Improved Efficiency of Treadmill Exercise Testing Using a Multiple Lead ECG System and Basic Hemodynamic Exercise Response

One hundred consecutive men with a normal ECG at rest had a maximal treadmill test using 14 leads during and postexercise. Coronary arteriography performed the following day revealed coronary stenoses k70% in 66 patients. Test results obtained from a V6 lead were compared to different lead combinations and were correlated with arteriographic findings. A positive exercise test occurred in 37 men using an isolated V, lead compared to 50 men (P < 0.05) using 11 leads, 52 men (P < 0.05) using a combined CM6, CC5, Cl (inferior) lead system and 58 (P < 0.001) men using all 14 leads. The predictive value of a positive test varied between 89-95% and was not changed significantly by the addition of multiple leads. The 14 lead ECG was positive in 43/45 (96%) patients with multivessel disease. Parameters which helped to predict multivessel disease using 14 leads were 1) the time that ischemia first appeared 2) the pressurerate product at the time ischemia first appeared, and 3) the maximum workload that could be attained. In general, the magnitude of STsegment depression and the time required for a positive ECG to return to normal postexercise were not useful predictors of multivessel disease. We conclude that the use of multiple leads improves the sensitivity and efficiency of the maximal treadmill exercise test. The usefulness of exercise test results can be further improved if multiple leads are combined with physiologic data collected during exercise.

[1]  S. Epstein,et al.  Whither the ST segment during exercise? , 1978, Advances in cardiology.

[2]  L. T. Sheffield,et al.  The exercise test in perspective. , 1977, Circulation.

[3]  K. Cohn,et al.  Marked depth of ST-segment depression during treadmill exercise testing; indicator of severe coronary artery disease. , 1976, Chest.

[4]  R. J. Stuart,et al.  Upsloping S-T segments in exercise stress testing. Six year follow-up study of 438 patients and correlation with 248 angiograms. , 1976, The American journal of cardiology.

[5]  T J Vecchio,et al.  Predictive value of a single diagnostic test in unselected populations. , 1966, The New England journal of medicine.

[6]  W. Aronow,et al.  Inability of the Submaximal Treadmill Stress Test to Predict the Location of Coronary Disease , 1973, Circulation.

[7]  S. Epstein,et al.  Limitations of the electrocardiographic response to exercise in predicting coronary-artery disease. , 1975, The New England journal of medicine.

[8]  B R Chaitman,et al.  Left Ventricular Wall Motion Assessed by Using Fixed External Reference Systems , 1973, Circulation.

[9]  A. Selzer,et al.  Treadmill stress tests as indicators of presence and severity of coronary artery disease. , 1976, Annals of internal medicine.

[10]  J. Erikssen,et al.  False Positive Diagnostic Tests and Coronary Angiographic Findings in 105 Presumably Healthy Males , 1976, Circulation.

[11]  W. T. Anderson,et al.  Correlation of "critical" left coronary artery lesions with positive submaximal exercise tests in patients with chest pain. , 1975, American heart journal.

[12]  C. Ascoop,et al.  Clinical value of quantitative analysis of ST slope during exercise. , 1977, British heart journal.

[13]  R. E. Mason,et al.  Multiple‐Lead Exercise Electrocardiography: Experience in 107 Normal Subjects and 67 Patients with Angina Pectoris, and Comparison with Coronary Cinearteriography in 84 Patients , 1967, Circulation.

[14]  M. Bourassa,et al.  Selective coronary angiography using a percutaneous femoral technique. , 1970, Canadian Medical Association journal.

[15]  R. Galen Predictive value of laboratory tests , 1975 .

[16]  The "Minnesota Code" for ECG classification. Adaptation to CR leads and modification of the code for ECGs recorded during and after exercise by the Scandinavian Committee on ECG Classification. , 1967, Acta medica Scandinavica. Supplementum.

[17]  M C Lancaster,et al.  A comparison of two bipolar exercise electrocardiographic leads to lead V5. , 1976, Chest.

[18]  R. Petitclerc,et al.  Angulated views in the sagittal plane for improved accuracy of cinecoronary angiography. , 1974, The American journal of roentgenology, radium therapy, and nuclear medicine.

[19]  H Sandler,et al.  The use of single plane angiocardiograms for the calculation of left ventricular volume in man. , 1968, American heart journal.

[20]  P. Mchenry The actual prevalence of false positive ST-segment responses to exercise in clinically normal subjects remains undefined. , 1977, Circulation.

[21]  V. Froelicher,et al.  The Correlation of Coronary Angiography and the Electrocardiographic Response to Maximal Treadmill Testing in 76 Asymptomatic Men , 1973, Circulation.

[22]  W. Kostuk,et al.  The localization of coronary artery stenoses by 12 lead ECG response to graded exercise test: support for intercoronary steal. , 1976, American heart journal.

[23]  R. E. Mason,et al.  A new system of multiple-lead exercise electrocardiography. , 1966, American heart journal.

[24]  L. T. Sheffield,et al.  Maximal Heart Rate and Treadmill Performance of Healthy Women in Relation to Age , 1978, Circulation.