Repeatability of spectral components of short-term blood pressure and heart rate variability during acute sympathetic activation in healthy young male subjects.

1. Changes in the low-frequency (LF) components of blood pressure and heart rate variability and in the ratio of LF to high-frequency (HF) components of heart rate variability (LF/HF ratio) are used to assess acute changes in sympathetic control of blood pressure or heart rate and in sympathovagal balance that occur in response to physiological or pharmacological stimuli. Before these spectral indexes can be used to assess the effects of drug therapy or other clinical interventions on reflex sympathetic activity, their repeatability must be evaluated. 2. Intra-observer repeatability was studied by analysing changes in the LF components (expressed as absolute or normalized units) of cardiovascular variability and in the LF/HF ratio during sympathetic activation induced by nitroglycerin infusion (n = 10 subjects) or 60 degrees head-up tilt (n = 13 subjects) repeated on two occasions, 2 days and 1 week apart respectively, in healthy young male volunteers. Repeatability was estimated as recommended by Bland and Altman. 3. Bland and Altman's plots of the repeatability of changes in the LF components and LF/HF ratio showed that measurements were sufficiently repeatable to be used over periods of time of up to 1 week in clinical studies. 4. The sample-size tables derived from our results show that expression of spectral components as normalized units, and use of a cross-over design, minimize the number of subjects to be included in clinical studies conducted using similar designs and LF component changes as endpoints.

Heart rate and blood pressure variability in cardiac diseases: pharmacological implications.

Even at rest, blood pressure and heart fluctuate continuously around their mean values. Considerable interest has recently focused on the assessment of spontaneous in fluctuations in heart rate and blood pressure, i.e., heart rate and blood pressure variability, using time or frequency domain indexes. Heart rate variability has been extensively studied in cardiovascular disease and has emerged as a valuable parameter for detecting abnormalities in autonomic cardiovascular control, evaluating the prognosis and assessing the impact of drug therapy on the autonomic nervous system in patients with myocardial infarction, congestive heart failure or a heart transplant. In contrast, until the recent development of noninvasive methods for continuous blood pressure recording, blood pressure variability received little attention, and this parameter remains to be evaluated in cardiovascular disease.

Arterial alterations in hypertension with a disproportionate increase in systolic over diastolic blood pressure.

BACKGROUND: Although systolic and diastolic blood pressure and cardiovascular risk are directly related in epidemiologic studies, the results of large therapeutic trials in mild to moderate hypertension have indicated that the prevention of cerebrovascular accidents was much more effective than that of coronary ischemic accidents. Actually, a significant decrease in coronary events was observed only in aged populations in which systolic (and not diastolic) blood pressure was chosen as criterion of entry. Whether the choice of the mechanical factor (systolic or diastolic blood pressure or both) used to define hypertension might have created a bias in the studied populations remains an important question. FINDINGS: Above 50 years of age, most hypertensive populations are characterized by a disproportionate increase in systolic over diastolic blood pressure, so that the pulsatile component of blood pressure is strikingly augmented. This pattern is commonly observed in old people with essential hypertension, in hypertensive subjects with advanced renal failure undergoing hemodialysis and in atherosclerotic subjects with hypertension, particularly those with atherosclerosis of the lower limbs and cerebral vessels. In all these populations, the disturbed pulse pressure is associated with significant alterations in large conduit arteries involving hypertrophy of central and peripheral large vessels and increased values of operational stiffness and altered wave reflections which return during the systolic (and not the diastolic) component of the aortic blood pressure curve. Sodium sensitivity is commonly observed in these patients, so that low doses of diuretics correct the increased pulse pressure, particularly in those with normal or low plasma renin activity. CONCLUSIONS: Although strong interactions may be observed between the pulsatile component of blood pressure and the arterial changes in hypertension, much more research is required before a clear-cut cause-effect relationship can be established between these two variables. With the exception of diuretic therapy in the elderly, there are at present no treatments that can selectively reduce pulse pressure or reverse the arterial changes or both in patients with essential hypertension and a disproportionate increase in systolic blood pressure.

Rapid development of nitrate tolerance in healthy volunteers: assessment using spectral analysis of short-term blood pressure and heart rate variability.

Nitrate tolerance is characterized by a loss of nitroglycerin (NTG) vasodilating and hypotensive effects during continuous administration, but is difficult to detect clinically. We hypothesized that the decrease in arterial blood pressure (BP) and the reflex sympathetic activation and tachycardia due to baroreflex deactivation associated with rapid intravenous (i.v.) infusion of NTG would be decreased during continuous NTG patch therapy as a result of tolerance to transdermal NTG. Sympathetic activation was measured as the change in amplitude of low-frequency (66-129 mHz) oscillations in BP and heart rate (HR) recorded by a noninvasive method. Eleven healthy male volunteers received rapid i.v. infusion of 0.45 mg NTG in 1 min on 3 consecutive days: before NTG patch, after 22.5 h of patch therapy, and 22.5 h after patch removal. The maximum decrease in systolic BP (SBP) and maximum reflex tachycardia as well as the sympathetic activation produced by i.v. NTG were compared during each of the three study periods. The maximum decrease in SBP was 38 +/- 8 mm Hg before NTG patch and 27 +/- 15 mm Hg during NTG patch (p < 0.05), with return to baseline values (37 +/- 13 mm Hg) after patch removal. There was no significant change in amplitude of reflex tachycardia among study periods. However, low-frequency oscillations in SBP increased by 40 +/- 31% in the absence of NTG patch and by only 9 +/- 35% after 22.5 h of patch therapy (p < 0.05). Patch removal resulted in a significant rebound increase in these oscillations (70 +/- 51%; p < 0.05 vs. baseline).(ABSTRACT TRUNCATED AT 250 WORDS)

Spectral analysis of short-term blood pressure and heart rate variability in uremic patients.

Short-term fluctuations in blood pressure (BP) and heart rate (HR) were quantified to assess autonomic nervous system (ANS) dysfunction in six dialysis patients, compared to six control subjects of similar age. Indirect finger BP was measured by a Finapres device. Analog-to-digital conversion of the BP was used to determine systolic BP (SBP), diastolic BP (DBP) and HR every second. The equidistant sampling allowed a direct spectral analysis using a fast Fourier transform algorithm. Uremic patients exhibited reduced BP and HR short-term variabilities, with a dramatic reduction in the amplitude of the 0.1 Hz component (Mayer waves) of SBP and DBP spectra. Dialysis did not produce any consistent immediate improvement in the amplitude of the Mayer waves. Our study thus indicates impaired cardiovascular ANS function in uremic patients.