High-Frequency Components in the Electrocardiogram

Reynolds, Ernest W.; Muller, Bernard F.; Anderson, Gary J.; Muller, Bruce T.

doi:10.1161/01.cir.35.1.195

Cited by 63 publications

References 13 publications

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Effect of localized surface cooling of the heart muscle on the high‐frequency content of ecg waveforms in dogs

Akselrod

Mor‐Avi

et al. 1988

Clinical Cardiology

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Summary: Hypothermia is known to affect the electrophysiology of the myocardium in various ways. A marked increase in action potential duration, combined with a decrease in rate of depolarization and conduction velocity, has been observed. We studied the effect of localized hypothermia of the ventricular myocardium on the high-frequency (HF) components of the ECG waveform. Signals were obtained from 6 anesthetized dogs using simultaneous recording of three orthogonal body surface leads before, during, and following surface cooling of different areas of the epicardium. Computer analysis included digital averaging and filtering in a frequency range of 150-250 Hz. For each intervention in each animal, the variance of the average nonfiltered QRS complex was used for a quantitative estimate of the total power, whereas the variance of the derived filtered wave (HF QRS complex) expressed the power content in the HF range. The total power increased during localized cooling of the anterior as well as the inferior epicardial surface, while a clear reduction of power was observed in the HF range. This reduction was shown to be lead dependent and nonuniformly distributed during the course of the QRS. In all cases, hypothermia of either anterior or inferior ventricular epicardium produced a zone of reduced amplitude in the HF QRS complex of at least one lead. Thus, typical changes in the morphology of the HF QRS complex are reliable markers for cooling-induced localized electrophysiological (EP) variations. Therefore, the HF analysis of the body surface ECG may provide noninvasive insight into the EP properties of the myocardium.

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Effect of localized surface cooling of the heart muscle on the high‐frequency content of ecg waveforms in dogs

Akselrod

Mor‐Avi

et al. 1988

Clinical Cardiology

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Some aspects of the wideband recording of the electrocardiogram

Mor‐Avi¹,

Akselrod²

1990

Clinical Cardiology

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Summary:The physiological mechanisms responsible for the high frequency components of the electrocardiographic signals in different frequency ranges are still unknown. These components have been studied in the frequency domain as well as in the time domain. Numerous clinical and experimental studies have focused upon the incidence and interpretation of high frequency notches and slurs under different conditions in the myocardium. However, the analysis of the high frequency components appeared to be tedious and imprecise, and the interpretation of its results difficult and controversial, and strongly dependent upon empirically determined standards which still require thorough evaluation. Digital methods for processing electrocardiographic signals developed during the last decade have given rise to a variety of fast and reliable approaches for analyzing the information carried by the electrocardiogram. Many researchers have applied such methods to various clinical situations in human studies and to different kinds of interventions in animal studies. These developments prompted us to review research in the field of wideband recording of the electrocardiogram and to briefly discuss some of the aspects that still require elucidation.Key words: frequency response of electrocardiographs, high fidelity ECG, high frequency components, QRS notching and slurring, high frequency content of QRS, digital filtering, morphology of high frequency QRS

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Molecular mechanisms of the antiproliferative effect of beraprost, a prostacyclin agonist, in murine vascular smooth muscle cells

Lin

Lee

Hou

et al. 2007

Journal Cellular Physiology

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Prostacyclin (PGI2) has been shown to inhibit proliferation in vascular smooth muscle cells. To clarify the underlying molecular mechanism, we investigated the vasoprotection of beraprost (a PGI2 agonist) both in vivo and in vitro. Beraprost eliminated increases in proliferation of rat aortic smooth muscle cells (RASMCs) by 12-O-tetradecanoylphorbol 13-acetate, and enhanced the peroxisome proliferator-activated receptor-delta (PPARdelta) and inducible nitric oxide synthetase (iNOS) expressions, which were associated with the antiproliferative action of beraprost according to inhibition experiments by [(3)H]thymidine incorporation. Additionally, elimination of iNOS activity by PPARdelta antagonists suggested that iNOS is the downstream target of PPARdelta. Furthermore, beraprost increased both consensus PPARdelta-responsive element (PPRE)-driven luciferase activity and the binding activity of the PPARdelta to the putative PPRE in the iNOS promoter; nevertheless, it was abolished by PPARdelta antagonists. Deletion of PPRE (-1,349/-1,330) in the iNOS promoter region (-1,359/+2) strongly reduced promoter-driven activity, representing a novel mechanism of iNOS induction by beraprost. Consistent with this, PPARdelta and the concomitant iNOS induction by beraprost were also evident in vivo. Beraprost-mediated protection in a murine model of balloon angioplasty was significantly attenuated by 13S-HODE, a PPARdelta antagonist. Taken together, the results suggest that the causal relationship between PPARdelta and iNOS contributes to the vasoprotective action of beraprost in RASMCs.

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High-Frequency Components in the Electrocardiogram

Cited by 63 publications

References 13 publications

Effect of localized surface cooling of the heart muscle on the high‐frequency content of ecg waveforms in dogs

Effect of localized surface cooling of the heart muscle on the high‐frequency content of ecg waveforms in dogs

Some aspects of the wideband recording of the electrocardiogram

Molecular mechanisms of the antiproliferative effect of beraprost, a prostacyclin agonist, in murine vascular smooth muscle cells

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