Zhu F, Kuhlmann M K, Kotanko P, Seibert E, Leonard E F, Levin N W
Renal Research Institute, New York, NY 10128, USA.
Physiol Meas. 2008 Jun;29(6):S503-16. doi: 10.1088/0967-3334/29/6/S42. Epub 2008 Jun 11.
Although many methods have been utilized to measure degrees of body hydration, and in particular to estimate normal hydration states (dry weight, DW) in hemodialysis (HD) patients, no accurate methods are currently available for clinical use. Biochemcial measurements are not sufficiently precise and vena cava diameter estimation is impractical. Several bioimpedance methods have been suggested to provide information to estimate clinical hydration and nutritional status, such as phase angle measurement and ratio of body fluid compartment volumes to body weight. In this study, we present a calf bioimpedance spectroscopy (cBIS) technique to monitor calf resistance and resistivity continuously during HD. Attainment of DW is defined by two criteria: (1) the primary criterion is flattening of the change in the resistance curve during dialysis so that at DW little further change is observed and (2) normalized resistivity is in the range of observation of healthy subjects. Twenty maintenance HD patients (12 M/8 F) were studied on 220 occasions. After three baseline (BL) measurements, with patients at their DW prescribed on clinical grounds (DW(Clin)), the target post-dialysis weight was gradually decreased in the course of several treatments until the two dry weight criteria outlined above were met (DW(cBIS)). Post-dialysis weight was reduced from 78.3 +/- 28 to 77.1 +/- 27 kg (p < 0.01), normalized resistivity increased from 17.9 +/- 3 to 19.1 +/- 2.3 x 10(-2) Omega m(3) kg(-1) (p < 0.01). The average coefficient of variation (CV) in three repeat measurements of DW(cBIS) was 0.3 +/- 0.2%. The results indicate that cBIS utilizing a dynamic technique continuously during dialysis is an accurate and precise approach to specific end points for the estimation of body hydration status. Since no current techniques have been developed to detect DW as precisely, it is suggested as a standard to be evaluated clinically.
尽管已经采用了许多方法来测量身体的水合程度,尤其是估计血液透析(HD)患者的正常水合状态(干体重,DW),但目前尚无准确的方法可供临床使用。生化测量不够精确,腔静脉直径估计不切实际。已经提出了几种生物阻抗方法来提供信息以估计临床水合和营养状况,例如相角测量以及体液腔室体积与体重的比率。在本研究中,我们提出了一种小腿生物阻抗光谱(cBIS)技术,用于在血液透析期间连续监测小腿电阻和电阻率。达到干体重由两个标准定义:(1)主要标准是透析期间电阻曲线变化趋于平稳,以至于在干体重时几乎观察不到进一步变化;(2)归一化电阻率在健康受试者的观察范围内。对20名维持性血液透析患者(12名男性/8名女性)进行了220次研究。在进行三次基线(BL)测量后,根据临床情况为患者规定其干体重(DW(Clin)),在几次治疗过程中逐渐降低透析后目标体重,直到满足上述两个干体重标准(DW(cBIS))。透析后体重从78.3±28降至77.1±27 kg(p<0.01),归一化电阻率从17.9±3增加至19.1±2.3×10⁻²Ω·m³·kg⁻¹(p<0.01)。DW(cBIS)的三次重复测量的平均变异系数(CV)为0.3±0.2%。结果表明,在透析期间持续使用动态技术的cBIS是一种准确且精确的方法,可用于估计身体水合状态的特定终点。由于目前尚未开发出能如此精确检测干体重的技术,建议将其作为一种临床评估标准。
