Ljuba Bacharova MD, DrS, MBA, Philippe Chevalier PhD, Bulent Gorenek MD, PhD, Christian Jons MD, PhD, Yi-Gang Li MD, PhD, Emanuela T. Locati MD, PhD, Maren Maanja MD, PhD, Andrés Ricardo Pérez-Riera MD, PhD, Pyotr G. Platonov MD, PhD, Antonio Luiz Pinho Ribeiro MD, PhD, Douglas Schocken MD, Elsayed Z. Soliman MD, MS, Jana Svehlikova RNDr, PhD, Larisa G. Tereshchenko MD, PhD, Martin Ugander MD, PhD, Niraj Varma MD, PhD, Zaklyazminskaya Elena MD, PhD, Takanori Ikeda MD, PhD
{"title":"ISE/ISHNE专家共识声明左心室肥厚的心电图诊断:范式的改变。","authors":"Ljuba Bacharova MD, DrS, MBA, Philippe Chevalier PhD, Bulent Gorenek MD, PhD, Christian Jons MD, PhD, Yi-Gang Li MD, PhD, Emanuela T. Locati MD, PhD, Maren Maanja MD, PhD, Andrés Ricardo Pérez-Riera MD, PhD, Pyotr G. Platonov MD, PhD, Antonio Luiz Pinho Ribeiro MD, PhD, Douglas Schocken MD, Elsayed Z. Soliman MD, MS, Jana Svehlikova RNDr, PhD, Larisa G. Tereshchenko MD, PhD, Martin Ugander MD, PhD, Niraj Varma MD, PhD, Zaklyazminskaya Elena MD, PhD, Takanori Ikeda MD, PhD","doi":"10.1111/anec.13097","DOIUrl":null,"url":null,"abstract":"<p>The ECG diagnosis of LVH is predominantly based on the QRS voltage criteria. The classical paradigm postulates that the increased left ventricular mass generates a stronger electrical field, increasing the leftward and posterior QRS forces, reflected in the augmented QRS amplitude. However, the low sensitivity of voltage criteria has been repeatedly documented. We discuss possible reasons for this shortcoming and proposal of a new paradigm. The theoretical background for voltage measured at the body surface is defined by the <i>solid angle theorem</i>, which relates the measured voltage to spatial and non-spatial determinants. The spatial determinants are represented by the extent of the activation front and the distance of the recording electrodes. The non-spatial determinants comprise electrical characteristics of the myocardium, which are comparatively neglected in the interpretation of the QRS patterns. Various clinical conditions are associated with LVH. These conditions produce considerable diversity of electrical properties alterations thereby modifying the resultant QRS patterns. The spectrum of QRS patterns observed in LVH patients is quite broad, including also left axis deviation, left anterior fascicular block, incomplete and complete left bundle branch blocks, Q waves, and fragmented QRS. Importantly, the QRS complex can be within normal limits. The new paradigm stresses the electrophysiological background in interpreting QRS changes, i.e., the effect of the non-spatial determinants. This postulates that the role of ECG is not to estimate LV size in LVH, but to understand and decode the underlying electrical processes, which are crucial in relation to cardiovascular risk assessment.</p>","PeriodicalId":8074,"journal":{"name":"Annals of Noninvasive Electrocardiology","volume":"29 1","pages":""},"PeriodicalIF":1.1000,"publicationDate":"2023-11-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/anec.13097","citationCount":"0","resultStr":"{\"title\":\"ISE/ISHNE expert consensus statement on the ECG diagnosis of left ventricular hypertrophy: The change of the paradigm\",\"authors\":\"Ljuba Bacharova MD, DrS, MBA, Philippe Chevalier PhD, Bulent Gorenek MD, PhD, Christian Jons MD, PhD, Yi-Gang Li MD, PhD, Emanuela T. Locati MD, PhD, Maren Maanja MD, PhD, Andrés Ricardo Pérez-Riera MD, PhD, Pyotr G. Platonov MD, PhD, Antonio Luiz Pinho Ribeiro MD, PhD, Douglas Schocken MD, Elsayed Z. Soliman MD, MS, Jana Svehlikova RNDr, PhD, Larisa G. Tereshchenko MD, PhD, Martin Ugander MD, PhD, Niraj Varma MD, PhD, Zaklyazminskaya Elena MD, PhD, Takanori Ikeda MD, PhD\",\"doi\":\"10.1111/anec.13097\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>The ECG diagnosis of LVH is predominantly based on the QRS voltage criteria. The classical paradigm postulates that the increased left ventricular mass generates a stronger electrical field, increasing the leftward and posterior QRS forces, reflected in the augmented QRS amplitude. However, the low sensitivity of voltage criteria has been repeatedly documented. We