摘要
通过氧等离子体处理,在聚对苯二甲酸乙二酯(PET)表面引入羟基,提高了其表面的亲水性。利用静电吸附等方式在PET材料表面先后载入表没食子儿茶素没食子酸酯(EGCG)、纤维黏连蛋白(Fn)和骨形态发生蛋白-2 (rhBMP-2),构建了rhBMP-2/EGCG/Fn有机组装的纳米涂层,改性后的PET表面表现出优异的细胞相容性,rhBMP-2的高效载入、活性维持、以及缓慢释放,赋予了改性表面高诱骨活性和成骨分化能力。
In recent years, polyethylene terephthalate(PET) based Ligament Advanced Reinforcement System(LARS)artificial ligaments have become popular in anterior cruciate ligament(ACL) reconstruction. However, due to its poor biological activity and high hydrophobicity, its application is limited to clinical uses. In order to improve the biological activity of materials and enhance the tendon-bone healing effect, oxygen plasma was used to introduce hydroxyl groups on the surface of PET. It has been found that the surface physiochemical treatment and immobilization of bioactive molecules have great effects on the bioactivity improvement of the inert surfaces. Therefore, bone morphogenetic proteins(rhBMP-2)with typical indicator and fibronectin(Fn) for enhancing the binding capacity of rhBMP-2 molecules were chosen as modifying molecules. The functional molecules such as epigallocatechin-3-gallate(EGCG) were coated on the PET surface first. There are six ortho phenolic hydroxyl groups in the molecular structure of EGCG. Fn molecules were then easily immobilized on the EGCG-PET surfaces. Since each subunit of Fn had a high-affinity binding site for rhBMP-2, rhBMP-2 molecules are biological anchored on the surface through long-chained Fn, which simulates the biomimetic design in the extracellular matrix. Thus, such molecules EGCG, Fn, and rhBMP-2 are sequentially immobilized on the PET surfaces. The nanocoating of rhBMP-2/EGCG/Fn is assembled to further enhance the loading efficiency of rhBMP-2 and control the release of rhBMP-2. Therefore, the surface-modified B/E-Fn-PET exhibits excellent cell compatibility. Moreover, effective loading,activity maintaining, and controlled release of rhBMP-2 give the implant surface high osteoinduction and better osteogenesis.Predictably, the integrated influences of these factors will provide technical support for designing the insert implantable surface with high bioactivities.
作者
郭西萌
金莉莉
李春旺
何宏燕
刘昌胜
GUO Ximeng;JIN Lili;LI Chunwang;HE Hongyan;LIU Changsheng(School of Materials Science and Engineering,Frontiers Science Center for Materiobiology and Dynamic Chemistry,Medical Biomaterials Engineering Research Center of the Ministry of Education,East China University of Science and Technology,Shanghai 200237,China)
出处
《功能高分子学报》
CAS
CSCD
北大核心
2022年第1期54-60,共7页
Journal of Functional Polymers
基金
国家自然科学基金创新群体项目(51621002)
国家重点研发计划战略性国际科技创新合作重点专项(SQ2018YF020328)。
