The fractal structure of heart rate is usually quantified by estimating a short-term ( inverted question mark1) and a long-term ( inverted question mark2) scaling exponent by Detrended Fluctuations Analysis (DFA). Evidence, however, has been provided that heart rate is a multifractal signal, better characterized by a large number of scaling exponents. Aim of this study is to verify whether two scaling exponents only from DFA provide a sufficiently accurate description of the possibly multifractal nature of cardiovascular signals. We measured ECG and finger arterial pressure in 33 volunteers for 10 minutes during each of 3 conditions: supine rest (SUP); sitting at rest (SIT); light physical exercise (EXE). DFA was applied on the beat-by-beat series of R-R interval (RRI) and mean arterial pressure (MAP). We then computed the local scaling exponent ( inverted question mark(n), defined as the slope of the detrended fluctuation function F(n) around the beat scale n, in a log-log plot. If inverted question mark1 and inverted question mark2 correctly model the multiscale structure of blood pressure and heart rate, we should find that inverted question mark(n) is constant over a short-term and a longterm range of beat scales. Results show that only the long-term inverted question mark2 exponent provides a relatively good approximation of the multiscale structure of RRI and MAP. Moreover, posture and physical activity have important effects on local scaling exponents, and on the range of beat scales n where inverted question mark(n) can be approximated by a constant inverted question mark2 coefficient

Local-scale analysis of cardiovascular signals by detrended fluctuations analysis: effects of posture and exercise

Castiglioni, P.
;
2007-01-01

Abstract

The fractal structure of heart rate is usually quantified by estimating a short-term ( inverted question mark1) and a long-term ( inverted question mark2) scaling exponent by Detrended Fluctuations Analysis (DFA). Evidence, however, has been provided that heart rate is a multifractal signal, better characterized by a large number of scaling exponents. Aim of this study is to verify whether two scaling exponents only from DFA provide a sufficiently accurate description of the possibly multifractal nature of cardiovascular signals. We measured ECG and finger arterial pressure in 33 volunteers for 10 minutes during each of 3 conditions: supine rest (SUP); sitting at rest (SIT); light physical exercise (EXE). DFA was applied on the beat-by-beat series of R-R interval (RRI) and mean arterial pressure (MAP). We then computed the local scaling exponent ( inverted question mark(n), defined as the slope of the detrended fluctuation function F(n) around the beat scale n, in a log-log plot. If inverted question mark1 and inverted question mark2 correctly model the multiscale structure of blood pressure and heart rate, we should find that inverted question mark(n) is constant over a short-term and a longterm range of beat scales. Results show that only the long-term inverted question mark2 exponent provides a relatively good approximation of the multiscale structure of RRI and MAP. Moreover, posture and physical activity have important effects on local scaling exponents, and on the range of beat scales n where inverted question mark(n) can be approximated by a constant inverted question mark2 coefficient
2007
9781424407880
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2145239
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