Preparation of a modified silk-based gel/microsphere composite as a potential hepatic arterial embolization agent

动脉栓塞 壳聚糖 微球 药品 溶血 化学 栓塞 色谱法 生物医学工程 药理学 外科 医学 生物化学 化学工程 内科学 工程类
作者
Chen Cai,Xiang Huang,Fuping Wang,Shiyun Yin,Yu Zhu,Lili Han,Guobao Chen,Zhongmin Chen
出处
期刊:Biomaterials advances [Elsevier BV]
卷期号:153: 213559-213559 被引量:5
标识
DOI:10.1016/j.bioadv.2023.213559
摘要

Transcatheter arterial chemoembolization (TACE) is an effective method for treating hepatocellular carcinoma (HCC). In this study, chitosan (CS), sodium glycerophosphate (GP), and sodium alginate (SA) were used as the main raw materials to develop clinically non-degradable embolization microspheres (Ms). Chitosan/sodium alginate embolization Ms. were generated using an emulsification cross-linking method. The Ms. were then uniformly dispersed in CS/GP temperature-sensitive gels to produce Gel/Ms. composite embolic agents. The results showed that Gel/Ms. had good morphology and a neatly arranged three-dimensional structure, and the Ms. dispersed in the Gel as evidenced by SEM. Furthermore, Gel/Ms. has good blood compatibility, with a hemolysis rate of ≤5 %. The cytotoxicity experiments have also proven its excellent cell compatibility. The degradation rate of Gel/Ms. was 58.869 ± 1.754 % within 4 weeks, indicating that Gel/Ms. had good degradation performance matching its drug release purpose. The Gel/Ms. adheres better at the target site than Ms. alone and releases the drug steadily over a long period, and the maximum release rate of Gel/Ms. within 8 h was 38.33 ± 1.528 %, and within 168 h was 81.266 ± 1.193 %. Overall, Gel/Ms. demonstrate better slow drug release, reduced sudden drug release, prolonged drug action time at the target site, and reduced toxic side effects on the body compared to Gel alone.
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