Effect of beta-blockers on the relation between QT-interval and heart rate in exercise ECG

QT-interval prolongation is a recognized risk indicator for ventricular arrhythmias and sudden cardiac death. The effect of beta-blockers on the change of the QT-interval relative to the change in heart rate was studied in 269 male patients who underwent computer-interpreted exercise tests. None of the patients studied used anti-arrhythmic drugs, diuretics or digoxin. In 141 men on beta-blockers the relation between Q-peakT interval and heart rate could be described as follows: Q-peakT = -1.48 X heart rate + 415. In 128 patients not on beta-blockers this relation was: Q-peakT = -1.14 X heart rate + 379. The difference of the slopes is 0.34 (0.22 - 0.46, 95% confidence interval). This difference was even more pronounced in a subgroup of coronary patients: 0.44 (0.30 - 0.57, 95% confidence interval). These results indicate that in men using beta-blockers the QT-interval shortens faster with increasing heart rate than in men not using them. At high heart rates patients on beta-blockers have a shorter QT-interval than those not using them. These observations could explain the beneficial effect of beta-blockers on exercise-induced ventricular arrhythmias and sudden death in coronary patient

Troponin T and myoglobin at admission: value of early diagnosis of acute myocardial infarction

We studied the predictive power at admission of troponin T and myoglobin and compared them with that of CK and CK-MB activity and ECG in 290 consecutive patients admitted for evaluation of a suspected AMI. The likelihood ratio for an ischaemic ECG at admission < 4 h (between 4 and 12 h) after onset of chest pain was 2.85 (1.92), for a inconclusive ECG 1.53 (1.98) and for a normal ECG 0.27 (0.35). In patients admitted < 4 h after onset of chest pain, the likelihood ratio for abnormal and normal myoglobin concentrations (8.06 and 0.67) was considerably better for detection of AMI as defined by the WHO criteria than for the other markers, including the ECG. In patients admitted 4-12 h after onset of chest pain, the likelihood ratios for abnormal and normal myoglobin concentrations were 4.88 and 0.42; for troponin T 3.11 and 0.31; for CK activity 3.44 and 0.49 and for CK-MB activity 4.08 and 0.54 respectively. The sensitivity for troponin T (64%) was better than that of the other markers but its specificity (74%) was worse, because in patients with unstable angina troponin T was frequently elevated (37%). Stepwise logistic regression analysis showed that the best predictors of AMI within 4 h after onset of chest pain were the ECG and myoglobin and between 4-12 h after onset of chest pain the ECG, CK-MB activity and myoglobi