PURPOSE: The purpose of the present investigation was to examine differences that may exist in maximal and submaximal exercise gas exchange parameters and their use in differentiating pathological and physiological left ventricular hypertrophy. METHODS: Exercise gas exchange responses were measured on-line during a maximal ramping cycle-ergometer exercise test in 10 young, male hypertrophic cardiomyopathy (HCM) patients, 11 elite triathletes, and 9 normal controls. RESULTS: The HCM patients exhibited significantly lower VO2max, anaerobic threshold (AT) in both absolute terms (ATVO2) and as a percentage of VO2max (AT%VO2max), and oxygen-pulse (O2-pulse) compared with triathletes and normal controls. Elite triathletes exhibited significantly increased VO2max, %VO2max, ATVO2, AT%VO2max and O2-pulse compared with controls. The VE/VCO2 at AT was significantly increased in the HCM patients compared with triathletes and controls, whereas no difference was observed between triathletes and controls. CONCLUSIONS: Maximal and submaximal exercise gas exchange responses may be used as an additional noninvasive tool in the differential diagnosis of physiologic and pathologic left ventricular hypertrophy.
PURPOSE: The purpose of the present investigation was to examine differences that may exist in maximal and submaximal exercise gas exchange parameters and their use in differentiating pathological and physiological left ventricular hypertrophy. METHODS: Exercise gas exchange responses were measured on-line during a maximal ramping cycle-ergometer exercise test in 10 young, male hypertrophic cardiomyopathy (HCM) patients, 11 elite triathletes, and 9 normal controls. RESULTS: The HCM patients exhibited significantly lower VO2max, anaerobic threshold (AT) in both absolute terms (ATVO2) and as a percentage of VO2max (AT%VO2max), and oxygen-pulse (O2-pulse) compared with triathletes and normal controls. Elite triathletes exhibited significantly increased VO2max, %VO2max, ATVO2, AT%VO2max and O2-pulse compared with controls. The VE/VCO2 at AT was significantly increased in the HCM patients compared with triathletes and controls, whereas no difference was observed between triathletes and controls. CONCLUSIONS: Maximal and submaximal exercise gas exchange responses may be used as an additional noninvasive tool in the differential diagnosis of physiologic and pathologic left ventricular hypertrophy.