Cell Response in Free-Packed Granular Systems

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abstract

The study of the interactions of living adherent cells with mechanically stable (visco)elastic materials enables under-standing and exploitation of physiological phenomena mediated by cell-extracellular communication. Insights into the interaction of cells and surrounding objects with different stability patterns upon cell contact might unveil biological responses to engineer innovative applications. Here, we hypothesize that the efficiency of cell attachment, spreading, and movement across a free-packed granular bed of microparticles depends on the microparticle diameter, raising the possibility of a necessary minimum traction force for the reinforcement of cell???particle bonds and long-term cell adhesion. The results suggest that microparticles with diameters of 14???20 ??m are prone to cell-mediated mobility, holding the potential of inducing early cell detachment, while objects with diameters from 38 to 85 ??m enable long-lasting cell adhesion and proliferation. An in silico hybrid particle-based model that addresses the time-dependent biological mechanisms of cell adhesion is proposed, providing inspiration for engineering platforms to address healthcare-related challenges. Superscript/Subscript Available

keywords

MESENCHYMAL STEM-CELLS; MATRIX ADHESIONS; MICROPARTICLES; SIZE; NANOPARTICLES; PHAGOCYTOSIS; INHIBITION; MECHANISM; MICROGELS; CAPSULES

subject category

Science & Technology - Other Topics; Materials Science

authors

Cunha, AF; Matias, AFV; Dias, CS; Oliveira, MB; Araujo, NAM; Mano, JF

our authors

foto João Mano

João Mano

Vice Director
foto Mariana Braga de Oliveira

Mariana Braga de Oliveira

Assistant Researcher

Groups

G5 - Biomimetic, Biological and Living Materials

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Publication Details

type
Journal Article
year
2022
journal
ACS APPLIED MATERIALS & INTERFACES
volume
14
publisher
AMER CHEMICAL SOC
issn
1944-8244
issue
36
digital object identifier
10.1021/acsami.1c2409540469
web of science article identifier
WOS:000859768700001

Journal Metrics (JCR 2019)

Journal Impact Factor
8.758
Journal Impact Factor (5 yrs)
8.901
category normalized journal percentile
86.33

Citations

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