Stress Reactivity and Mother-Infant Cardiovascular Disease Risk

Hypertensive disorders of pregnancy (HDP) affect 1 out of 10 pregnancies, contribute annually to over two billion dollars of health care utilization costs, and are a leading cause of maternal morbidity and mortality in the United States. HDP confer long-term cardiovascular disease (CVD) risk for both mother and infant. Thus, prevention of prenatal HDP is essential to reducing intergenerational transmission of CVD risk. Prenatal mindfulness training (MT) has shown promise as a non-pharmacological intervention to prevent HDP and is associated with improved mother-infant outcomes at birth. Benefits of prenatal MT on maternal-infant stress responses and concomitant effects on CVD risk have not been examined.

One proposed mechanism thought to confer cardiovascular benefits of MT is improved physiological stress response via the autonomic nervous system (ANS). ANS dysfunction has been linked with early childhood physical health concerns, such as obesity and elevated blood pressure, and increased CVD risk in adulthood, and thus may be a significant target for interventions aiming to disrupt intergenerational risk for CVD.There is emerging evidence that prenatal MT interventions may improve sympathetic reactivity to and recovery from stress (as measured by pre-ejection period activity) in 6-month old infants. Biobehavioral frameworks of attachment propose that mother-child dyads engage in physiological coregulation that influences self-regulatory processes. Maternal-infant synchrony of heartbeat and motor activity begins in utero and may promote children's physical and behavioral health. Concordance of maternal-infant self-regulation in stressful situations, a proxy of adaptive psychophysiological reactivity, may thus be associated with reduced CVD risk. However, it is not yet known whether prenatal MT is associated with improved maternal-infant regulation of ANS responses to stress, or whether these responses are associated with maternal and pediatric cardiovascular outcomes. These data are essential for the development of targeted parenting interventions that promote adaptive coregulatory stress responses and disrupt postpartum pathways for intergenerational CVD risk.

To address this knowledge gap, this study will examine effects of a prenatal MT intervention on postpartum maternal-infant psychophysiological coregulatory processes that may decrease maternal and infant CVD. The study will leverage the data and infrastructure from an ongoing RCT (PI: Mentor Bublitz; R01HL157288) examining mechanisms of a prenatal MT intervention on the prevention of HDP. At 6 months postpartum, maternal-infant physiological reactivity to stress will be assessed. At 12 months postpartum, maternal and infant CVD risk will be measured. This study aims to: 1) Evaluate psychophysiological responses to stress in women randomized to MT vs usual care and their offspring and 2) Evaluate the relationship between maternal-infant psychophysiological responses to stress and cardiovascular markers of disease risk. Using innovative assessment and analysis of self-and coregulation, results will provide insights into whether and how prenatal mindfulness impacts stress reactivity for mothers and their infants and, for the first time, whether coregulatory physiology is linked with cardiovascular disease risk.