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W4308982185 endingPage "213196" @default.
W4308982185 startingPage "213196" @default.
W4308982185 abstract "Modern bioengineering utilises biomimetic cell culture approaches to control cell fate during in vitro expansion. In this spirit, herein we assessed the influence of bidirectional surface topography, substrate rigidity, collagen type I coating and macromolecular crowding (MMC) in human bone marrow stem cell cultures. In the absence of MMC, surface topography was a strong modulator of cell morphology. MMC significantly increased extracellular matrix deposition, albeit in a globular manner, independently of the surface topography, substrate rigidity and collagen type I coating. Collagen type I coating significantly increased cell metabolic activity and none of the assessed parameters affected cell viability. At day 14, in the absence of MMC, none of the assessed genes was affected by surface topography, substrate rigidity and collagen type I coating, whilst in the presence of MMC, in general, collagen type I α1 chain, tenascin C, osteonectin, bone sialoprotein, aggrecan, cartilage oligomeric protein and runt-related transcription factor were downregulated. Interestingly, in the presence of the MMC, the 1000 kPa grooved substrate without collagen type I coating upregulated aggrecan, cartilage oligomeric protein, scleraxis homolog A, tenomodulin and thrombospondin 4, indicative of tenogenic differentiation. This study further supports the notion for multifactorial bioengineering to control cell fate in culture." @default.
W4308982185 created "2022-11-20" @default.
W4308982185 creator A5000546524 @default.
W4308982185 creator A5002478894 @default.
W4308982185 creator A5004446339 @default.
W4308982185 creator A5028618534 @default.
W4308982185 creator A5030580193 @default.
W4308982185 creator A5033894652 @default.
W4308982185 creator A5042838739 @default.
W4308982185 creator A5054192709 @default.
W4308982185 creator A5056804062 @default.
W4308982185 creator A5084073026 @default.
W4308982185 date "2023-01-01" @default.
W4308982185 modified "2023-10-15" @default.
W4308982185 title "The synergistic effect of physicochemical in vitro microenvironment modulators in human bone marrow stem cell cultures" @default.
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