Sympathetic Nervous System Reactivity in Women Following Preeclamptic Pregnancies

Women who have had preeclamptic pregnancies are at risk for life-long cardiovascular disease. However, the factors contributing to this risk have yet to be established. Sympathetic nervous system dysregulation has been proposed to contribute to cardiovascular dysfunction during preeclamptic pregnancies. Therefore, we examined muscle sympathetic nerve activity (MSNA) at baseline and during a chemoreflex stimulus in women 6-24 months postpartum following a preeclamptic pregnancy (PE; n=6, age 28±2 y, BMI 27±3 kg/m2, 17±4 months postpartum). We hypothesized that MSNA responses to apnea would be greater in PE relative to control subjects, that is, women 6-24 months following a healthy pregnancy and with no history of disordered pregnancies (HP; n=6, 31±6 y, BMI 29±5 kg/m2, 17±4 months postpartum). Integrated MSNA recordings were obtained at baseline and during a voluntary end-inspiratory apnea. Baseline mean arterial pressure (MAP; 87±10 vs 95±10 mmHg, P=0.2), total peripheral resistance (TPR; 13±3 vs 14±1 mmHg/L/min, P=0.4), and heart rate (HR; 74±5 vs 74±13, P=0.9) were similar in PE vs HP. Baseline MSNA was higher in PE compared to HP (26±9 vs 14±6 bursts/100heartbeats, P\u3c0.01). The voluntary apnea was maintained for a similar duration in PE and HP (44±17 and 45±10 sec, P=0.9), without any difference in mean MAP (93±14 and 99±11, P=0.4), TPR (14±4 and 14±2, P=0.6), or HR (74±8 and 81±22, P=0.5) between groups. To discern between mild and moderate phases of chemoreflex stress, the apnea was divided into initial (i.e. first half) and latter (i.e. second half) phases for subsequent analyses. The initial phase of the apnea elicited a large increase in MSNA in the PE women which exceeded that observed in HP (37±13 vs 19±11, P=0.03, respectively). The peak sympathetic response observed in the latter half of the apnea was similar between PE and HP (56±21 vs 49±13 bursts/100hb, P=0.5). Thus, the sympathetic nervous system response to a mild chemoreflex stimulus is exaggerated in women who have had preeclampsia within the past 6-24 months relative to women without a history of preeclampsia. We have demonstrated that a recent history of preeclampsia is associated with chronic sympathetic activation as well as greater sympathetic reactivity. We propose these changes to the sympathetic nervous system contribute to the life-long risk for cardiovascular disease in formerly preeclamptic women. Funded by the Paul Titus Fellowship, Department of Obstetrics, Gynecology and Reproductive Sciences, Yale School of Medicin

A temperature hypothesis of hypothalamus-driven obesity

Obesity is a metabolic state in which excess fat is accumulated in peripheral tissues, including the white adipose tissue, muscle, and liver. Sustained obesity has profound consequences on one's life, which can span from superficial psychological symptoms to serious co-morbidities that may dramatically diminish both the quality and length of life. Obesity and related metabolic disorders account for the largest financial burden on the health care system. Together, these issues make it imperative that obesity be cured or prevented. Despite the increasing wealth of knowledge on the etiology of obesity (see below), there is no successful medical strategy that is available for the vast majority of patients. We suggest that brain temperature control may be a crucial component in obesity development and that shortcutting the brain metabolic centers by hypothalamic temperature alterations in a non-invasive remote manner will provide a revolutionary approach to the treatment of obesity