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Soft Pneumatic Device Designed to Mimic the Periosteal Environment for Regulating the Fate of Mesenchymal Stem Cellsopen access

Authors
Im, Gwang-BumLee, Jae GyeongLim, HosubLee, Jae-WonPark, Hyun SuKim, YongjuAsad, NaumanKim, Hak-RinWie, Jeong JaeBhang, Suk Ho
Issue Date
Jun-2025
Publisher
WILEY
Keywords
MSC; osteogenesis; periosteum; soft materials
Citation
ADVANCED HEALTHCARE MATERIALS, v.14, no.15, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
ADVANCED HEALTHCARE MATERIALS
Volume
14
Number
15
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211438
DOI
10.1002/adhm.202403229
ISSN
2192-2640
2192-2659
Abstract
Replicating the complex mechanical forces of muscle movement and fluid flow in in vitro cell culture systems is crucial for understanding cell differentiation and development. However, previous research focused on cell differentiation on static micro/nanotextures without a force field or flat 2-dimensional substrates under a continuous in-plane mechanical force. In this study, cell differentiation is reported using a spatial geometric platform that can periodically modulate complex mechanical forces through a custom-made soft pneumatic device (SPD) to mimic the interfaces between periosteum and interstitial fluid. To elucidate fluidic dynamics and cell fates relevant to bone physiology, the platform exhibited distinct functional responses based on mechanical force levels: low mechanotransduction induced mesenchymal stem/progenitor cells differentiation into osteoprogenitor cells (approximate to 1.5-fold increase in osteo-differentiation), while high mechanotransduction resulted in structural disruptions resembling cell detachment without protein degradation (approximate to 2-fold increase in effective cell detachment). Numerical simulations of SPD elucidated the principal mechanical components for programmable cell differentiation and detachment by deconvoluting the in-plane and out-of-plane mechanical forces of the SPD complex mode. This study offers comprehensive and novel insights into the correlation between mechanical forces and cell differentiation, recovery, and injury in organisms.
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