Joint modeling of longitudinal systolic and diastolic blood pressure trajectories was evaluated for predicting the risk of coronary artery disease over up to 20 years of follow-up.
Cohort
In the last decade, few topics in the area of cardiovascular disease (CVD) research have received as much attention as risk prediction. One of the well-documented risk factors for CVD is high blood pressure (BP). Traditional CVD risk prediction models consider BP levels measured at a single time and such models form the basis for current clinical guidelines for CVD prevention. However, in clinical practice, BP levels are often observed and recorded in a longitudinal fashion. Information on BP trajectories can be powerful predictors for CVD events. We consider joint modeling of time to coronary artery disease and individual longitudinal measures of systolic and diastolic BPs in a primary care cohort with up to 20 years of follow-up. We applied novel prediction metrics to assess the predictive performance of joint models. Predictive performances of proposed joint models and other models were assessed via simulations and illustrated using the primary care cohort.
Yang et al. (Mon,) conducted a cohort in Coronary artery disease. Longitudinal blood pressure trajectories was evaluated on Time to coronary artery disease. Joint modeling of longitudinal systolic and diastolic blood pressure trajectories was evaluated for predicting the risk of coronary artery disease over up to 20 years of follow-up.
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