Journal of electrocardiology
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Clinical Trial
QT interval and repolarization time in patients with intraventricular conduction delay.
A prolonged QT interval is an important prognostic indicator for cardiac arrhythmias and sudden death. The conventional QT interval measurement, however, includes in its measure the cardiac depolarization (QRS) as well as the cardiac repolarization (JT) intervals. To evaluate the relative contribution of the depolarization and the repolarization time prolongation to the prolonged QT interval in patients with intraventricular conduction delay (IVCD), the QRS, QT, and JT intervals were measured in 72 subjects with various types of IVCD. ⋯ All of these intervals were significantly prolonged compared to 430 +/- 4.3 msec in the control group. The prolongation of QTc interval in each category of IVCD subjects was entirely secondary to a prolonged depolarization time, as the repolarization intervals were not significantly different from those observed in the control group (F = 0.5, p = NS). These observations may provide an explanation for the differential prognosis for subjects with prolonged QT interval with prolonged repolarization time as compared to those with prolonged QT interval with prolonged depolarization time.
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Electrocardiograms of 50 patients with accidental hypothermia were reviewed with regard to the J wave with the following results: (1) J waves were observed in 40 of 50 cases. (2) J waves were recorded most frequently in leads II or V6 (34 of 40 cases, 85%). However, in deep hypothermia, the J wave was often most prominent in leads V3 or V4. (3) The size of the J wave appeared to be related to body temperature. ⋯ However, a small J wave persisted in many cases even after normothermia was restored. It was also difficult to distinguish these small J waves from small notches at the QRS-ST junction which are sometimes observed in normal individuals not subjected to hypothermia.
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Thirty patients with variant angina pectoris (VAP) were analyzed for electrocardiographic features during episodes of VAP. Twenty-nine of these patients had cardiac catheterization, and an autopsy study was performed in one. The patients showed predominantly concave upright T-waves during pain. ⋯ The abnormal ST-segment response included elevation in four patients and depression in three. During exercise, Group I with ST-elevation displayed a normal (negative) delta R response; while Group II with ST-depression displayed an abnormal delta R response (positive or no change). There was no difference in the coronary score between Group II patients with ST-segment elevation or depression.
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Case Reports
Paroxysmal ventricular tachycardia in Wolff-Parkinson-White syndrome: case report and review of the literature.
A case with Type A Wolff-Parkinson-White pattern and recurrent sustained ventricular tachycardia is presented. Because of ventricular pre-excitation, electrocardiographic clues suggestive of ventricular tachycardia were ignored and the diagnosis of supraventricular tachycardia with conduction to the ventricles over the accessory pathway was made during each admission to the hospital. ⋯ Tachycardia was unresponsive to all conventional antiarrhythmic agents but was controlled with amiodarone. The differential diagnosis of wide QRS complex tachycardia in patients with Wolff-Parkinson-White syndrome, the implications of correctly diagnosing the tachycardia, and the usefulness of intracardiac electrophysiologic studies in differentiating supraventricular tachycardia with aberrant conduction from ventricular tachycardia are discussed.
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P wave triggered pacemakers can produce complicated arrhythmias during normal function. A ventricular, R wave inhibited pacemaker and an atrial sensing pacemaker were both present and functioning normally in the patient reported here. A premature paced beat was observed every 12th beat which resulted from discharge of the atrial sensing pacemaker. This arrhythmia appeared because a "P" wave occurred during the noise sampling period of the atrial sensing pacemaker, disabling the demand function and resulting in generator discharge on or near the T wave of a preceding unsensed beat while the pacemaker was in the asynchronous mode.