COMPUTER-PROCESSING OF ARTIFACT AND ARRHYTHMIAS IN HEART-RATE-VARIABILITY ANALYSIS

被引：36

作者：

SAPOZNIKOV, D ^{[1
]}

LURIA, MH ^{[1
]}

MAHLER, Y ^{[1
]}

GOTSMAN, MS ^{[1
]}

机构：

[1] HADASSAH UNIV HOSP, DEPT BIOMED ENGN, IL-91120 JERUSALEM, ISRAEL

来源：

COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE | 1992年 / 39卷 / 1-2期

关键词：

HEART RATE; HEART RATE VARIABILITY; ARTIFACT; ARRHYTHMIA; POWER SPECTRUM AUTOREGRESSIVE MODEL;

D O I：

10.1016/0169-2607(92)90060-K

中图分类号：

TP39 [计算机的应用];

学科分类号：

081203 ; 0835 ;

摘要：

Analysis of heart rate variability (HRV) with Holter monitoring is often difficult due to excessive artifacts and arrhythmias. While short sudden surges are treated successfully by most methods, slow heart rate (HR) variations, nocturnal trapezoidally-shaped HR increases and special types of arrhythmias which are similar to normal HRV fluctuations may distort further time domain and spectral analysis. This paper examines the advantages and disadvantages of different methods for preprocessing of HR data. We have developed the following approach to the analysis of HRV. (1) A combination method based on the absolute difference between HR values and both the last normal HR value and an updated mean is used for removal of artifacts and arrhythmias. This method can detect both sudden surges in HR values as well as longer periods of noise combined with slow normal variations. An additional stage of wild point removal is then optionally applied. (2) Certain special problems such as large T-waves, bigeminal rhythm, slow HR variations and nocturnal trapezoidally-shaped HR increases are also identified. Although none of the algorithms can be applied successfully to all cases, the final computer analysis for preprocessing described in the present study has proved to be superior to the simplified methods which are usually used and provides more suitable data for HRV analysis.

引用

页码：75 / 84

页数：10

共 10 条

[1] POWER SPECTRUM ANALYSIS OF HEART-RATE FLUCTUATION - A QUANTITATIVE PROBE OF BEAT-TO-BEAT CARDIOVASCULAR CONTROL [J].

AKSELROD, S ;

GORDON, D ;

UBEL, FA ;

SHANNON, DC ;

BARGER, AC ;

COHEN, RJ .

SCIENCE, 1981, 213 (4504) :220-222

[2] RELATIONSHIPS BETWEEN SHORT-TERM BLOOD-PRESSURE FLUCTUATIONS AND HEART-RATE-VARIABILITY IN RESTING SUBJECTS .1. A SPECTRAL-ANALYSIS APPROACH [J].

DEBOER, RW ;

KAREMAKER, JM ;

STRACKEE, J .

MEDICAL & BIOLOGICAL ENGINEERING & COMPUTING, 1985, 23 (04) :352-358

[3] DECREASED HEART-RATE-VARIABILITY AND ITS ASSOCIATION WITH INCREASED MORTALITY AFTER ACUTE MYOCARDIAL-INFARCTION [J].

KLEIGER, RE ;

MILLER, JP ;

BIGGER, JT ;

MOSS, AJ .

AMERICAN JOURNAL OF CARDIOLOGY, 1987, 59 (04) :256-262

[4]

LINDQVIST A, 1990, ACTA PHYSIOL SCAND, V138, P1

[5]

MARPLE SL, 1987, DIGITAL SPECTRA ANAL

[6] ASSESSMENT OF AUTONOMIC FUNCTION IN HUMANS BY HEART-RATE SPECTRAL-ANALYSIS [J].

POMERANZ, B ;

MACAULAY, RJB ;

CAUDILL, MA ;

KUTZ, I ;

ADAM, D ;

GORDON, D ;

KILBORN, KM ;

BARGER, AC ;

SHANNON, DC ;

COHEN, RJ ;

BENSON, H .

AMERICAN JOURNAL OF PHYSIOLOGY, 1985, 248 (01) :H151-H153

[7] METHODS OF SPECTRAL-ANALYSIS OF 24 HOUR MONITORING OF HEART-RATE VARIATIONS [J].

SAPOZNIKOV, D ;

LURIA, MH ;

MAHLER, Y ;

GOTSMAN, MS .

IMAGES OF THE TWENTY-FIRST CENTURY, PTS 1-6, 1989, 11 :769-770

[8]

SAPOZNIKOV D, 1990, 1990 P COMP CARD, V17, P71

[9] SMOOTHING + DIFFERENTIATION OF DATA BY SIMPLIFIED LEAST SQUARES PROCEDURES [J].

SAVITZKY, A ;

GOLAY, MJE .

ANALYTICAL CHEMISTRY, 1964, 36 (08) :1627-&

[10]

VYBIRAL T, 1991, P COMPUT CARDIOL, V17, P251

← 1 →