Drug-Loaded Hybrid Tissue Engineered Heart Valve with Antithrombosis and Immunomodulation Performance

材料科学 药品 生物医学工程 心脏瓣膜 药理学 医学 心脏病学
作者
Shumeng Bai,Bo Wei,Lin Chen,Xueyu Huang,Kaiyang Huang,Yang Li,Cheng Zheng,Yunbing Wang
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:17 (13): 19401-19416 被引量:1
标识
DOI:10.1021/acsami.4c22022
摘要

High thrombogenicity and shortened lifespan have limited the application of mechanical valves and bioprosthetic valves, respectively. Tissue engineering heart valve (TEHV) holds significant potential as a favorable prosthetic valve to overcome the limitations of the current prosthetic valves, featuring the capabilities of self-pairing and adaptive remodeling. However, TEHVs, mainly fabricated from decellularized xenogeneic heart valves (DHV), still have challenges such as thrombosis, inferior endothelialization, and immune responses. Herein, a drug-loaded glycoprotein-like network hybrid TEHV (OHSC-V) was engineered through the one-pot hybridization of DHV, oxidized HA (OHA), phenylboronic acid grafted silk fibroin (SF-PBA), and curcumin (Cur), where OHA served as a biocompatible backbone to cross-link the DHV and the conjugate of SF-PBA and Cur. With the introduction of the multifunctional drug-loaded glycoprotein-like network, OHSC-V not only effectively inhibited the adsorption of plasma proteins, blood cells, platelets, and thrombosis but also facilitated the endothelialization of TEHV. Furthermore, the OHSC-V eliminated the reactive oxygen species and responsively released Cur to modulate the immune responses. Moreover, the calcification degree of hybrid TEHVs was markedly lower than that of glutaraldehyde cross-linked DHV after 90 days of implantation. Overall, OHSC-V demonstrated enhanced performance of antithrombosis, endothelialization, immunomodulation, and anticalcification, showcasing the further potential for application exploration.
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