Limberg Jacqueline K, Taylor Jennifer L, Mozer Michael T, Dube Simmi, Basu Ananda, Basu Rita, Rizza Robert A, Curry Timothy B, Joyner Michael J, Wehrwein Erica A
Department of Physiology, Michigan State University, East Lansing (E.A.W.); Departments of Anesthesiology (J.K.L., J.L.T., M.T.M., T.B.C., M.J.J.), and Endocrinology (S.D., A.B., R.B., R.A.R.), Mayo Clinic, Rochester, MN.
Hypertension. 2015 Jun;65(6):1365-71. doi: 10.1161/HYPERTENSIONAHA.115.05325. Epub 2015 Apr 13.
Hypoglycemia results in a reduction in cardiac baroreflex sensitivity and a shift in the baroreflex working range to higher heart rates. This effect is mediated, in part, by the carotid chemoreceptors. Therefore, we hypothesized hypoglycemia-mediated changes in baroreflex control of heart rate would be blunted in carotid body-resected patients when compared with healthy controls. Five patients with bilateral carotid body resection for glomus tumors and 10 healthy controls completed a 180-minute hyperinsulinemic, hypoglycemic (≈3.3 mmol/L) clamp. Changes in heart rate, blood pressure, and spontaneous cardiac baroreflex sensitivity were assessed. Baseline baroreflex sensitivity was not different between groups (P>0.05). Hypoglycemia resulted in a reduction in baroreflex sensitivity in both the groups (main effect of time, P<0.01) and responses were lower in resected patients when compared with controls (main effect of group, P<0.05). Hypoglycemia resulted in large reductions in systolic (-17±7 mm Hg) and mean (-14±5 mm Hg) blood pressure in resected patients that were not observed in controls (interaction of group and time, P<0.05). Despite lower blood pressures, increases in heart rate with hypoglycemia were blunted in resected patients (interaction of group and time, P<0.01). Major novel findings from this study demonstrate that intact carotid chemoreceptors are essential for increasing heart rate and maintaining arterial blood pressure during hypoglycemia in humans. These data support a contribution of the carotid chemoreceptors to blood pressure control and highlight the potential widespread effects of carotid body resection in humans.
低血糖会导致心脏压力反射敏感性降低,压力反射工作范围向更高心率偏移。这种效应部分由颈动脉化学感受器介导。因此,我们推测与健康对照相比,颈动脉体切除患者中低血糖介导的心率压力反射控制变化会减弱。5例因颈动脉体瘤接受双侧颈动脉体切除的患者和10名健康对照完成了一项180分钟的高胰岛素血症性低血糖(约3.3 mmol/L)钳夹试验。评估心率、血压和自发性心脏压力反射敏感性的变化。两组的基线压力反射敏感性无差异(P>0.05)。低血糖导致两组的压力反射敏感性均降低(时间的主效应,P<0.01),与对照组相比,切除患者的反应更低(组的主效应,P<0.05)。低血糖导致切除患者的收缩压(-17±7 mmHg)和平均压(-14±5 mmHg)大幅降低,而对照组未观察到这种情况(组与时间的交互作用,P<0.05)。尽管血压较低,但切除患者中低血糖引起的心率增加减弱(组与时间的交互作用,P<0.01)。本研究的主要新发现表明,完整的颈动脉化学感受器对于人类在低血糖期间增加心率和维持动脉血压至关重要。这些数据支持颈动脉化学感受器对血压控制的作用,并突出了颈动脉体切除在人类中可能产生的广泛影响。