3D Cell Culture: Recent Development in Materials with Tunable Stiffness

It is widely accepted that three-dimensional cell culture systems simulate physiological conditions better than traditional 2D systems. Although extracellular matrix components strongly modulate cell behavior, several studies underlined the importance of mechanosensing in the control of different ce...

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Bibliographic Details
Published in:ACS applied bio materials 2021-03, Vol.4 (3), p.2233-2250
Main Authors: Baruffaldi, Désirée, Palmara, Gianluca, Pirri, Candido, Frascella, Francesca
Format: Article
Language:English
Subjects:
Biocompatible Materials - chemical synthesis
Biocompatible Materials - chemistry
Cell Culture Techniques, Three Dimensional
Humans
Materials Testing
Particle Size
Stress, Mechanical
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Summary:It is widely accepted that three-dimensional cell culture systems simulate physiological conditions better than traditional 2D systems. Although extracellular matrix components strongly modulate cell behavior, several studies underlined the importance of mechanosensing in the control of different cell functions such as growth, proliferation, differentiation, and migration. Human tissues are characterized by different degrees of stiffness, and various pathologies (e.g., tumor or fibrosis) cause changes in the mechanical properties through the alteration of the extracellular matrix structure. Additionally, these modifications have an impact on disease progression and on therapy response. Hence, the development of platforms whose stiffness could be modulated may improve our knowledge of cell behavior under different mechanical stress stimuli. In this review, we have analyzed the mechanical diversity of healthy and diseased tissues, and we have summarized recently developed materials with a wide range of stiffness.
ISSN:2576-6422
2576-6422
DOI:10.1021/acsabm.0c01472