Sulfated Alginate for Biomedical Applications.

IF 4.4 4区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Macromolecular bioscience Pub Date : 2024-07-30 DOI:10.1002/mabi.202400237

Alexandra L Mutch, Jiankun Yang, Vito Ferro, Anitha A, Lisbeth Grøndahl

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引用次数: 0

Abstract

Alginate (Alg) polymers have received much attention due to the mild conditions required for gel formation and their good bio-acceptability. However, due to limited interactions with cells, many drugs, and biomolecules, chemically modified alginates are of great interest. Sulfated alginate (S-Alg) is a promising heparin-mimetic that continues to be investigated both as a drug molecule and as a component of biomaterials. Herein, the S-Alg literature of the past five years (2017-2023) is reviewed. Several methods used to synthesize S-Alg are described, with a focus on new advances in characterization and stereoselectivity. Material fabrication is another focus and spans bulk materials, particles, scaffolds, coatings, and part of multicomponent biomaterials. The new application of S-Alg as an antitumor agent is highlighted together with studies evaluating safety and biodistribution. The high binding affinity of S-Alg for various drugs and heparin-binding proteins is exploited extensively in biomaterial design to tune the encapsulation and release of these agents and this aspect is covered in detail. Recommondations include publishing key material properties to allow reproducibility, careful selection of appropriate sulfation strategies, the use of cross-linking strategies other than ionic cross-linking for material fabrication, and more detailed toxicity and biodistribution studies to inform future work.

查看原文本刊更多论文

硫酸化海藻酸盐的生物医学应用。

藻酸盐（Alg）聚合物因其凝胶形成所需的温和条件和良好的生物可接受性而备受关注。然而，由于藻酸盐与细胞、许多药物和生物大分子的相互作用有限，经过化学修饰的藻酸盐备受关注。硫酸化海藻酸盐（S-Alg）是一种很有前景的肝素模拟物，无论是作为药物分子还是作为生物材料的成分，它都在不断地被研究。在此，对过去五年（2017-2023年）的S-Alg文献进行了回顾。文中介绍了用于合成 S-Alg 的几种方法，重点关注表征和立体选择性方面的新进展。材料制造是另一个重点，涉及块状材料、颗粒、支架、涂层和部分多组分生物材料。S-Alg 作为抗肿瘤药物的新应用以及安全性和生物分布评估研究都是重点。S-Alg 与各种药物和肝素结合蛋白的高结合亲和力在生物材料设计中被广泛利用，以调整这些制剂的封装和释放，这方面的内容也有详细介绍。建议包括公布关键材料特性以实现可重复性、谨慎选择适当的硫酸化策略、使用离子交联以外的交联策略制造材料，以及开展更详细的毒性和生物分布研究，为今后的工作提供参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Macromolecular bioscience 生物-材料科学：生物材料

CiteScore

7.90

自引率

2.20%

发文量

211

审稿时长

1.5 months

期刊介绍： Macromolecular Bioscience is a leading journal at the intersection of polymer and materials sciences with life science and medicine. With an Impact Factor of 2.895 (2018 Journal Impact Factor, Journal Citation Reports (Clarivate Analytics, 2019)), it is currently ranked among the top biomaterials and polymer journals. Macromolecular Bioscience offers an attractive mixture of high-quality Reviews, Feature Articles, Communications, and Full Papers. With average reviewing times below 30 days, publication times of 2.5 months and listing in all major indices, including Medline, Macromolecular Bioscience is the journal of choice for your best contributions at the intersection of polymer and life sciences.