Issue 2, 2023

Decellularized ECM hydrogels: prior use considerations, applications, and opportunities in tissue engineering and biofabrication

Abstract

Tissue development, wound healing, pathogenesis, regeneration, and homeostasis rely upon coordinated and dynamic spatial and temporal remodeling of extracellular matrix (ECM) molecules. ECM reorganization and normal physiological tissue function, require the establishment and maintenance of biological, chemical, and mechanical feedback mechanisms directed by cell–matrix interactions. To replicate the physical and biological environment provided by the ECM in vivo, methods have been developed to decellularize and solubilize tissues which yield organ and tissue-specific bioactive hydrogels. While these biomaterials retain several important traits of the native ECM, the decellularizing process, and subsequent sterilization, and solubilization result in fragmented, cleaved, or partially denatured macromolecules. The final product has decreased viscosity, moduli, and yield strength, when compared to the source tissue, limiting the compatibility of isolated decellularized ECM (dECM) hydrogels with fabrication methods such as extrusion bioprinting. This review describes the physical and bioactive characteristics of dECM hydrogels and their role as biomaterials for biofabrication. In this work, critical variables when selecting the appropriate tissue source and extraction methods are identified. Common manual and automated fabrication techniques compatible with dECM hydrogels are described and compared. Fabrication and post-manufacturing challenges presented by the dECM hydrogels decreased mechanical and structural stability are discussed as well as circumvention strategies. We further highlight and provide examples of the use of dECM hydrogels in tissue engineering and their role in fabricating complex in vitro 3D microenvironments.

Graphical abstract: Decellularized ECM hydrogels: prior use considerations, applications, and opportunities in tissue engineering and biofabrication

Article information

Article type
Review Article
Submitted
09 Aug 2022
Accepted
26 Nov 2022
First published
02 Dec 2022

Biomater. Sci., 2023,11, 400-431

Decellularized ECM hydrogels: prior use considerations, applications, and opportunities in tissue engineering and biofabrication

J. Kort-Mascort, S. Flores-Torres, O. Peza-Chavez, J. H. Jang, L. A. Pardo, S. D. Tran and J. Kinsella, Biomater. Sci., 2023, 11, 400 DOI: 10.1039/D2BM01273A

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