Division of Cardiology, Columbia University, New York, NY 10032, USA.
J Card Fail. 2009 Oct;15(8):689-99. doi: 10.1016/j.cardfail.2009.04.005. Epub 2009 Jun 18.
Hemodynamic responses to exercise were assessed in patients with varying degrees of chronic heart failure (CHF) to determine the feasibility of using bioreactance during exercise testing in multicenter studies of CHF.
A total of 210 symptomatic CHF patients and 22 subjects without heart failure were subjected to symptom-limited exercise testing on a bicycle (105) or treadmill (127) while measuring gas exchange for VO(2), cardiac output (CO) noninvasively by a bioreactance technique, heart rate, and blood pressure. Peak CO (pCO) and VO(2) (pVO(2)) during exercise were lower in patients with higher New York Heart Association (NYHA) class, in females and in older patients. Multiple linear regression analysis showed that pCO (L/min)=19.6+4.M -2.1.NYHA+1.9.G -0.09.Age, where M=1 for treadmill and 0 for bicycle and G=1 for males and 0 for females. Similarly, pVO(2) (mL/kg/min)=24+2.1.M -2.9.NYHA+1.26.G -0.08.Age. VO(2) and CO were also highly correlated to each other: pCO (mL/kg/min)=0.059+0.007.pVO(2)+0.036.M -0.025.G. Similar correlations were determined for other parameters of exercise, including left ventricular power, and the ratio of peak/resting VO(2) (cardiovascular reserve), the ratio of peak/resting CO (cardiac reserve), and total peripheral vascular resistance.
Bioreactance-based noninvasive measurements of CO at rest and during exertion identified abnormalities of cardiovascular function consistent with those identified by pVO(2) and in prior studies using invasive CO measurements. This technique might therefore be useful for indexing disease severity, prognostication, and for tracking responses to treatment in clinical practice and in clinical trials.
评估了不同程度慢性心力衰竭(CHF)患者的运动时血流动力学反应,以确定在多中心 CHF 研究中使用生物电阻抗技术在运动试验期间的可行性。
共有 210 名有症状的 CHF 患者和 22 名无心力衰竭的受试者在自行车(105 名)或跑步机(127 名)上进行了症状限制运动测试,同时通过生物电阻抗技术非侵入性地测量 VO2、心输出量(CO)、心率和血压。运动时的峰值 CO(pCO)和 VO2(pVO2)在纽约心脏协会(NYHA)分级较高、女性和老年患者中较低。多元线性回归分析显示,pCO(L/min)=19.6+4.M-2.1.NYHA+1.9.G-0.09.年龄,其中 M=1 用于跑步机,0 用于自行车,G=1 用于男性,0 用于女性。同样,pVO2(mL/kg/min)=24+2.1.M-2.9.NYHA+1.26.G-0.08.年龄。VO2 和 CO 之间也高度相关:pCO(mL/kg/min)=0.059+0.007.pVO2+0.036.M-0.025.G。对于其他运动参数,包括左心室功率、峰值/休息 VO2 比(心血管储备)、峰值/休息 CO 比(心脏储备)和总外周血管阻力,也确定了类似的相关性。
基于生物电阻抗的 CO 静息和运动时的无创测量确定了心血管功能异常,与通过 pVO2 和之前使用侵入性 CO 测量的研究中确定的异常一致。因此,该技术可能有助于索引疾病严重程度、预测预后以及在临床实践和临床试验中跟踪对治疗的反应。
