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Revisiting the biophysical aspects of extracellular-matrix-mimicking hydrogels: what cells see <i>vs.</i> what cells feel

J. Sui, Sarah Pragnère, Nicholas A. Kurniawan

2025Biomaterials Science16 citationsDOIOpen Access PDF

Abstract

non-fibrous structures, pore size, and mechanical properties, significantly influence cell behavior. Understanding the interplay of these factors is crucial for the rational design of biomaterials, but remains challenging given the complexity of hydrogel systems and the rapid pace of new findings. This review critically evaluates hydrogels as ECM mimics for 3D cell cultures. We revisit key ECM properties to replicate, examine how hydrogel design can meet these needs, and summarize the impact of biochemical, structural, and mechanical features on cell behavior. We also explore how structural and mechanical properties-what cells "see" and "feel"-are interrelated and jointly affect cell function. Our analysis concludes that strategic combinations of polymeric materials will play an important role for next-generation hydrogels to replicate physiological conditions and independently enable precise control over key parameters. These advancements will enhance our understanding of cell-ECM interactions and support the development of innovative biomaterials for tissue engineering and regenerative medicine.

Topics & Concepts

Self-healing hydrogelsExtracellular matrixChemistryExtracellularCell biologyMatrix (chemical analysis)BiophysicsBiologyBiochemistryPolymer chemistryChromatography3D Printing in Biomedical ResearchCellular Mechanics and InteractionsAdvanced Materials and Mechanics
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