Beta-Blockade Restores Muscle Sympathetic Rhythmicity in Human Heart Failure

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Background: Muscle sympathetic nerve firing rate increases as chronic heart failure (CHF) progresses, yet its oscillation, particularly within the frequency range encompassing 0.13Hz, diminishes. The current study tested the hypothesis that chronic therapy with lipophilic β-adrenoceptor antagonists augments the modulation of muscle sympathetic nerve activity variability (MSNAV) at this frequency range. Methods and Results: In 21 CHF angiotensin converting enzyme (ACE) inhibitor-treated patients (age: 53±2, ejection fraction: 20±2%), MSNA was recorded before and after 4 months of β-blockade with either metoprolol (up to 50mg b.i.d.) or carvedilol (up to 25mg b.i.d.). Harmonic MSNAV was assessed by coarse graining spectral analysis. Both drugs lowered heart rate similarly (-13±2 beats/min; P<0.001) but neither affected MSNA burst frequency (-7±4 bursts/min, not significant). Before β-blockade, harmonic MSNA power in the region encompassing 0.13Hz was essentially absent. Beta-blockade increased the mean values for total power (from 0.00 to 0.50Hz; 5.2±0.8 to 6.8±1.2U2; P<0.001) and for harmonic MSNA spectral power across the 0.1-0.22Hz frequency range (from 0.48±0.10 to 1.50±0.32U2, F=12.2; P<0.001). Both carvedilol and metoprolol had a similar effect. Conclusions: In patients with CHF receiving ACE inhibitors, adding a β-adrenoceptor antagonist restores low and high frequency harmonic oscillations in MSNA. Beta-1 antagonism is sufficient to achieve this response. Augmented modulation of sympathetic outflow could contribute to the beneficial effects of β-blockade in CHF on sudden death and disease progression. (Circ J 2011; 75: 1400-1408)

Beta-Blockade Restores Muscle Sympathetic Rhythmicity in Human Heart Failure

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