The electrocardiogram in acute pulmonary embolism

doi:10.1016/S0033-0620(75)80016-8

Progress in Cardiovascular Diseases

Volume 17, Issue 4, January–February 1975, Pages 247-257

https://doi.org/10.1016/S0033-0620(75)80016-8 Get rights and content

Summary

Electrocardiograms of 90 patients with arteriographically documented acute submassive or massive pulmonary embolism and no associated cardiac or pulmonary disease were studied. Patients were derived from the Urokinase-Pulmonary Embolism Trial National Cooperative Study. In massive embolism, the electrocardiogram was normal in 6% (3 of 50) of patients. With submassive embolism, 23% of patients (9 of 40) had a normal electrocardiogram. Since one or more of the traditional manifestations of acute cor pulmonale (S₁Q₃T₃, right bundle branch block, P pulmonale, or right axis deviation) occurred in only 26% of patients, one could not rely exclusively upon these electrocardiographic abnormalities for the diagnosis of pulmonary embolism. The most common electrocardiographic abnormalities were nonspecific T wave changes which occurred in 42% of patients and nonspecific abnormalities (elevation or depression) of the RST segment which occurred in 41% of patients. Left axis deviation occurring in 7% of the patients was as frequent as right axis deviation. Low voltage QRS complexes, previously undescribed in pulmonary embolism, occurred in 6% of patients. None of the patients had atrial flutter or atrial fibrillation, which appears to occur more typically in patients with pulmonary embolism who have preexistent cardiac disease. All of the varieties of electrocardiographic abnormalities disappeared in some of the patients by 2 wk. Inversion of the T wave was the most persistent abnormality. Larger defects on the lung scan or pulmonary arteriogram occurred in patients with various abnormalities on the electrocardiogram than in patients with normal electrocardiograms. The pulmonary arterial mean pressure and/or right ventricular end-diastolic pressure was significantly higher in patients with several varieties of abnormal electrocardiograms, although the partial pressure of oxygen in arterial blood, in general, did not differ from that in patients with normal electrocardiograms. These hemodynamic correlations, made for the first time in patients, suggest that acute ventricular dilatation, possibly in combination with hypoxemia, is a causative factor of the electrocardiographic changes in acute massive or submassive pulmonary embolism.

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Pulmonary embolism (PE) is one of the leading causes of cardiovascular mortality worldwide. Electrocardiography (ECG) may provide useful information for patients with acute PE. In this study, we aimed to investigate the diagnostic value of the QRS duration and RS time in inferolateral leads in patients admitted to the emergency department, and pre-diagnosed with acute PE.
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As a novel ECG parameter, RS time could be measured for each patient. A longer RS time can be a very useful index for diagnosing acute PE as well as for estimating the RV end-diastolic diameter and SPAP.
Characteristics of synthesized right-sided chest electrocardiograms in patients with acute pulmonary embolism
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Citation Excerpt :
However, the 12-lead electrocardiogram (ECG) remains a useful method, as it is simple and noninvasive. Although ECG findings such as P pulmonale, right-axis deviation, and the S1Q3T3 pattern have been reported in APE patients, these features are infrequently observed [4,5]. A synthesized ECG based on right-sided chest leads (syn-V3R, -V4R, and -V5R) can be derived mathematically from the data of a standard 12-lead ECG, as reported previously [6,7].
The significance of right-sided chest lead electrocardiogram (ECG) abnormalities in acute pulmonary embolism (APE) is unclear. This study evaluated the characteristics of such abnormalities in APE patients.
This retrospective study included consecutive patients who were diagnosed with APE by contrast-enhanced computed tomography or pulmonary artery angiography. A standard 12-lead ECG and a synthesized right-sided chest ECG were obtained from these patients. Waveform differences were noted between the acute and post-treatment phases.
In total, 56 APE patients (18 men and 38 women, mean age 66.7 ± 13.3 years) were included. Traditional ECG findings, such as right-axis deviation, the S₁Q₃T₃ pattern, and clockwise rotation, were found in relatively few patients (14.3%, 32.1%, and 21.4%, respectively). In some cases, a negative T wave in standard 12-lead ECGs was observed in leads III, V1, and V2 (46.4%, 60.7%, and 39.9%, respectively). Syn-V3R ECG showed a higher frequency of negative T waves (66.1%) at the onset and significantly (p < 0.01) decreased at the follow-up. Multiple logistic regression analyses for differentiating APE revealed that the negative T waves only in lead syn-V3R were significantly related (odds ratio: 6.95, 95% confidence interval: 2.50–19.32, p < 0.001).
The presence of a negative T wave in a synthesized right-sided chest ECG, particularly in the V3R lead, is a new and distinctive finding denoting pulmonary embolism. To confirm the utility of this characteristic using synthesized right-sided chest ECGs for the diagnosis of APE, further studies with larger populations will be required.
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This study aimed to investigate the diagnostic value of QRS and S wave variation in patients admitted to the emergency department with suspicion of acute pulmonary embolism (APE).
Computerized tomographic pulmonary angiography (CTPA) was performed in 118 consecutive patients to evaluate patients with suspected APE, and 106 subjects with appropriate electrocardiogram and CT images constituted the study population.
Using CTPA, APE was diagnosed in 48.1% (n:51) of the study population. The comparison of patients with APE and those without APE revealed that increased heart rate, right axis deviation of QRS axis, complete or incomplete right bundle branch block, prominent S wave in lead D1, increased QRS duration, percentage of QRS (9,8[4,8–19,0] vs 3,8[2,7–71]; p < 0,001), S wave variation (22,3[9,6–31,9] vs 4,8 [[2], [3], [4], [5], [6], [7], [8]]; p < 0,001) and ΔS wave amplitude (1.1[0.5–1.5] vs 0.2[0.1–0.5]; p < 0.001) were significantly associated with APE, but no relationship was detected with respect to the presence of atrial arrhythmias, clockwise rotation of the horizontal axis, fragmentation, ST segment deviation, T wave inversion, and S1Q3T3 and S1S2S3 patterns. The percentage of S wave variation (OR: 1072 per 1% increase, 95% CI:1011–1137) was found to be an independent predictor of APE. ΔS wave amplitude>0.5 mm predicted APE with a sensitivity of 72.6% and a specificity of 74.6% (AUC:0.805, 95% CI: 0.717–0.876; p < 0.001).
The present study demonstrated that QRS and S wave variation could be useful electrocardiographic signs for the diagnosis of APE.

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The electrocardiogram in acute pulmonary embolism

Summary

Am Heart J

Am Heart J

Br Heart J

Am Heart J

Am Heart J

Am Heart J

Am Heart J

J Electrocardiol

Chest

Am Heart J

Br Heart J

Ann Intern Med

Am Heart J

Arch Intern Med

Am J Cardiol

Acute cor pulmonale resulting from pulmonary embolism

JAMA

The Urokinase-Pulmonary Embolism Trial

Circulation

The Urokinase Pulmonary-Embolism Trial

Circulation

The Urokinase-Pulmonary Embolism Trial^

Circulation