风湿性二尖瓣狭窄患者活动不耐受的机制:超声心动图与心肺运动压力联合检测方案。
Mechanisms of Effort Intolerance in Patients With Rheumatic Mitral Stenosis: Combined Echocardiography and Cardiopulmonary Stress Protocol.
机构信息
Division of Cardiovascular Diseases and Internal Medicine, Tel Aviv Medical Center, Tel Aviv, Israel; Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel.
Division of Cardiovascular Diseases, Heart and Vascular Institute USA, Einstein Medical Center, Philadelphia, Pennsylvania.
出版信息
JACC Cardiovasc Imaging. 2017 Jun;10(6):622-633. doi: 10.1016/j.jcmg.2016.07.011. Epub 2016 Nov 16.
OBJECTIVES
This study sought to evaluate mechanisms of effort intolerance in patients with rheumatic mitral stenosis (MS).
BACKGROUND
Combined stress echocardiography and cardiopulmonary testing allows assessment of cardiac function, hemodynamics, and oxygen extraction (A-Vo difference).
METHODS
Using semirecumbent bicycle exercise, 20 patients with rheumatic MS (valve area 1.36 ± 0.4 cm) were compared to 20 control subjects at 4 pre-defined activity stages (rest, unloaded, anaerobic threshold, and peak). Various echocardiographic parameters (left ventricular volumes, ejection fraction, stroke volume, mitral valve gradient, mitral valve area, tissue s' and e') and ventilatory parameters (peak oxygen consumption [Vo] and A-Vo difference) were measured during 8 to 12 min of graded exercise.
RESULTS
Comparing patients with MS to control subjects, significant differences (both between groups and for group by time interaction) were seen in multiple parameters (heart rate, stroke volume, end-diastolic volume, ejection fraction, s', e', Vo, and tidal volume). Exercise responses were all attenuated compared to control subjects. Comparing patients with MS and poor exercise tolerance (<80% of expected) to other subjects with MS, we found attenuated increases in tidal volume (p = 0.0003), heart rate (p = 0.0009), and mitral area (p = 0.04) in the poor exercise tolerance group. These patients also displayed different end-diastolic volume behavior over time (group by time interaction p = 0.05). In multivariable analysis, peak heart rate response (p = 0.01), tidal volume response (p = 0.0001), and peak A-Vo difference (p = 0.03) were the only independent predictors of exercise capacity in patients with MS; systolic pulmonary pressure, mitral valve gradient, and mitral valve area were not.
CONCLUSIONS
In patients with rheumatic MS, exercise intolerance is predominantly the result of restrictive lung function, chronotropic incompetence, limited stroke volume reserve, and peripheral factors, and not simply impaired valvular function. Combined stress echocardiography and cardiopulmonary testing can be helpful in determining mechanisms of exercise intolerance in patients with MS.
目的
本研究旨在评估风湿性二尖瓣狭窄(MS)患者努力不耐受的机制。
背景
联合应激超声心动图和心肺测试可评估心功能、血液动力学和氧提取(A-Vo 差)。
方法
使用半卧位自行车运动,将 20 例风湿性 MS 患者(瓣口面积 1.36 ± 0.4 cm)与 20 例对照者在 4 个预先定义的活动阶段(休息、无负荷、无氧阈和峰值)进行比较。在 8 至 12 分钟的分级运动期间,测量各种超声心动图参数(左心室容积、射血分数、每搏量、二尖瓣梯度、二尖瓣面积、组织 s'和 e')和通气参数(峰值耗氧量[Vo]和 A-Vo 差)。
结果
与 MS 患者相比,MS 患者与对照组相比,多项参数(心率、每搏量、舒张末期容积、射血分数、s'、e'、Vo 和潮气量)均存在显著差异(组间差异和组内时间交互作用差异均显著)。与对照组相比,运动反应均减弱。与其他 MS 患者相比,比较 MS 患者和运动耐量差(<80%预期)的患者,我们发现运动耐量差组的潮气量(p=0.0003)、心率(p=0.0009)和二尖瓣面积(p=0.04)增加幅度减弱。这些患者的舒张末期容积随时间的变化也不同(组内时间交互作用 p=0.05)。多元分析显示,峰值心率反应(p=0.01)、潮气量反应(p=0.0001)和峰值 A-Vo 差(p=0.03)是 MS 患者运动能力的唯一独立预测因素;而收缩压、二尖瓣梯度和二尖瓣面积则不是。
结论
在风湿性 MS 患者中,运动不耐受主要是由于限制性肺功能、变时功能不全、有限的每搏量储备和外周因素所致,而不仅仅是瓣膜功能受损。联合应激超声心动图和心肺测试有助于确定 MS 患者运动不耐受的机制。
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