Continuous Renal Replacement Therapy During Long-term Normothermic Machine Perfusion of Human Donor Livers for up to 7 D.

IF 1.9 Q3 TRANSPLANTATION Transplantation Direct Pub Date : 2024-01-24 eCollection Date: 2024-02-01 DOI:10.1097/TXD.0000000000001568

Bianca Lascaris, Roland F Hoffmann, Maarten W N Nijsten, Robert J Porte, Vincent E de Meijer

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Abstract

Background: Normothermic machine perfusion (NMP) is used to preserve and test donor livers before transplantation. During NMP, the liver is metabolically active and produces waste products, which are released into the perfusate. In this study, we describe our simplified and inexpensive setup that integrates continuous renal replacement therapy (CRRT) with NMP for up to 7 d. We also investigated if the ultrafiltrate could be used for monitoring perfusate concentrations of small molecules such as glucose and lactate.

Methods: Perfusate composition (urea, osmolarity, sodium, potassium, chloride, calcium, magnesium, phosphate, glucose, and lactate) was analyzed from 56 human NMP procedures without CRRT. Next, in 6 discarded human donor livers, CRRT was performed during NMP by integrating a small dialysis filter (0.2 m²) into the circuit to achieve continuous ultrafiltration combined with continuous fluid substitution for up to 7 d.

Results: Within a few hours of NMP without CRRT, a linear increase in osmolarity and concentrations of urea and phosphate to supraphysiological levels was observed. After integration of CRRT into the NMP circuit, the composition of the perfusate was corrected to physiological values within 12 h, and this homeostasis was maintained during NMP for up to 7 d. Glucose and lactate levels, as measured in the CRRT ultrafiltrate, were strongly correlated with perfusate levels (r = 0.997, P < 0.001 and r = 0.999, P < 0.001, respectively).

Conclusions: The integration of CRRT into the NMP system corrected the composition of the perfusate to near-physiological values, which could be maintained for up to 7 d. The ultrafiltrate can serve as an alternative to the perfusate to monitor concentrations of small molecules without potentially compromising sterility.

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在对人体捐献的肝脏进行长达 7 天的长期常温机器灌注期间进行连续肾脏替代治疗。

背景：常温机器灌注（NMP）用于移植前保存和检测供体肝脏。在 NMP 期间，肝脏新陈代谢活跃并产生废物，这些废物被释放到灌注液中。在本研究中，我们介绍了将连续肾脏替代疗法（CRRT）与 NMP 结合使用长达 7 天的简化且廉价的装置。我们还研究了超滤液是否可用于监测灌注液中葡萄糖和乳酸盐等小分子物质的浓度：分析了 56 例无 CRRT 的人体 NMP 手术的灌流液成分（尿素、渗透压、钠、钾、氯、钙、镁、磷酸盐、葡萄糖和乳酸盐）。接着，在 6 个废弃的人类供体肝脏中，通过将一个小型透析过滤器（0.2 平方米）整合到回路中，在 NMP 过程中进行了 CRRT，以实现连续超滤和连续液体替代，持续时间长达 7 天：结果：在不使用 CRRT 的情况下进行 NMP 的几个小时内，观察到渗透压以及尿素和磷酸盐的浓度呈线性上升，达到生理水平以上。将 CRRT 纳入 NMP 循环后，灌流液的成分在 12 小时内恢复到生理值，这种平衡状态在 NMP 期间维持了 7 天。在 CRRT 超滤液中测量到的葡萄糖和乳酸盐水平与灌流液水平密切相关（r = 0.997，P r = 0.999，P 结论：CRRT 与 NMP 循环的结合使灌流液中的葡萄糖和乳酸盐浓度达到了生理水平：将 CRRT 整合到 NMP 系统中，可将灌流液的成分校正到接近生理值，并可维持 7 天。

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