Abstract des Autors

The transient response of oxygen uptake (VO2) to submaximal exercise, known to be abnormal in patients with cardiovascular disorders, can be useful in assessing the functional status of the cardiocirculatory system, however, a method for evaluating it accurately has not yet been established. As an alternative approach to the conventional test at constant exercise intensity, we applied a random stimulus technique that has been shown to provide relatively noise immune responses of system being investigated. In 27 patients with heart failure and 24 age-matched control subjects, we imposed cycle exercise at 50 W intermittently according to a pseudo-random binary (exercise-rest) sequence, while measuring breath-by-breath VO2. After determining the transfer function relating exercise intensity (W) to VO2 and attenuating the high frequency ranges (>6 exercise-rest cycles/min), we computed the high resolution band-limited (0-6 cycles/min) VO2 response (0-120 s) to a hypothetical step exercise. The VO2 response showed a longer time constant in the patients than in the control subjects (47 (SD 37) and 31 (SD 8) s, respectively, P<0.05). Furthermore, the amplitude of the VO2 response after the initial response was shown to be significantly smaller in the patients than in the control subjects (176 (SD 50) and 267 (SD 54) ml/min at 120 s). The average amplitude over 120 s correlated well with peak VO2 (r=0.73) and deltaVO2/deltaW (r=0.70), both of which are well-established indexes of exercise tolerance. The data indicated that our band-limited VO2 step response using random exercise was more markedly attenuated and delayed in the patients with heart failure than in the normal controls and that it could be useful in quantifying the overall functional status of the cardiocirculatory system. Verf.-Referat