Hemodynamic Monitoring During Hemodialysis Using Bioimpedance: A Comparison of Changes in Resistance Between Different Body Segments.

Hemodialysis international. International Symposium on Home Hemodialysis Pub Date : 2025-04-28 DOI:10.1111/hdi.13245

Melanie K Schoutteten, Patrick van der Heijden, Astrid D H Brys, Bart De Moor, Chris van Hoof, Geert Langereis, Jeroen P Kooman, Pieter M Vandervoort

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引用次数: 0

Abstract

Introduction: Prevention of hemodynamic complications during hemodialysis remains challenging. Although whole body bioimpedance is well established in fluid status assessment, its use for dynamic or continuous recordings is limited. A segmental approach may serve this purpose better. This study investigates which body segment is best targeted to measure bioimpedance for hemodynamic monitoring.

Methods: In this observational study, serial bioimpedance measurements were conducted on the whole body, lower leg, upper arm, and thorax of 15 patients during two hemodialysis sessions. The resistance component of bioimpedance was used to investigate the relationship with changes in volume and systolic blood pressure (SBP).

Findings: Predialysis to postdialysis changes in relative resistance between the two sessions revealed the lowest intraclass correlation coefficient for upper arm (0.023) and the highest for thoracic resistance (0.728). Correlation between ultrafiltration volume and relative resistance was comparable between upper arm and thoracic segment (0.538 [0.447-0.618] and 0.537 [0.446-0.617], both p < 0.001, respectively) and the highest for whole-body and lower leg (0.697 [0.63-0.754] and 0.670 [0.598-0.731], both p < 0.001, respectively). In contrast, the correlation between changes in SBP and relative resistance was the highest in the thoracic segment (-0.33 [-0.432 to -0.219], p < 0.001) and the lowest for whole body measurements (-0.154 [-0.269 to -0.036], p = 0.01). In addition, multiple regression analysis indicated thoracic resistance as the best predictor for changes in SBP (β = -0.261 [-0.353 to -0.126], p < 0.001).

Discussion: These findings suggest that the thorax is the most suitable region for segmental bioimpedance measurements to assess hemodynamic parameters. Thoracic bioimpedance may innovate the hemodynamic monitoring of hemodialysis patients.

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利用生物阻抗监测血液透析过程中的血流动力学：不同身体部位间阻力变化的比较。

导言：预防血液透析期间的血流动力学并发症仍然具有挑战性。尽管全身生物阻抗在流体状态评估中已经很好地建立起来，但它在动态或连续记录中的应用是有限的。分段方法可以更好地达到这一目的。本研究探讨了血液动力学监测中哪个身体部位最适合测量生物阻抗。方法：在这项观察性研究中，对15例患者在两次血液透析期间的全身、小腿、上臂和胸部进行了一系列生物阻抗测量。利用生物阻抗的阻力分量来研究容积和收缩压（SBP）变化的关系。结果：透析前和透析后两个阶段的相对阻力变化显示，上臂的类内相关系数最低（0.023），胸廓阻力最高（0.728）。上臂和胸椎段的超滤体积和相对阻力的相关性可比较（0.538[0.447-0.618]和0.537[0.446-0.617]）。讨论：这些发现表明胸部是最适合进行节段性生物阻抗测量以评估血流动力学参数的区域。胸廓生物阻抗可能革新血液透析患者的血流动力学监测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hemodialysis international. International Symposium on Home Hemodialysis

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