Effects of Combinational Stimulation on Differentiation of MSCs into Osteoblasts

Jeon, Kang Jin; Kang, Yun Gyeong; Park, So Hee; Shin, Ji Won; Kim, Seon Yeon; Hyun, Jin-Sook; Shin, Jung-Woog

doi:10.1109/icbeb.2012.175

2012 International Conference on Biomedical Engineering and Biotechnology 2012

DOI: 10.1109/icbeb.2012.175

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Effects of Combinational Stimulation on Differentiation of MSCs into Osteoblasts

Kang Jin Jeon

Yun Gyeong Kang

So Hee Park

et al.

Abstract: In this study, we investigated the effects of combinational stimulation consisting of cyclic tension and intermittent hydrostatic pressure (IHP) on the differentiation of mesenchymal stem cells (MSCs) into osteoblasts without biochemical agents. For this, we designed a novel bioreactor which can engage tensile stimuli and IHP simultaneously. We classified experimental groups based on types of stimulation such as NS (no stimuli), IHP (intermittent hydrostatic pressure), TS (tension stimuli), and CS (combination… Show more

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2016

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MG-63 cells proliferation following various types of mechanical stimulation on cells by auxetic hybrid scaffolds

Choi

Lee

et al. 2016

Biomater Res

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BackgroundMechanical properties and cyto-compatibility of a composite scaffold which possessed negative (−) Poisson’s ratio (NPR) was investigated for effective load transfer from auxetic scaffold to cell.MethodsOrganic/inorganic composite scaffolds were prepared by mixing hydroxyapatite (HA) to poly(lactide-co-glycolide) (PLGA). To induce NPR in composite scaffold, 3-directional volumetric compression was applied during the scaffold fabrication at adequate temperature(60°C). The pore size of scaffold ranged between 355–400 μm.ResultsPoisson’s ratios of NPR scaffolds and control scaffolds were −0.07 and 0.16 at 10 % strain. For stable physical stimulating to loaded cells, ceramic/polymer composite scaffold was prepared by incorporating HA in PLGA to increase mechanical strength. Compressive strength of the HA/PLGA composite scaffold (15 wt. % HA to PLGA) was about 21.7 % higher than that of PLGA-only scaffold. The recovery rates of the NPR composite scaffold after applying compression in the dry and wet states were 90 % and 60 %, respectively. Also the composite scaffold was shown to have better hydrophilicity (61.9°) compared to the PLGA-only scaffolds (65.3°). Cell proliferation of osteoblast-like cell line (MG-63) in the composite scaffold was 20 % higher than in PLGA-only scaffold at static compressive stimulation. For dynamic compressive stimulation (15 min cyclic interval), cell proliferation in the composite scaffold was 2 times higher than that of in PLGA-only scaffold. In conclusion, NPR composite (HA/PLGA) scaffold was effective in isotropic compressive load delivery for osteogenic cell proliferation.ConclusionThis composite scaffold with stimulation can be used as tissue engineered scaffold and dynamic cell culture system for bone tissue regeneration.

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MG-63 cells proliferation following various types of mechanical stimulation on cells by auxetic hybrid scaffolds

Choi

Lee

et al. 2016

Biomater Res

Self Cite

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Effects of Combinational Stimulation on Differentiation of MSCs into Osteoblasts

Cited by 1 publication

References 7 publications

MG-63 cells proliferation following various types of mechanical stimulation on cells by auxetic hybrid scaffolds

MG-63 cells proliferation following various types of mechanical stimulation on cells by auxetic hybrid scaffolds

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