羟乙基淀粉成分和威斯康星大学溶液对人红细胞的高聚集作用：器官获取中移植物灌注受损的风险？

Hyperaggregating effect of hydroxyethyl starch components and University of Wisconsin solution on human red blood cells: a risk of impaired graft perfusion in organ procurement?

作者信息

Morariu Aurora M, Vd Plaats Arjan, V Oeveren Wim, 'T Hart Nils A, Leuvenink Henri G D, Graaff Reindert, Ploeg Rutger J, Rakhorst Gerhard

机构信息

Department of BioMedical Engineering, University of Groningen, Faculty of Medical Sciences, The Netherlands.

出版信息

Transplantation. 2003 Jul 15;76(1):37-43. doi: 10.1097/01.TP.0000068044.84652.9F.

DOI:10.1097/01.TP.0000068044.84652.9F

PMID:12865783

Abstract

BACKGROUND

The standard preservation solution used during organ procurement and preservation of most organs is the University of Wisconsin (UW) solution. Despite its superiority over other cold storage solutions, the inclusion of hydroxyethyl starch (HES) as one of the components of the UW solution has been both advocated and denied. This study determined whether HES had any effect on red blood cell (RBC) aggregability and correlated aggregation parameters with HES molecular weight.

METHODS

Human RBC aggregability and deformability were investigated in vitro, at 4 degrees C, with a laser-assisted optical rotation cell analyzer. The study of RBC aggregation in a binary HES-HES system gave an indication about the nature of HES-RBCs interactions. Bright field microscopy and atomic force microscopy were used to morphologically characterize the aggregates size and form.

RESULTS

High molecular weight HES and UW solution had a potent hyperaggregating effect; low molecular weight HES had a hypoaggregating effect on RBC. RBC aggregates were of large size and their resistance to dissociation by flow-induced shear stress was high.

CONCLUSION

The authors' in vitro experiments conclusively showed that the physiologic function of RBCs to form aggregates is significantly affected in the presence of HES. The use of high molecular weight HES in UW solution accounts for extended and accelerated aggregation of erythrocytes that may result in stasis of blood and incomplete washout of donor organs before transplantation.

摘要

背景

在大多数器官获取和保存过程中使用的标准保存液是威斯康星大学（UW）溶液。尽管它比其他冷藏溶液更具优势，但UW溶液中的成分之一羟乙基淀粉（HES）的作用一直存在争议。本研究确定HES是否对红细胞（RBC）聚集性有任何影响，并将聚集参数与HES分子量相关联。

方法

在4℃下，使用激光辅助光学旋转细胞分析仪在体外研究人RBC的聚集性和变形性。在二元HES-HES系统中对RBC聚集的研究揭示了HES与RBC相互作用的性质。使用明场显微镜和原子力显微镜对聚集体的大小和形态进行表征。

结果

高分子量HES和UW溶液具有强大的促聚集作用；低分子量HES对RBC具有抑聚集作用。RBC聚集体尺寸较大，并且它们对流动诱导的剪切应力解离的抵抗力较高。

结论

作者的体外实验确凿地表明，在HES存在下，RBC形成聚集体的生理功能受到显著影响。在UW溶液中使用高分子量HES会导致红细胞聚集延长和加速，这可能导致血液淤滞以及移植前供体器官冲洗不完全。

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羟乙基淀粉成分和威斯康星大学溶液对人红细胞的高聚集作用：器官获取中移植物灌注受损的风险？

Hyperaggregating effect of hydroxyethyl starch components and University of Wisconsin solution on human red blood cells: a risk of impaired graft perfusion in organ procurement?

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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