Synthesis of bioadhesive PHEA hydrogels without crosslinkers through in situ polymerization and sustained mechanical mixing

IF 2.2 4区 工程技术 Q2 MECHANICS Korea-Australia Rheology Journal Pub Date : 2024-01-16 DOI:10.1007/s13367-023-00084-9
Seo Yoon Kim, Ji-Won Kang, Eun Hui Jeong, Taeho Kim, Ha Lim Jung, Jang-Ung Park, Jinhan Cho, Jun Dong Park, Byoung Soo Kim
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Abstract

This study presents a novel methodology for the fabrication of bioadhesives composed of poly(2-hydroxyethyl acrylate) (PHEA), which demonstrate superior mechanical properties. Hydrogels based on PHEA were effectively synthesized through a strategy that obviates the need for crosslinkers, utilizing in situ polymerization of high-concentration 2-hydroxyethyl acrylate (HEA) monomers under persistent agitation. Optimal operational conditions, such as polymerization duration and HEA monomer concentration, were screened through rheological evaluations. In addition, the introduction of glycerol to the PHEA hydrogels yielded improvements in water-retention capacity, thus resolving limitations frequently observed in conventional aqueous-based hydrogels. Tests assessing adhesive properties indicated that the PHEA hydrogels, synthesized without crosslinkers, exhibited exceptional adhesion capabilities that exceeded those of commercially available tissue sealants. This economically viable and readily scalable fabrication technique provides a compelling pathway for the creation of robust, biocompatible bioadhesives well-suited for biomedical utilization.

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通过原位聚合和持续机械混合合成不含交联剂的生物粘性 PHEA 水凝胶
摘要 本研究提出了一种制造由聚(2-羟乙基丙烯酸酯)(PHEA)组成的生物粘合剂的新方法,这种粘合剂具有优异的机械性能。在持续搅拌下,利用高浓度 2-羟乙基丙烯酸酯(HEA)单体的原位聚合,通过一种无需交联剂的策略有效合成了基于 PHEA 的水凝胶。通过流变学评估筛选出了最佳操作条件,如聚合持续时间和 HEA 单体浓度。此外,在 PHEA 水凝胶中引入甘油可提高保水能力,从而解决传统水基水凝胶中经常出现的局限性。评估粘合性能的测试表明,在不使用交联剂的情况下合成的 PHEA 水凝胶具有出色的粘合能力,超过了市售的组织密封剂。这种经济上可行且易于扩展的制造技术为制造非常适合生物医学应用的坚固耐用、生物相容性生物粘合剂提供了令人信服的途径。
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来源期刊
Korea-Australia Rheology Journal
Korea-Australia Rheology Journal 工程技术-高分子科学
CiteScore
2.80
自引率
0.00%
发文量
28
审稿时长
>12 weeks
期刊介绍: The Korea-Australia Rheology Journal is devoted to fundamental and applied research with immediate or potential value in rheology, covering the science of the deformation and flow of materials. Emphases are placed on experimental and numerical advances in the areas of complex fluids. The journal offers insight into characterization and understanding of technologically important materials with a wide range of practical applications.
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