This study investigated the changes in R-R interval in 23 patients (11 men and 12 women; mean age 61 yr) with persistent atrial fibrillation in response to several provocative maneuvers including active postural change, Valsalva maneuver, handgrip, and rhythm-controlled respiration. Averaged R-R intervals were shortened immediately after postural change (from 797 +/- 35 ms supine to 677 +/- 27 ms standing; P < 0.01) and recovered to the 90% level within 100 s. During Valsalva strain and handgrip, mean R-R intervals were significantly shortened (from 737 +/- 37 ms sitting to 697 +/- 38 ms in Valsalva and from 773 +/- 68 ms sitting to 701 +/- 58 ms in handgrip; both P < 0.01). During rhythm-controlled respiration, only two cases (10.5%) showed power peaks in spectrograms of moving-window-averaged R-R intervals at the frequency corresponding to respiration rhythm. The ventricular response to atrial fibrillation is influenced by an increase in sympathetic tone and a decrease in parasympathetic tone but is not necessarily influenced by the increase in parasympathetic dominance. These results suggest that even in atrial fibrillation patients, the autonomic nervous system modulates the ventricular rate via the atrioventricular node and atrial tissue.
Microvolt-level T-wave alternans (alternating morphology from beat to beat) during atrial pacing and exercise may predict ventricular tachycardia (VT) and fibrillation (VF) in ischemic heart disease. We tested whether such alternans during exercise could identify high-risk patients with hypertrophic cardiomyopathy (HCM). We studied 14 HCM patients and 9 normal control subjects for T-wave alternans u sing the CH2000 system with 7 multisegment electrodes in a Frank orthogonal (XYZ) configuration. Bicycle ergometer exercise was used to increase the heart rate (HR) to 95-110 beats/min. Seven patients were at high risk for ventricular arrhythmias (1 with sustained VT, 3 with abnormal paced ventricular electrograms as seen in VF survivors, and 3 with nonsustained VT and/or an adverse family history), and the other 7 were at low risk. T-wave alternans was present if alternans > 1.9 microV was consistently present with the HR in excess of a patient-specific HR threshold. Alternans was found in 5 of 7 high-risk patients (71%) vs none of 7 low-risk patients or 9 control subjects (p < 0.025 and p < 0.01, respectively). Notably, all 4 patients with sustained VT or abnormal ventricular electrograms showed alternans. Thus, high-risk patients with HCM often show T-wave alternans. Microvolt-level alternans during exercise may be a useful marker for ventricular arrhythmic risk in patients with HCM.
Background: Heart rate ( HR ) variability has been recognized as an important noninvasive index of autonomic nervous activities. However, the relationship between HR variability and cardiac circulating norepinephrine (NE), especially with respect to coronary ischemia, remains unclear.Hypothesis: This study was undertaken to determine whether HR variability indices can reflect cardiac NE levels during handgrip exercise. Methods: We simultaneously measured HR variability and cardiac NE overflow rate in 32 patients (30 men, 2 women) during a 6-min isometric handgrip exercise. Among the 32 subjects, 20 (19 men, 1 woman) had coronary artery disease (CAD) and 12 ( control group; 1 1 men, 1 woman) did not.Results: Hemodynamics and cardiac NE overflow rates among subjects at rest were not significantly different between the two groups. In the normal subjects, low-frequency (LF) spectra and LF/HF (high-frequency) ratios were not significantly changed during handgrip exercise, but HF spectra significantly increased from 10.1 f 4.5 to 12.2 -+ 7.0 ms (p< 0.05). In the subjects with CAD, LF and LF/HF spectra were significantly (p < 0.05 and 0.01, respectively) increased by handgrip exercise. High-frequency spectra were not significantly changed by handgrip exercise. In the normal subjects, a sigtuficant negative relation (r = -0.76, p < 0.01) was obtained between HF change and cardiac NE overflow rate, whereas this relationship was not significant in the subjects with CAD.The correlation between changes of LF/HF and cardiac NE overflow rate was significant in the normal (r = 0.56, p < 0.05) but not in subjects with CAD. Conclusion:These results suggest that vagal modulation of HR variability is more prominent in normal coronary artery subjects than in CAD subjects during handgrip exercise. Heart rate variability indices may thus serve as adequate indicators of autonomic nerve activity in subjects with normal coronary arteries but not in those with CAD, probably due to decreased adaptation to physical stress during handgnp exercise.
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