High average systolic blood pressure and low relative SBP rise during graded exercise independently predicted incident major adverse cardiovascular events (HR 1.16 and 1.19 in men, respectively).
Cohort (n=6,107)
Do distinct systolic blood pressure trajectories during graded exercise predict incident MACE in patients undergoing maximal cycle ergometry?
Analyzing full systolic blood pressure trajectories during graded exercise provides complementary prognostic value for predicting MACE beyond traditional single-point metrics.
Hazard Ratio: 1.16
valor p: p=<0.0001
Abstract Background The systolic blood pressure (SBP) response to exercise reflects cardiovascular health, with both exaggerated and blunted responses being linked to adverse outcomes. Prior studies relied typically on peak SBP or two-point slopes for evaluation, but these metrics capture only a fraction of the SBP response. Instead, we may gain deeper physiological and prognostic insights when analysing the full SBP trajectory, from rest to maximal exertion. Purpose To identify distinct SBP responses from full times-series recorded during a maximal, graded exercise test and assess their clinical determinants and prognostic relevance. Methods We analysed SBP recordings from 6107 patients (mean age, 55.4 years; 45% women) who underwent maximal cycle ergometry. Group-based trajectory modelling (GBTM) extracted sex-specific responses from absolute SBP levels and the relative change (∆SBP) traces. Associations with clinical factors and incident major adverse cardiovascular events (MACE) were assessed using ordinal logistic regression and Cox survival analyses, respectively. Results Per sex, GBTM identified four distinct SBP and four ∆SBP trajectories (Figure 1). Agreement between SBP and ∆SBP trajectory assignments was weak, suggesting the two metrics captured different components of the exercise SBP response. Higher SBP and lower ∆SBP trajectories were associated with adverse clinical profiles, including higher age and lower exercise capacity. Survival analyses revealed a graded increase in MACE incidence from low to high SBP response and from high to low ∆SBP rise (PLOG-RANK0.0001 for both). In men, high SBP and low ∆SBP independently predicted MACE in multivariable-adjusted analyses (adjusted hazard ratio (HR) relative to the cohort’s average risk: 1.16 and 1.19, respectively). In women, only a mid-high SBP response was associated with increased MACE risk after full adjustment (adjusted HR: 1.22; P=0.007). In both sexes, patients presenting the combination of high average SBP response (high SBP) and low SBP rise (low ∆SBP) conferred the highest risk (Figure 2). Conclusions Time-series analysis of SBP measurements during graded exercise revealed distinct response patterns with complementary value for MACE prediction (Figure 1). Integrating SBP time-series analyses into exercise testing may refine cardiovascular risk stratification, particularly when integrating absolute and relative SBP dynamics.For image description, please refer to the figure legend and surrounding text. For image description, please refer to the figure legend and surrounding text.
Cauwenberghs et al. (Mon,) conducted a cohort in Cardiovascular risk assessment (n=6,107). High systolic blood pressure (SBP) and low relative change (∆SBP) trajectories during exercise vs. Cohort's average risk was evaluated on Incident major adverse cardiovascular events (MACE) (HR 1.16, p=<0.0001). High average systolic blood pressure and low relative SBP rise during graded exercise independently predicted incident major adverse cardiovascular events (HR 1.16 and 1.19 in men, respectively).