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W20165407 endingPage "556" @default.
W20165407 startingPage "530" @default.
W20165407 abstract "Abstract: Here we report a new in situ nanoindentation technique developed toevaluate the composite mechanical behavior of cell-biomaterial construct underphysiological conditions over the time scale of bone nodule generation. Usingthis technique, mechanical behavior of osteoblast cell-substrate interfaces on tissueengineered materials (chitosan-polygalacturonic acid-nanohydroxyapatite (CPH)ﬁlms) is investigated. Mechanical behavior of cells in the elastic regime over thetime scale of cell adhesion (1 day), proliferation (4 days), development (8 days)and maturation (22 days) of bone nodules is evaluated. Our results indicate that theelastic properties of ﬂat cells are higher (indicating stiffer response, after 4 days,as compared to the round cells after 1 day and oriented cells after 8 days. Elas-tic properties of cells ( ∼ 5-12 MPa), soaked CPH ﬁlms ( ∼ 10-20 MPa) and that ofcell-CPH composites ( ∼ 3-9 MPa) fall in the same order of magnitude. A similarrange of elastic properties of cell-CPH composites are measured over time, imply-ing that unique interactions between cells and CPH ﬁlms are maintained that mayprovide a favorable mechanical environment to growing cells and bone nodules.Atomic Force Microscopy (AFM) imaging studies on individual cells reveal thatthe cells respond to local changes in substrate topography (as a result of substrateswelling) by modulating their shapes and various focal adhesions. Overall, CPHﬁlms provide a favorable microenvironment for cell organization and bone noduleregeneration that regulates the mechanical behavior of cell-substrate interactions.Keywords: nanoindentation,mechanicalbehavior,cell-substrateindentation,tis-sue engineering." @default.
W20165407 created "2016-06-24" @default.
W20165407 creator A5009795272 @default.
W20165407 creator A5033427217 @default.
W20165407 creator A5071721520 @default.
W20165407 date "2012-10-01" @default.
W20165407 modified "2023-09-26" @default.
W20165407 title "AFM and Nanoindentation Studies of Bone Nodules on Chitosan-Polygalacturonic Acid-Hydroxyapatite Nanocomposites" @default.
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W20165407 doi "https://doi.org/10.3970/cmes.2012.087.530" @default.
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