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Biomechanically Compatible Hydrogel Bioprosthetic Valves

Jiayu Wu, Zhenyuan Wu, Huajing Zeng, Desheng Liu, Zhongying Ji, Xin Xu, Xin Jia, Pan Jiang, Zengjie Fan, Xiaolong Wang, Feng Zhou

2022Chemistry of Materials39 citationsDOI

Abstract

Bioprosthetic cardiac valves are efficient replacements to clinically treat the valvular heart diseases including stenosis and regurgitation, while these often suffer from the issues of mechanical mismatch, biocompatibility, thrombus, degradation, etc. Here, we report a big step toward the biomechanically compatible hydrogel heart valves by the reversible addition–fragmentation chain transfer polymerization compatible three-dimensional (RAFT-3D) printing tough hydrogels. The biocompatible hydrogel valves have favorable mechanical properties matching with native valves and long-term stability and durability owing to the wide and robust hydrogen-bonding networks, on which the heparin-like polymer with −SO3– is readily grafted through RAFT polymerization, endowing outstanding hemocompatibility including low hemolysis, anticoagulation, and acceptable inflammatory response. The proof-of-concept hydrogel aortic valve displayed a low transvalvular pressure gradient of 14–24 mmHg, which efficiently regulates the flow direction and regurgitation and, more importantly, endures a cyclic pressure of ∼80 mmHg for at least 1.8 × 105 cycles yet maintaining a stable transvalvular pressure gradient without any damage to the configuration and performance. It is believed that the engineered hydrogel cardiac valves pave a significant way toward addressing the complications of cardiovascular diseases.

Topics & Concepts

Self-healing hydrogelsMaterials scienceBiomedical engineeringBiocompatibilityRaftThrombogenicityDecellularizationRegurgitation (circulation)PolymerPolymerizationTissue engineeringCardiologySurgeryComposite materialMedicinePolymer chemistryThrombosisMetallurgyCardiac Valve Diseases and TreatmentsElectrospun Nanofibers in Biomedical ApplicationsAortic Disease and Treatment Approaches
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