Impaired maternal central hemodynamics precede the onset of vascular disorders of pregnancy at high altitude

Abstract

Hypertensive disorders of pregnancy represent an escalating global health concern with increasing incidence in low- to middle-income countries and high-income countries alike. The current lack of methods to detect the subclinical stages of preeclampsia (PE) and fetal growth restriction (FGR), two common vascular disorders of pregnancy, limits treatment options to minimize acute- and long-term adverse outcomes for both mother and child. To determine whether impaired maternal cardiovascular or uteroplacental vascular function precedes the onset of PE and/or FGR (PE-FGR), we used noninvasive techniques to obtain serial measurements of maternal cardiac output (CO), stroke volume (SV), systemic vascular resistance (SVR), and uterine and fetal arterial resistance at <i>gestational weeks 10-16</i>, <i>20</i>-<i>24</i>, and <i>30-34</i> for 79 maternal-infant pairs in La Paz-El Alto, Bolivia (3,850 m), where the chronic hypoxia of high altitude increases the incidence of PE and FGR. Compared with controls (<i>n</i> = 55), PE-FGR cases (<i>n</i> = 24) had lower SV, higher SVR, and greater uterine artery resistance at 10-16 wk. In addition, fetuses of women with lower SV and higher SVR at 10-16 wk showed evidence of brain sparing at 30-34 wk and had lower birth weights, respectively. Although the trajectory of SV and SVR across pregnancy was similar between groups, PE-FGR cases had a comparatively blunted rise in CO from the first to the third visit. Impaired maternal central hemodynamics and increased uteroplacental resistance precede PE-FGR onset, highlighting the potential use of such measures for identifying high-risk pregnancies at high altitudes.<b>NEW & NOTEWORTHY</b> In this prospective study of maternal central hemodynamics at high altitude, pregnancies later affected by preeclampsia (PE) and/or fetal growth restriction (FGR) show elevated systemic and uterine vascular resistance and reduced stroke volume as early as 10-16 wk gestation. Maternal hemodynamic assessments could facilitate early detection of high-risk pregnancies, improving resource allocation and reducing adverse outcomes. We propose an integrated model linking maternal cardiovascular performance to placental insufficiency, enhancing the understanding of PE-FGR in high-altitude settings.