Chan Wan Leong, Lu Tse Min, Wang Jiann Jong, Jiau Shyi Shiaw, Kong Chi Woon
Division of Cardiology, Department of Medicine, Taipei Veterans General Hospital and School of Medicine, National Yang-Ming University, Taipei, Taiwan, ROC.
Clin Cardiol. 2004 Nov;27(11):635-40. doi: 10.1002/clc.4960271111.
Vasovagal and vasodepressor syncope are used interchangeably in the literature to describe the common faint syndrome, now collectively named neurally mediated syncope. The significance of heart rate (HR) in these reflex-induced reactions remains unclear.
The study was undertaken to investigate the hemodynamic significance of HR in tilt-induced neurally mediated syncope.
In all, 113 patients with syncope of unknown etiology were studied by head-up tilt test with invasive hemodynamic monitoring. Thirty-five patients (15 women, 20 men, age range 21 to 72 years) developed syncope and were enrolled for analysis. The hemodynamic data were compared between patients who developed bradycardia (vasovagal group, n = 15) and those without bradycardia (vasodepressor group, n = 20).
The baseline hemodynamic data (mean +/- standard deviation) and the hemodynamic responses after 10-min headup tilt were similar between patients in the vasovagal and vasodepressor groups. During syncope, patients with vasovagal reaction developed hypotension and paradoxical bradycardia (HR = 52.4 +/- 5.9 beats/min), while patients with vasodepressor reaction developed a precipitous drop in arterial blood pressure with inappropriate HR (105 +/- 21 beats/min) compensation. Patients with vasovagal syncope manifested a significantly lower cardiac index and a significantly higher systemic vascular resistance index than patients with vasodepressor syncope (1.47 +/- 0.29 vs. 1.97 +/- 0.41 1/min/m2, p < 0.001 and 2098 +/- 615 vs. 1573 +/- 353 dynes x s x cm(-5) x m2, p < 0.003, respectively). A positive correlation existed between HR and cardiac index (r = 0.44, p = 0.008) during syncope in the patients studied.
These findings suggest that the hemodynamic characteristics of vasovagal and vasodepressor reactions are different, and that HR plays a significant role in neurally mediated syncope.
在文献中,血管迷走性晕厥和血管减压性晕厥可互换使用,以描述常见的晕厥综合征,现统称为神经介导性晕厥。心率(HR)在这些反射性诱发反应中的意义仍不明确。
本研究旨在探讨心率在倾斜诱发的神经介导性晕厥中的血流动力学意义。
总共对113例病因不明的晕厥患者进行了头高位倾斜试验,并进行有创血流动力学监测。35例患者(15例女性,20例男性,年龄范围21至72岁)发生晕厥并纳入分析。比较发生心动过缓的患者(血管迷走性组,n = 15)和未发生心动过缓的患者(血管减压性组,n = 20)的血流动力学数据。
血管迷走性组和血管减压性组患者的基线血流动力学数据(平均值±标准差)以及头高位倾斜10分钟后的血流动力学反应相似。晕厥期间,血管迷走性反应患者出现低血压和矛盾性心动过缓(心率 = 52.4±5.9次/分钟),而血管减压性反应患者出现动脉血压急剧下降,心率代偿不当(105±21次/分钟)。血管迷走性晕厥患者的心脏指数明显低于血管减压性晕厥患者,全身血管阻力指数明显高于血管减压性晕厥患者(分别为1.47±0.29对1.97±0.41 1/分钟/平方米,p < 0.001;2098±615对1573±353达因×秒×厘米⁻⁵×平方米,p < 0.003)。在所研究的患者晕厥期间,心率与心脏指数之间存在正相关(r = 0.44,p = 0.008)。
这些发现表明,血管迷走性和血管减压性反应的血流动力学特征不同,且心率在神经介导性晕厥中起重要作用。