by rapid ventricular pacing). SBRS was assessed by the sequences method. In control, SBRS was reduced from rest with a progressive resetting of the baroreflex stimulus-response relationship in proportion to exercise intensity and magnitude of MRA. In HF, SBRS was significantly depressed in all settings; however, the changes with exercise and MRA occurred with a pattern similar to the control state. As in control, the baroreflex stimulus-response relationship showed an intensity- and muscle metaboreflex (MMR)-dependent rightward and upward shift. The results of this study indicate that HF induces an impairment in baroreflex control of HR at rest and during exercise, although the effects of exercise and MRA on SBRS occur with a similar pattern as in control, indicating the persistence of some vagal activity.

keywords : Animal,Animal: physiology,Animals,Baroreflex,Baroreflex: physiology,Blood Pressure,Blood Pressure: physiology,Cardiac Output,Cardiac Output: physiology,Data Interpretation,Dogs,Female,Heart,Heart Failure,Heart Failure: physiopathology,Heart Rate,Heart Rate: physiology,Heart Ventricles,Heart: physiopathology,Left,Left: physiology,Low,Low: physiopathology,Male,Muscle,Myocardial Contraction,Myocardial Contraction: physiology,Physical Conditioning,Regional Blood Flow,Regional Blood Flow: physiology,Skeletal,Skeletal: blood supply,Skeletal: physiology,Statistical,Stroke Volume,Stroke Volume: physiology,Ventricular Function