Controlled breathing induced a significantly smaller decrease in low frequency heart rate variability in hypertensive patients (-60 ms2) compared to normotensive controls (-139 ms2; P=0.03).
Observational (n=40)
Patients with essential hypertension show impaired responsiveness to autonomic challenge compared to normotensive individuals, while HRV in white-coat hypertension does not significantly differ from either group.
Absolute Event Rate: -60% vs -139%
p-value: p=0.03
Objectives The objective of this study was to compare heart rate variability (HRV) in patients with essential hypertension, in patients with white-coat hypertension and in normotensive control individuals, and to investigate a possible relation between HRV and vasoactive hormones. Methods Patients with essential hypertension (n=19, 61 years, median and interquartile range: 40–66 years), patients with white-coat hypertension (n=8, 52 years, median and interquartile range: 41–64 years) and normotensive participants (n=13, 50 years, median and interquartile range: 39–57 years) participated in the study. HRV was measured at rest in the supine position, during standing and during controled forced breathing (respiration frequency >20/min). Power spectral density was calculated using Fourier transformation. Results Controled breathing caused a decrease in low frequency (LF) variation and LF/high frequency variation (LF/HF) in all blood pressure groups. The decrease in LF was smaller in the hypertensive group (−60 ms2) than in the normotensive group (−139 ms2) (P=0.03; hypertensive group vs. normotensive group). The decrease in LF/HF induced by controled breathing was −0.9 ms2 in the hypertensive group, −2.0 ms2 in the white-coat hypertensive group and −2.8 ms2 in the normotensive group, (P=0.037; hypertensive group vs. normotensive group). We found a positive correlation between baseline plasma renin concentration and LF (r=0.330, P=0.037) and LF/HF (r=0.378, P=0.016) at rest. Conclusion The observed differences in HRV might reflect the impaired responsiveness to autonomic challenge in hypertensive patients. We did not find the HRV spectrum in white-coat hypertension different from the HRV spectrum in hypertension or normotension.
Madsen et al. (Tue,) conducted a observational in White-coat hypertension and essential hypertension (n=40). Controlled forced breathing vs. Normotensive controls was evaluated on Decrease in low frequency (LF) variation during controlled breathing (p=0.03). Controlled breathing induced a significantly smaller decrease in low frequency heart rate variability in hypertensive patients (-60 ms2) compared to normotensive controls (-139 ms2; P=0.03).