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Dr. Hussein Mohamed Elhusseiny Ali Elbayoumi :: Publications:

Title:
Stimuli-responsive hydrogels: smart state of-the-art platforms for cardiac tissue engineering
Authors: Hussein M. El-Husseiny, Eman A. Mady, Walaa A. El-Dakroury, Ahmed S. Doghish, Ryou Tanaka
Year: 2023
Keywords: stimuli-responsive hydrogels, cardiac tissue engineering, tissue engineering, drug delivery, myocardial infarction
Journal: Frontiers in Bioengineering and Biotechnology
Volume: 11
Issue: 1174075
Pages: doi: 10.3389/fbioe.2023.1174075
Publisher: Frontiers
Local/International: International
Paper Link: Not Available
Full paper Not Available
Supplementary materials Not Available
Abstract:

Biomedicine and tissue regeneration have made significant advancements recently, positively affecting the whole healthcare spectrum. This opened the way for them to develop their applications for revitalizing damaged tissues. Thus, their functionality will be restored. Cardiac tissue engineering (CTE) using curative procedures that combine biomolecules, biomimetic scaffolds, and cells plays a critical part in this path. Stimuli-responsive hydrogels (SRHs) are excellent three-dimensional (3D) biomaterials for tissue engineering (TE) and various biomedical applications. They can mimic the intrinsic tissues’ physicochemical, mechanical, and biological characteristics in a variety of ways. They also provide for 3D setup, adequate aqueous conditions, and the mechanical consistency required for cell development. Furthermore, they function as competent delivery platforms for various biomolecules. Many natural and synthetic polymers were used to fabricate these intelligent platforms with innovative enhanced features and specialized capabilities that are appropriate for CTE applications. In the present review, different strategies employed for CTE were outlined. The light was shed on the limitations of the use of conventional hydrogels in CTE. Moreover, diverse types of SRHs, their characteristics, assembly and exploitation for CTE were discussed. To summarize, recent development in the construction of SRHs increases their potential to operate as intelligent, sophisticated systems in the reconstruction of degenerated cardiac tissues.

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