Abstract
BackgroundLong-term endurance sport practice leads to eccentric left ventricular hypertrophy (LVH). We aimed to compare the new 4-tiered classification (4TC) for LVH with the established 2-tiered classification (2TC) in a cohort of normotensive non-elite endurance athletes.MethodsMale participants of a 10-mile race were recruited and included when blood pressure (BP) was normal (<140/90 mmHg). Phenotypic characterization of LVH was based on relative wall thickness (2TC), and on LV concentricity2/3 (LV mass/end-diastolic volume [LVM/EDV]2/3) plus LVEDV index (4TC). Parameters of LV geometry, BP, cumulative training hours, and race time were compared between 2TC and 4TC by analysis of variance, and post-hoc analysis.ResultsOf 198 athletes recruited, 174 were included. Mean age was 41.6±7.5 years. Forty-two (24%) athletes had LVH. Allocation in the 2TC was: 32 (76%) eccentric LVH and 10 (24%) concentric LVH. Using the 4TC 12 were reclassified to concentric LVH, and 2 to eccentric LVH, resulting in 22 (52%) eccentric LVH (7 non-dilated, 15 dilated), and 20 (48%) concentric LVH (all non-dilated). Based on the 2TC, markers of endurance training did not differ between eccentric and concentric LVH. Based on the 4TC, athletes with eccentric LVH had more cumulative training hours and faster race times, with highest values thereof in athletes with eccentric dilated LVH.ConclusionsIn our cohort of normotensive endurance athletes, the new 4TC demonstrated a superior discrimination of exercise-induced LVH patterns, compared to the established 2TC, most likely because it takes three-dimensional information of the ventricular geometry into account.
Highlights
Left ventricular hypertrophy (LVH) is associated with cardiovascular morbidity and mortality in hypertensive patients as well as in the general population [1,2,3]
Phenotypic characterization of LVH was based on relative wall thickness (2TC), and on LV concentricity2/3 (LV mass/end-diastolic volume [LVM/ EDV]2/3) plus LVEDV index (4TC)
Using the 4-tiered classification (4TC) 12 were reclassified to concentric LVH, and 2 to eccentric LVH, resulting in 22 (52%) eccentric LVH (7 non-dilated, 15 dilated), and 20 (48%) concentric LVH
Summary
Left ventricular hypertrophy (LVH) is associated with cardiovascular morbidity and mortality in hypertensive patients as well as in the general population [1,2,3]. Exercise-induced LV remodeling appears to be a phasic phenomenon, where the increase in LV cavity size may precede or follow the increase in LV wall thickness, based on type and level of sports, leading to eccentric LVH [7, 8]. Compared to the 2TC, the 4TC demonstrated superior risk-stratification for adverse cardiovascular events in hypertensive patients (with the method adapted to echocardiography [4]) and in the general population [4, 11]. The aim of the present study was to compare the new 4TC of LVH with the established 2TC in a cohort of normotensive non-elite endurance athletes with a wide range of training volume and competitive race performance. We aimed to compare the new 4-tiered classification (4TC) for LVH with the established 2tiered classification (2TC) in a cohort of normotensive non-elite endurance athletes
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