discuss possible reasons for this shortcoming and proposal of a new paradigm. The theoretical background for voltage measured at the body surface is defined by the <i>solid angle theorem</i>, which relates the measured voltage to spatial and non-spatial determinants. The spatial determinants are represented by the extent of the activation front and the distance of the recording electrodes. The non-spatial determinants comprise electrical characteristics of the myocardium, which are comparatively neglected in the interpretation of the QRS patterns. Various clinical conditions are associated with LVH. These conditions produce considerable diversity of electrical properties alterations thereby modifying the resultant QRS patterns. The spectrum of QRS patterns observed in LVH patients is quite broad, including also left axis deviation, left anterior fascicular block, incomplete and complete left bundle branch blocks, Q waves, and fragmented QRS. Importantly, the QRS complex can be within normal limits. The new paradigm stresses the electrophysiological background in interpreting QRS changes, i.e., the effect of the non-spatial determinants. 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ISE/ISHNE expert consensus statement on the ECG diagnosis of left ventricular hypertrophy: The change of the paradigm
The ECG diagnosis of LVH is predominantly based on the QRS voltage criteria. The classical paradigm postulates that the increased left ventricular mass generates a stronger electrical field, increasing the leftward and posterior QRS forces, reflected in the augmented QRS amplitude. However, the low sensitivity of voltage criteria has been repeatedly documented. We discuss possible reasons for this shortcoming and proposal of a new paradigm. The theoretical background for voltage measured at the body surface is defined by the solid angle theorem, which relates the measured voltage to spatial and non-spatial determinants. The spatial determinants are represented by the extent of the activation front and the distance of the recording electrodes. The non-spatial determinants comprise electrical characteristics of the myocardium, which are comparatively neglected in the interpretation of the QRS patterns. Various clinical conditions are associated with LVH. These conditions produce considerable diversity of electrical properties alterations thereby modifying the resultant QRS patterns. The spectrum of QRS patterns observed in LVH patients is quite broad, including also left axis deviation, left anterior fascicular block, incomplete and complete left bundle branch blocks, Q waves, and fragmented QRS. Importantly, the QRS complex can be within normal limits. The new paradigm stresses the electrophysiological background in interpreting QRS changes, i.e., the effect of the non-spatial determinants. This postulates that the role of ECG is not to estimate LV size in LVH, but to understand and decode the underlying electrical processes, which are crucial in relation to cardiovascular risk assessment.
期刊介绍:
The ANNALS OF NONINVASIVE ELECTROCARDIOLOGY (A.N.E) is an online only journal that incorporates ongoing advances in the clinical application and technology of traditional and new ECG-based techniques in the diagnosis and treatment of cardiac patients.
ANE is the first journal in an evolving subspecialty that incorporates ongoing advances in the clinical application and technology of traditional and new ECG-based techniques in the diagnosis and treatment of cardiac patients. The publication includes topics related to 12-lead, exercise and high-resolution electrocardiography, arrhythmias, ischemia, repolarization phenomena, heart rate variability, circadian rhythms, bioengineering technology, signal-averaged ECGs, T-wave alternans and automatic external defibrillation.
ANE publishes peer-reviewed articles of interest to clinicians and researchers in the field of noninvasive electrocardiology. Original research, clinical studies, state-of-the-art reviews, case reports, technical notes, and letters to the editors will be published to meet future demands in this field.