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Propelling Minimally Invasive Tissue Regeneration With Next‐Era Injectable Pre‐Formed Scaffolds

Junhan Liao, Anastasia B. Timoshenko, Domenic J. Cordova, Maria Astudillo Potes, Bipin Gaihre, Xifeng Liu, Benjamin D. Elder, Lichun Lu, Maryam Tilton

2024Advanced Materials27 citationsDOI

Abstract

The growing aging population, with its associated chronic diseases, underscores the urgency for effective tissue regeneration strategies. Biomaterials play a pivotal role in the realm of tissue reconstruction and regeneration, with a distinct shift toward minimally invasive (MI) treatments. This transition, fueled by engineered biomaterials, steers away from invasive surgical procedures to embrace approaches offering reduced trauma, accelerated recovery, and cost-effectiveness. In the realm of MI tissue repair and cargo delivery, various techniques are explored. While in situ polymerization is prominent, it is not without its challenges. This narrative review explores diverse biomaterials, fabrication methods, and biofunctionalization for injectable pre-formed scaffolds, focusing on their unique advantages. The injectable pre-formed scaffolds, exhibiting compressibility, controlled injection, and maintained mechanical integrity, emerge as promising alternative solutions to in situ polymerization challenges. The conclusion of this review emphasizes the importance of interdisciplinary design facilitated by synergizing fields of materials science, advanced 3D biomanufacturing, mechanobiological studies, and innovative approaches for effective MI tissue regeneration.

Topics & Concepts

Regeneration (biology)Tissue engineeringBiomanufacturingMaterials scienceNanotechnologyBiocompatible materialBiomedical engineeringMedicineBiologyBiotechnologyCell biologyElectrospun Nanofibers in Biomedical ApplicationsBone Tissue Engineering MaterialsTissue Engineering and Regenerative Medicine