R-wave amplitude variations during acute experimental myocardial ischemia: an inadequate index for changes in intracardiac volume.

David, Daniel; Naito, Masahito; Chen, Chin C.; Michelson, Eric L.; Morganroth, Joel; Schaffenburg, Mark

doi:10.1161/01.cir.63.6.1364

Cited by 55 publications

(14 citation statements)

References 21 publications

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“…Subsequently, 2RWA increased significantly, peaking 20-30 seconds after the maximal increase in left ventricular dimensions. These findings and our previous work"' 10 challenge the hypothesis that the Brody effect is the major determinant of R-wave amplitude changes during acute myocardial ischemia. Therefore, other factors, including changes in myocardial con-(continued on next page) duction patterns, may have a role.…”

Section: Discussionsupporting

confidence: 67%

Intramyocardial conduction: a major determinant of R-wave amplitude during acute myocardial ischemia.

David¹,

Naito²,

Michelson³

et al. 1982

Circulation

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102

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SUMMARY The relationship of changes in ventricular activation patterns and variations in R-wave amplitude on the surface ECG during the hyperacute phase of myocardial ischemia were studied in nine open-chest dogs. The sum of R-wave amplitude (2RWA) changes in surface ECG leads L2, V5 and Frank orthogonal leads X, Y and Z were correlated with changes in the conduction time along the specialized conduction.system and in intramyocardial conduction times, as well as with hemodynamic and echocardiographically determined left ventricular dimensional changes. The hyperacute phase of myocardial ischemia induced by a one-stage occlusion of the left circumflex coronary artery was marked by a progressive increase in left ventricular enddiastolic diameter and left ventricular end-diastolic pressure as well as a progressive decrease in cardiac output. At the same time, ZRWA and intramyocardial conduction time followed a synchronous biphasic pattern. In the first 30 seconds after coronary artery ligation, intramyocardial conduction time in the ischemic zone accelerated to a peak of 11.3% above control (p < 0.001). This acceleration of conduction was followed closely by a decrease in ZRWA to 16.8% below control (p < 0.001). A second phase ensued, characterized by a gradual slowing of intramyocardial conduction time in the ischemic zone to 135.1% above control (p < 0.001) and a synchronous increase in 2RWA to 53.1% above control (p < 0.001). Conduction time along the specialized conduction system did not change significantly.Thus, the asynchrony of ischemic 2RWA alterations with hemodynamic and left ventricular dimensional changes and the similarity of the biphasic responses of 2RWA to the changes in intramyocardial conduction time in the ischemic area suggest that ventricular activation patterns rather than hemodynamic and intracardiac dimensional changes may play the major role in determining R-wave amplitude responses to acute myocardial ischemia.INCREASED R-wave amplitude on the surface ECG at peak exercise has been observed frequently in patients with coronary artery disease. 1-4 Bonoris et al.1 claimed this sign to be a sensitive and specific marker for the diagnosis of coronary artery disease. Increases in R-wave amplitude may also indicate the extent of ischemia-induced left ventricular dysfunction.2 4 This suggestion is based on the assumption that R-wave amplitude changes are related, by the Brody effect,5 to an increase in left ventricular volume resulting from acute ischemia. However, studies in humans have not consistently corroborated these findings."8We designed a series of experiments using a canine model of acute myocardial ischemia to identify factors that contribute to ischemic R-wave amplitude alterations. In our initial studies we showed that ischemic Rwave amplitude changes could not be explained merely by intracardiac volume changes.9' 10 Other in- From vestigators have shown that ventricular activation patterns influence the R-wave amplitude response to volume changes in the normal heart."-"' The purpo...

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Section: Discussionsupporting

confidence: 67%

Intramyocardial conduction: a major determinant of R-wave amplitude during acute myocardial ischemia.

David¹,

Naito²,

Michelson³

et al. 1982

Circulation

Self Cite

102

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“…This discordance between changes in LV performance and R-wave response excludes myocardial ischemia as the sole determinant of R-wave increase after dialysis. Since the role of left ventri cular volume in determining R-wave change (Brody effect) has been challenged [3][4][5][6], other factors could have an important influence on R-wave amplitude variations, in cluding abnormal myocardial conduction patterns, altered depolarization and repolarization patterns [3].…”

Section: Dear Sirmentioning

confidence: 99%

Dissociation between Alterations in Myocardial Perfusion and R-Wave Amplitude after Hemodialysis

Wizemann¹,

Krämer²,

Thormann³

1983

Nephron

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“…7 In support of this theory, a positive relationship has been found between LV volume and ECG voltage in several experimental studies8'-1 and has been inferred in man on the basis of voltage changes during exercise. However, other studies in patients with chronic heart disease,"2 13 as well as experimental studies of acute changes in LV volume, 14,15 suggest that ECG voltage for any given LV mass (LVM) may decrease with LV enlargement.…”

mentioning

confidence: 99%

Geometric determinants of electrocardiographic left ventricular hypertrophy.

Devereux¹,

Phillips²,

Casale³

et al. 1983

Circulation

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SUMMARY Experimental studies have suggested that electrocardiographic recognition of left ventricular hypertrophy depends on geometric relationships involving wall thickness and chamber size. To determine the clinical significance of these observations, we studied the effects of echocardiographic LV mass (LVM), posterior wall thickness (PWT), interventricular septal thickness (IVST) and internal dimension (LVID) on THE ECG is a widely used, simple and inexpensive technique, but it is unreliable in the diagnosis of left ventricular hypertrophy (LVH).'-S Progress toward improved ECG recognition of LVH requires identification of the factors that limit current methods. One possible explanation is that conventional voltage and nonvoltage signs of LVH may reflect specific abnormalities of cardiac geometry other than increased LV muscle mass.6In 1956, Brody proposed that the blood within the LV cavity enhances ECG voltage by amplifying radially oriented dipoles.7 In support of this theory, a positive relationship has been found between LV volume and ECG voltage in several experimental studies8'-1 and has been inferred in man on the basis of voltage changes during exercise. However, other studies in patients with chronic heart disease,"2 13 as well as experimental studies of acute changes in LV volume, 14

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R-wave amplitude variations during acute experimental myocardial ischemia: an inadequate index for changes in intracardiac volume.

Cited by 55 publications

References 21 publications

Intramyocardial conduction: a major determinant of R-wave amplitude during acute myocardial ischemia.

Intramyocardial conduction: a major determinant of R-wave amplitude during acute myocardial ischemia.

Dissociation between Alterations in Myocardial Perfusion and R-Wave Amplitude after Hemodialysis

Geometric determinants of electrocardiographic left ventricular hypertrophy.

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