Wichterle Dan, Simek Jan, La Rovere Maria Teresa, Schwartz Peter J, Camm A John, Malik Marek
Department of Cardiological Sciences, St George's Hospital Medical School, London, UK.
Circulation. 2004 Sep 7;110(10):1183-90. doi: 10.1161/01.CIR.0000140765.71014.1C. Epub 2004 Aug 16.
This study evaluates a novel method for postinfarction risk stratification based on frequency-domain characteristics of heart rate variability (HRV) in 24-hour Holter recordings.
A new risk predictor, prevalent low-frequency oscillation (PLF), was determined in the placebo population of the European Myocardial Infarction Amiodarone Trial (EMIAT). Frequencies of peaks detected in 5-minute low-frequency HRV spectra were averaged to obtain the PLF index. PLF >or=0.1 Hz was the strongest univariate predictor of all-cause mortality associated with relative risk of 6.4 (95% CI, 3.9 to 10.6; P<10(-12)). In a multivariate Cox's regression model including clinical risk factors, mean RR interval, HRV index, low- and high-frequency HRV spectral power, and heart rate turbulence, PLF was the most powerful mortality predictor, with a relative risk of 4.6 (95% CI, 2.2 to 9.3; P=0.00003). Predictive power of PLF was blindly validated in the population of the Autonomic Tone and Reflexes After Myocardial Infarction (ATRAMI) trial. PLF >or=0.1 Hz was associated with univariate relative risk of 6.1 (95% CI, 2.9 to 12.9; P<10(-5)) for cardiac mortality or resuscitated cardiac arrest. In multivariate Cox's regression model including age, left ventricular ejection fraction, baroreflex sensitivity, mean RR interval, standard deviation of normal RR intervals, low- and high-frequency HRV spectral power, and heart rate turbulence, only left ventricular ejection fraction and PLF were significant predictors, with relative risks of 4.2 (95% CI, 1.5 to 11.7; P=0.007) and 3.6 (95% CI, 1.3 to 10.5; P=0.02), respectively.
An innovative analysis of frequency-domain HRV, which characterizes the distribution of spectral power within the low-frequency band, is a potent and independent risk stratifier in postinfarction patients.
本研究评估了一种基于24小时动态心电图记录中心率变异性(HRV)频域特征的心肌梗死后风险分层新方法。
在欧洲心肌梗死胺碘酮试验(EMIAT)的安慰剂组中确定了一种新的风险预测指标,即普遍低频振荡(PLF)。对5分钟低频HRV频谱中检测到的峰值频率进行平均以获得PLF指数。PLF≥0.1Hz是全因死亡率最强的单变量预测指标,相对风险为6.4(95%可信区间,3.9至10.6;P<10⁻¹²)。在包含临床风险因素、平均RR间期、HRV指数、低频和高频HRV频谱功率以及心率震荡的多变量Cox回归模型中,PLF是最有力的死亡率预测指标,相对风险为4.6(95%可信区间,2.2至9.3;P = 0.00003)。PLF的预测能力在心肌梗死后自主神经张力与反射(ATRAMI)试验人群中得到了盲法验证。PLF≥0.1Hz与心脏死亡或心脏骤停复苏的单变量相对风险6.1(95%可信区间,2.9至12.9;P<10⁻⁵)相关。在包含年龄、左心室射血分数、压力反射敏感性、平均RR间期、正常RR间期标准差、低频和高频HRV频谱功率以及心率震荡的多变量Cox回归模型中,只有左心室射血分数和PLF是显著的预测指标,相对风险分别为4.2(95%可信区间,1.5至11.7;P = 0.007)和3.6(95%可信区间,1.3至10.5;P = 0.02)。
对HRV频域进行创新分析,该分析可表征低频带内频谱功率的分布,是心肌梗死后患者强有力的独立风险分层指标。
