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Matrix Viscoelasticity Tunes the Mechanobiological Behavior of Chondrocytes
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  • Minhua Lan,
  • Junjiang Liu,
  • Mingyang Gao,
  • Yanwen Shen,
  • Yanjun Zhang,
  • Quanyou Zhang
Minhua Lan
Taiyuan University of Technology School of Biomedical Engineering
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Junjiang Liu
Taiyuan University of Technology School of Biomedical Engineering
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Mingyang Gao
Taiyuan University of Technology School of Biomedical Engineering
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Yanwen Shen
Taiyuan University of Technology School of Biomedical Engineering
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Yanjun Zhang
Taiyuan University of Technology School of Biomedical Engineering
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Quanyou Zhang
Taiyuan University of Technology School of Biomedical Engineering

Corresponding Author:zhangquanyou@tyut.edu.cn

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Abstract

Matrix viscoelasticity has important roles in regulating key chondrocyte processes in normal development and osteoarthritis (OA) degeneration of articular cartilage. In recent years, scientists are gradually realizing the importance of matrix viscoelasticity in regulating chondrocyte function and reversing cell phenotype. Notably, this is an emerging field, and this review summarizes the existing literature to the best of our knowledge. This review provides an overview of the viscoelastic properties of hydrogels and the role of matrix viscoelasticity in directing chondrocyte behavior. In this Review, we elaborated the mechanotransuction mechanisms by which cells sense and respond to the viscoelastic environment and also discussed the underlying signaling pathways. We discuss recent work elucidating the effect of matrix viscoelasticity on chondrocyte behavior, and describe the potential for the use of viscoelastic biomaterials in cartilage tissue engineering and regenerative medicine. some future perspective on mechanobiological comprehension of the viscoelastic behaviors involved in tissue homeostasis, cellular responses and biomaterial design are highlighted. Finally, this review also highlights recent strategies utilizing viscoelastic hydrogels for designing cartilage-on-chip.
18 Apr 2024Submitted to Cell Biochemistry & Function
21 Apr 2024Reviewer(s) Assigned
15 Aug 20241st Revision Received
28 Aug 2024Submission Checks Completed
28 Aug 2024Assigned to Editor
28 Aug 2024Review(s) Completed, Editorial Evaluation Pending
28 Aug 2024Reviewer(s) Assigned
10 Sep 2024Editorial Decision: Accept