BACKGROUND: Heart rate turbulence (HRT) is a promising noninvasive risk stratifier for mortality after myocardial infarction. On the basis of a study of ventricular premature complex coupling interval and sympathetic nerve burst amplitude, we hypothesized that measures of HRT would increase with increased prematurity of the coupling interval. METHODS AND RESULTS: Twenty-eight patients undergoing programmed electrical stimulation were studied (12 with prior myocardial infarction, aged 60+/-18 years). An extrastimulus was delivered from the right ventricular apex after 20 sinus beats with a V-S(2) coupling interval decremented by 20 to 30 ms until refractoriness was reached. Turbulence slope (TS), turbulence timing (TT), and turbulence onset were calculated for each extrastimulus, and the linear regressions of these parameters on coupling interval and compensatory pause were calculated. Arterial blood pressure was measured with arterial catheter or a noninvasive continuous blood pressure transducer (Buffington cuff). TS and turbulence onset were abnormal in 4 and 13 patients, respectively. HRT parameters were significantly correlated with coupling interval or compensatory pause in only 2 or 3 patients for a given regression analysis. This absence of correlation was found likely to be due to lack of correlation between compensatory pause and systolic blood pressure after the compensatory pause. Heart rate and TS were correlated: Patients with high heart rate had low TS and late TT (TS=-2.7+0.01xsinus cycle length, P=0.018; TT=8.8 to 0.005xsinus cycle length, P=0.013). CONCLUSIONS: HRT can be induced by programmed stimulation. In this setting, heart rate affects HRT but not ventricular premature complex prematurity. Induced HRT seems to be a valid method for measuring HRT parameters in patients with few ventricular premature complexes.
BACKGROUND: Heart rate turbulence (HRT) is a promising noninvasive risk stratifier for mortality after myocardial infarction. On the basis of a study of ventricular premature complex coupling interval and sympathetic nerve burst amplitude, we hypothesized that measures of HRT would increase with increased prematurity of the coupling interval. METHODS AND RESULTS: Twenty-eight patients undergoing programmed electrical stimulation were studied (12 with prior myocardial infarction, aged 60+/-18 years). An extrastimulus was delivered from the right ventricular apex after 20 sinus beats with a V-S(2) coupling interval decremented by 20 to 30 ms until refractoriness was reached. Turbulence slope (TS), turbulence timing (TT), and turbulence onset were calculated for each extrastimulus, and the linear regressions of these parameters on coupling interval and compensatory pause were calculated. Arterial blood pressure was measured with arterial catheter or a noninvasive continuous blood pressure transducer (Buffington cuff). TS and turbulence onset were abnormal in 4 and 13 patients, respectively. HRT parameters were significantly correlated with coupling interval or compensatory pause in only 2 or 3 patients for a given regression analysis. This absence of correlation was found likely to be due to lack of correlation between compensatory pause and systolic blood pressure after the compensatory pause. Heart rate and TS were correlated: Patients with high heart rate had low TS and late TT (TS=-2.7+0.01xsinus cycle length, P=0.018; TT=8.8 to 0.005xsinus cycle length, P=0.013). CONCLUSIONS: HRT can be induced by programmed stimulation. In this setting, heart rate affects HRT but not ventricular premature complex prematurity. Induced HRT seems to be a valid method for measuring HRT parameters in patients with few ventricular premature complexes.
Authors: Beata Sredniawa; Sylwia Cebula; Jacek Kowalczyk; Velislav N Batchvarov; Agata Musialik-Lydka; Anna Sliwinska; Aleksandra Wozniak; Michal Zakliczynski; Marian Zembala; Zbigniew Kalarus Journal: Ann Noninvasive Electrocardiol Date: 2010-07 Impact factor: 1.468
Authors: Nathan M Segerson; Stephen L Wasmund; Moeen Abedin; Rakesh K Pai; Marcos Daccarett; Nazem Akoum; T Scott Wall; Richard C Klein; Roger A Freedman; Mohamed H Hamdan Journal: Heart Rhythm Date: 2006-11-01 Impact factor: 6.343
Authors: Andreas Jeron; Tanja Kaiser; Christian Hengstenberg; Hannelore Löwel; Günter A J Riegger; Stephan Holmer Journal: Ann Noninvasive Electrocardiol Date: 2003-10 Impact factor: 1.468
Authors: Alexander Berkowitsch; Wojciech Zareba; Thomas Neumann; Ali Erdogan; Scott Mc Nitt; Arthur J Moss; Heinz F Pitschner Journal: Ann Noninvasive Electrocardiol Date: 2004-07 Impact factor: 1.468