Though cardiovascular disease (CVD) is the leading cause of mortality in women, traditional epidemiology in this area has focused on later life, when cardiometabolic risk has already exacted a cumulative toll on the vascular system. Recent data from the investigators and others has highlighted pregnancy as a unique, early moment of cardiovascular stress in young women that may "unmask" CVD propensity. It is unclear if PreE simply represents a "failed stress test" or directly contributes to the pathophysiology of future CVD. While mechanistic studies have largely been the purview of model-based studies, endothelial dysfunction has emerged as central to the pathogenesis of both PreE and peripartum cardiac dysfunction. Indeed, biomarkers of endothelial dysfunction and angiogenic imbalance during pregnancy have been shown to remain elevated at least 6 months post-partum. Moreover, peri-partum endothelial dysfunction can persist for years post-delivery and remains a significant risk factor for CVD (even after adjustment for other traditional risk factors). While these findings suggest that PreE-associated endothelial dysfunction and inflammation may contribute to early myocardial dysfunction that presages HF risk decades before its onset, the modifiable epidemiology of PreE-associated LVDD, including potential mechanisms of risk, remains unclear, limited by lack of precision molecular phenotypes accessible in a large number of American women across race. Ultimately, understanding the epidemiology and pathobiology of PreE-associated myocardial dysfunction affords a unique opportunity to identify women at risk with a longer lead-time for risk factor modification to interrupt CVD. The investigators hypothesize that persistent structural-functional myocardial alterations after PreE are linked to pre- and post-gravid cardiometabolic risk factors (SA1), functional and hemodynamic impairment (SA2) and select pathways of vascular and inflammatory stress relevant to HF risk (SA3). Despite extensive study on the role of inflammation/ischemia in PreE, there have been no large studies connecting these phenotypes with early PP functional response and biochemical alterations, a key barrier to designing studies for improving CVD/HF in women. SA1: To identify pregnancy-specific clinical factors related to postpartum HFpEF phenotypes Clinical Implication: Improve identification of women at highest risk for developing post-PreE LV diastolic dysfunction (a harbinger of HFpEF). SA2: To define functional and hemodynamic signatures of early HFpEF due to preeclampsia Clinical Implication: Identify women at highest risk for developing early HFpEF. SA3: To identify shared pathophysiologic mechanistic pathways for PreE-associated HFpEF Clinical Implication: Identify targetable pathways for post-PreE cardiac dysfunction that may prevent/ delay HFpEF development.
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To measure relation between postpartum subclinical LV diastolic dysfunction and pregnancy-specific risk factors in 250 women with PreE and 250 normotensive women through echocardiographic imaging.
Timeframe: 12 months