标准超滤率和高超滤率血液透析过程中的毛细血管再充盈率及其决定因素。

Transcapillary Refilling Rate and Its Determinants during Haemodialysis with Standard and High Ultrafiltration Rates.

机构信息

Division of Cardiovascular Sciences, School of Medical Sciences, Faculty of Biology, Medicine and Health, The University of Manchester, Manchester Academic Health Science Centre, Manchester, United Kingdom,

Department of Nephrology, Salford Royal NHS Foundation Trust, Salford, United Kingdom,

出版信息

Am J Nephrol. 2019;50(2):133-143. doi: 10.1159/000501407. Epub 2019 Jul 9.

DOI:10.1159/000501407

PMID:31288231

Abstract

BACKGROUND

Achieving euvolaemia using ultrafiltration (UF) during haemodialysis (HD) without inducing haemodynamic instability presents a major clinical challenge. Transcapillary refill is a key factor in sustaining the circulating blood volume (BV) during UF, which is in turn predicted by the rate of refilling. However, absolute plasma refilling rate (PRR), its determinants and variability with UF rate (UFR), have not been reported in the literature.

METHOD

We studied paired HD sessions (n = 48) in 24 patients over 2 consecutive mid-week HD treatments. Plasma refilling was measured using real-time, minute-by-minute relative BV changes obtained from the integrated BV monitoring device during UF. A fixed bolus dilution approach at the start of HD was used to calculate absolute BV. The first control HD session was undertaken with a standard UFR required to achieve the prescribed target weight, while during the second study session, a fixed (high) UFR (1 L/h) was applied, either in the first (n = 12 patients) or in the final hour (n = 12 patients) of the HD session. Participants' had their hydration status measured pre- and post-HD using multifrequency bioimpedance (BIS). Blood pressure was measured at 15-min intervals and blood samples were collected at 7 intervals during HD sessions.

RESULTS

The mean PRR during a standard 4-hr HD session was 4.3 ± 2.0 mL/kg/h and varied between 2 and 6 mL/kg/h. There was a mean time delay of 22 min (range 13.3-35.0 min) for onset of plasma refilling after the application of UF irrespective of standard or high UFRs. The maximum refilling occurred during the second hour of HD (mean max PRR 6.8 mL/kg/h). UFR (beta = 0.60, p < 0.01) and BIS derived pre-HD overhydration index (beta = 0.44, p = 0.01) were consistent, independent predictors of the mean PRR (R2 = 0.49) in all HD sessions. At high UFRs, PRR exceeded 10 mL/kg/h. The total overall plasma refill contribution to UF volume was not significantly different between standard and high UF. During interventions no significant haemodynamic instability was observed in the study.

CONCLUSION

We describe absolute transcapillary refilling rate and its profile during HD with UF. The findings provide the basis for the development of UF strategies to match varying PRRs during HD. An approach to fluid removal, which is tailored to patients' refilling rates and capacity, provides an opportunity for more precision in the practice of UF.

摘要

背景

在血液透析（HD）期间使用超滤（UF）实现血容量平衡而不引起血液动力学不稳定是一个主要的临床挑战。跨毛细血管再充盈是 UF 过程中维持循环血容量（BV）的关键因素，而再充盈速率则可以预测跨毛细血管再充盈。然而，UF 率（UFR）下的绝对血浆再充盈率（PRR）、其决定因素及其变异性尚未在文献中报道。

方法

我们在 24 名患者的 2 个连续的每周中期 HD 治疗中研究了配对的 HD 疗程（n = 48）。在 UF 过程中，使用从集成 BV 监测设备中获得的每分钟实时相对 BV 变化来测量血浆再充盈。在 HD 开始时使用固定的 bolus 稀释方法来计算绝对 BV。第一组对照 HD 疗程采用标准 UFR，以达到规定的目标体重，而在第二组研究疗程中，在 HD 疗程的第一小时（n = 12 名患者）或最后一小时（n = 12 名患者）中应用固定（高）UFR（1 L/h）。在 HD 前后使用多频生物阻抗（BIS）测量患者的水合状态。在 HD 期间每隔 15 分钟测量血压，并在 7 个时间点采集血样。

结果

在标准的 4 小时 HD 疗程中，PRR 的平均值为 4.3 ± 2.0 mL/kg/h，范围为 2 至 6 mL/kg/h。无论 UFR 标准或高，UF 应用后血浆再充盈的起始时间平均延迟 22 分钟（范围 13.3-35.0 分钟）。HD 第二小时再充盈达到最大值（平均最大 PRR 为 6.8 mL/kg/h）。UFR（β = 0.60，p < 0.01）和 HD 前 BIS 得出的超滤液前过度水化指数（β = 0.44，p = 0.01）是所有 HD 疗程中平均 PRR（R2 = 0.49）的一致、独立的预测因子。在高 UFR 下，PRR 超过 10 mL/kg/h。标准 UF 和高 UF 之间 UF 体积的总血浆再填充贡献没有显著差异。在干预过程中，研究中未观察到明显的血液动力学不稳定。