Sundaram Sri, Carnethon Mercedes, Polito Karla, Kadish Alan H, Goldberger Jeffrey J
Division of Cardiac Electrophysiology, Northwestern University Feinberg School of Medicine, 251 E. Huron, Chicago, IL 60611, USA.
Am J Physiol Heart Circ Physiol. 2008 Jan;294(1):H490-7. doi: 10.1152/ajpheart.00046.2007. Epub 2007 Nov 9.
This study was designed to assess autonomic effects on the QT interval during recovery from exercise. Exercise is associated with an acute increased risk of sudden cardiac death. Evidence of impaired parasympathetic activity, such as low heart rate variability and heart rate recovery, and an increased QT interval are also associated with increased mortality. However, there is no clear pathophysiological link among these findings. Bicycle exercise testing was performed serially in 33 healthy volunteers (19 men; ages, 54 +/- 7 yr) under four conditions: 1) baseline, 2) beta-adrenergic blockade-intravenous propranolol (0.2 mg/kg) administered during exercise, 3) parasympathetic blockade-intravenous atropine (0.04 mg/kg) administered during exercise, and 4) double blockade with propranolol and atropine. ECGs were obtained every minute in recovery for 10 min and then at the 15th and 20th min, from which the QT and RR intervals were measured. Linear regression analyses were used to assess the individual QT-RR relationships for each subject for each condition. Relative to baseline, the QT-RR relationship with parasympathetic blockade was shifted to the left and had a steeper slope. In contrast, the QT-RR relationship with beta-adrenergic blockade was shifted to the right and had a less steep slope. The baseline and double-blockade QT-RR relationships were in the middle and essentially superimposable. There was a negative relationship between QT-RR slope and heart rate or RR interval recoveries, but it was significant only for the 1- and 2-min RR interval recoveries with low R(2) values of 0.124 and 0.114. The main parasympathetic effect in the postexercise recovery period is to counteract the sympathetically mediated QT prolongation. These data support the concept that parasympathetic tone may provide a natural antiarrhythmic effect during this time.
本研究旨在评估运动恢复过程中自主神经系统对QT间期的影响。运动与心脏性猝死的急性风险增加有关。副交感神经活动受损的证据,如心率变异性降低和心率恢复异常,以及QT间期延长也与死亡率增加有关。然而,这些发现之间尚无明确的病理生理联系。对33名健康志愿者(19名男性;年龄54±7岁)在四种情况下进行了连续的自行车运动试验:1)基线状态;2)β-肾上腺素能阻滞剂——运动期间静脉注射普萘洛尔(0.2 mg/kg);3)副交感神经阻滞剂——运动期间静脉注射阿托品(0.04 mg/kg);4)普萘洛尔和阿托品双重阻滞。在恢复过程中,每分钟记录一次心电图,持续10分钟,然后在第15分钟和第20分钟记录,测量QT间期和RR间期。采用线性回归分析评估每种情况下每个受试者的个体QT-RR关系。相对于基线状态,副交感神经阻滞后的QT-RR关系向左偏移且斜率更陡。相比之下,β-肾上腺素能阻滞后的QT-RR关系向右偏移且斜率较缓。基线状态和双重阻滞时的QT-RR关系处于中间位置且基本重叠。QT-RR斜率与心率或RR间期恢复之间呈负相关,但仅在RR间期恢复1分钟和2分钟时具有显著性,决定系数(R²)较低,分别为0.124和0.114。运动后恢复期副交感神经的主要作用是抵消交感神经介导的QT间期延长。这些数据支持了这样一种观点,即在此期间副交感神经张力可能具有天然的抗心律失常作用。
