Supramolecular Organic Frameworks as Adsorbents for Efficient Removal of Excess Bilirubin in Hemoperfusion

血液灌流 吸附 胆红素 动力学 材料科学 水溶液 核黄疸 化学 色谱法 有机化学 外科 医学 胃肠病学 量子力学 物理 血液透析
作者
Yamin Liu,Zekun Wang,Chuan‐Zhi Liu,Yue-Yang Liu,Qian Li,Hui Wang,Fengchao Cui,Dan‐Wei Zhang,Zhan‐Ting Li
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:14 (42): 47397-47408 被引量:39
标识
DOI:10.1021/acsami.2c11458
摘要

Excess bilirubin accumulates in the bodies of patients suffering from acute liver failure (ALF) to cause much irreversible damage and bring about serious clinical symptoms such as kernicterus, hepatic coma, or even death. Hemoperfusion is a widely used method for removing bilirubin from the blood, but clinically used adsorbents have unsatisfactory adsorption capacity and kinetics. In this study, we prepared four supramolecular organic framework microcrystals SOF-1–4 via slow evaporation of their aqueous solutions under infrared light. SOF-1–4 possess good regularity and excellent stability. We demonstrate that all the four SOFs could serve as adsorbents for bilirubin with fast adsorption kinetics within 20 min and ultrahigh adsorption capacity of 609.1 mg g–1, driven by electrostatic interaction and hydrophobicity. The superior adsorption performance of the SOFs outperformed most of the reported bilirubin adsorbents. Remarkably, SOF-3 could remove about 90% of bilirubin in the presence of 40 g L–1 BSA with a minimal loss of albumin and was thus further processed to a bead-shaped composite with a diameter of 2 mm with poly(ether sulfone) (PES). This PES-loaded SOF could efficiently adsorb bilirubin to the normal level from human plasma with an adsorption equilibrium concentration of 7.8 mg L–1 in 6 h through a dynamic hemoperfusion process. This work provides a new vitality for the development of novel bilirubin adsorbents for hemoperfusion therapy.
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