Engineered hydrogels for mechanobiology

• Published in: Nature Reviews Methods Primers Vol. 2; p. 98
• Main Authors: Blache, Ulrich, Ford, Eden M, Ha, Byunghang, Rijns, Laura, Chaudhuri, Ovijit, Dankers, Patricia Y W, Kloxin, April M, Snedeker, Jess G, Gentleman, Eileen
• Format: Journal Article
• Language: English
• Published: England 15.12.2022
• ISSN: 2662-8449
• DOI: 10.1038/s43586-022-00179-7

Cells' local mechanical environment can be as important in guiding cellular responses as many well-characterized biochemical cues. Hydrogels that mimic the native extracellular matrix can provide these mechanical cues to encapsulated cells, allowing for the study of their impact on cellular behaviours. Moreover, by harnessing cellular responses to mechanical cues, hydrogels can be used to create tissues in vitro for regenerative medicine applications and for disease modelling. This Primer outlines the importance and challenges of creating hydrogels that mimic the mechanical and biological properties of the native extracellular matrix. The design of hydrogels for mechanobiology studies is discussed, including appropriate choice of cross-linking chemistry and strategies to tailor hydrogel mechanical cues. Techniques for characterizing hydrogels are explained, highlighting methods used to analyze cell behaviour. Example applications for studying fundamental mechanobiological processes and regenerative therapies are provided, along with a discussion of the limitations of hydrogels as mimetics of the native extracellular matrix. The article ends with an outlook for the field, focusing on emerging technologies that will enable new insights into mechanobiology and its role in tissue homeostasis and disease.