In patients with hypertension, a pattern of left ventricular hypertrophy on the electrocardiogram is associated with a risk of sudden death in excess of the risk attributable to hypertension alone. We therefore investigated the frequency of complex ventricular arrhythmias by means of 48-hour ambulatory electrocardiographic monitoring in 100 treated hypertensive patients, of whom 50 had electrocardiographic evidence of left ventricular hypertrophy and 50 did not, and in 50 normotensive controls. The groups were matched for age, sex, and smoking habits, and the two hypertensive groups were matched for blood-pressure levels before and after antihypertensive therapy. Nonsustained ventricular tachycardia, defined as greater than or equal to 3 complexes at a rate greater than or equal to 120 beats per minute, occurred in 14 (28 percent) of the 50 patients with an electrocardiographic pattern of left ventricular hypertrophy, in 4 (8 percent) of the 50 patients without hypertrophy (P less than 0.05), and in 1 (2 percent) of the control subjects. Eight of the 50 patients (16 percent) with hypertrophy had episodes of nonsustained ventricular tachycardia longer than 5 complexes, whereas no patients without hypertrophy and no controls had such episodes. The group with nonsustained ventricular tachycardia was characterized by a high left ventricular mass on echocardiography and a high prevalence of ST-T abnormalities on electrocardiography. Ventricular tachycardia was not closely related to blood-pressure levels, nor was it associated with diuretic therapy or hypokalemia. The clinical importance of these arrhythmias is uncertain. Nevertheless, our data suggest that complex ventricular arrhythmias occur commonly in hypertensive patients with left ventricular hypertrophy and may contribute to the higher incidence of sudden death in these patients.
Many exercise protocols are in use in clinical cardiology, but no single test is applicable to the wide range of patients' exercise capacity. A new protocol was devised that starts at a low workload and increases by 15% of the previous workload every minute. This is the first protocol to be based on exponential rather than linear increments in workload. The new protocol (standardised exponential exercise protocol, STEEP) is suitable for use on either a treadmill or a bicycle ergometer. This protocol was compared with standard protocols in 30 healthy male volunteers, each of whom performed four exercise tests: the STEEP treadmill and bicycle protocols, a modified Bruce treadmill protocol, and a 20 W/min bicycle protocol. During the two STEEP tests the subjects' oxygen consumption rose gradually and exponentially and there was close agreement between the bicycle and the treadmill protocols. A higher proportion of subjects completed the treadmill than the bicycle protocol. Submaximal heart rates were slightly higher during the bicycle test. The STEEP protocol took less time than the modified Bruce treadmill protocol, which tended to produce plateaux in oxygen consumption during the early stages. The 20 W/min bicycle protocol does not take account of subjects' body weight and consequently produced large intersubject variability in oxygen consumption. The STEEP protocol can be used on either a treadmill or a bicycle ergometer and it should be suitable for a wide range of patients.
We have studied a standardized exercise protocol suitable for use with a treadmill or bicycle (STEEP protocol) and compared it with a modified Bruce treadmill protocol in a group of patients with chronic cardiac failure. The STEEP protocol has been previously validated in normal subjects. Exercise time (6.79 +/- 2.42 vs 5.34 +/- 1.95 min, P < 0.05) and peak VO2 (16.66 +/- 4.09 vs 15.01 +/- 3.72 ml.min-1.kg-1, P < 0.05) were greater with the STEEP treadmill compared with the bicycle protocol, but VO2 was very similar at equal exercise stages in both modalities. Heart rate and respiratory exchange ratio tended to be greater during bicycle exercise at equal stages. Exercise time was greater with the modified Bruce protocol (9.00 +/- 3.02 min, P < 0.05) than with either STEEP protocol, but peak VO2 (17.13 +/- 4.52 ml.min-1.kg-1) was similar to that obtained with the STEEP treadmill test. We conclude that the STEEP protocol may be used to test patients with chronic cardiac failure, and that exercise times relate well in both treadmill and bicycle. The protocol should prove useful in studies involving a wide range of exercise capacities or both bicycle and treadmill exercise.
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