Abstract
Background. A hypertensive response to exercise (HRE) is associated with a high prevalence of left ventricular hypertrophy (LVH), both being related to an increased risk of cardiovascular disease (CVD). However, these associations may be influenced by aerobic capacity (fitness). This study aimed to determine if an HRE considered relative-to-fitness and LVH are associated with increased risk for CVD events. Methods. Records for 4,307 individuals (aged 58.6±12.7 years, 52.0% male) who underwent exercise stress echocardiography were linked to administrative health datasets (hospital and emergency admissions) to ascertain CVD events (n=458, mean follow-up, 44.8±25.9 months). LVH presence/absence (LVH+/LVH-) was defined as LV mass index adjusted for body surface area around a cut point of ≥115 g/m2 for men and ≥95 g/m2 for women. HRE presence/absence (HRE+/HRE-) relative-to-fitness was defined as peak systolic blood pressure (SBP) divided by peak metabolic equivalents around a cut point of ≥90th percentile. Survival analysis using Cox-proportional hazard regression was used to compare CVD event rates across the four groups defined by the combinations of HRE+/HRE- with LVH+/LVH-, adjusted for age, sex, pre-exercise SBP, and CVD history. Results. Compared to the reference group (HRE-/LVH-), there was a stepwise increase in CVD event rate (Figure 1) across the following groups: HRE+/LVH- [Adjusted HR(95%CI), 1.34(1.02-1.76)], HRE-/LVH+ [Adjusted HR(95%CI), 2.1(1.6-3.76)], HRE+/LVH+ [Adjusted HR(95%CI), 2.55(1.64-3.97)]. Conclusion. Individuals with both HRE considered relative-to-fitness and LVH are at the highest risk of CVD events, greater than either clinical presentation alone. These results emphasise the need to address an HRE and low fitness in people with LVH to improve CVD risk management.
Published Version
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