Investigation of osteogenic activity of primary rabbit periosteal cells stimulated by multi-axial tensile strain

Chih Hao Chiu; Jun Liang Liu; Chih Hsuan Chang; Kin Fong Lei; Alvin Chao Yu Chen

doi:10.1007/s10544-017-0154-7

Investigation of osteogenic activity of primary rabbit periosteal cells stimulated by multi-axial tensile strain

Chih Hao Chiu, Jun Liang Liu, Chih Hsuan Chang, Kin Fong Lei, Alvin Chao Yu Chen^*

^*Corresponding author for this work

Master Program in Nano-Electronic Engineering and Design

Research output: Contribution to journal › Journal Article › peer-review

5 Scopus citations

Abstract

Periosteum–derived cells was indicated to respond to mechanical force and have stem cell potential capable of differentiating into multiple tissue. Investigation of osteogenic activity under mechanical stimulation is important to understand the therapeutic conditions of fracture healing. In this work, a cell culture platform was developed for respectively providing isotropic and anisotropic axial strain. Primary rabbit periosteal cells were isolated and cultured in the chamber. Multi-axial tensile strain was received and osteogenic activity was investigated by mRNA expressions of CBFA1 and OPN. The highest mRNA expression was found in moderate strain (5-8%) under anisotropic axial strain. These results provided important foundation for further in vivo studies and development of tailor-made stretching rehabilitation equipment.

Original language	English
Article number	13
Journal	Biomedical Microdevices
Volume	19
Issue number	1
DOIs	https://doi.org/10.1007/s10544-017-0154-7
State	Published - 01 03 2017

Bibliographical note

Publisher Copyright:
© 2017, Springer Science+Business Media New York.

Keywords

Orthopedics
Osteogenic activity
Periosteal cells
Rehabilitation

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10.1007/s10544-017-0154-7

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abstract = "Periosteum–derived cells was indicated to respond to mechanical force and have stem cell potential capable of differentiating into multiple tissue. Investigation of osteogenic activity under mechanical stimulation is important to understand the therapeutic conditions of fracture healing. In this work, a cell culture platform was developed for respectively providing isotropic and anisotropic axial strain. Primary rabbit periosteal cells were isolated and cultured in the chamber. Multi-axial tensile strain was received and osteogenic activity was investigated by mRNA expressions of CBFA1 and OPN. The highest mRNA expression was found in moderate strain (5-8%) under anisotropic axial strain. These results provided important foundation for further in vivo studies and development of tailor-made stretching rehabilitation equipment.",

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AU - Chiu, Chih Hao

AU - Liu, Jun Liang

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AU - Lei, Kin Fong

AU - Chen, Alvin Chao Yu

PY - 2017/3/1

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AB - Periosteum–derived cells was indicated to respond to mechanical force and have stem cell potential capable of differentiating into multiple tissue. Investigation of osteogenic activity under mechanical stimulation is important to understand the therapeutic conditions of fracture healing. In this work, a cell culture platform was developed for respectively providing isotropic and anisotropic axial strain. Primary rabbit periosteal cells were isolated and cultured in the chamber. Multi-axial tensile strain was received and osteogenic activity was investigated by mRNA expressions of CBFA1 and OPN. The highest mRNA expression was found in moderate strain (5-8%) under anisotropic axial strain. These results provided important foundation for further in vivo studies and development of tailor-made stretching rehabilitation equipment.

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KW - Osteogenic activity

KW - Periosteal cells

KW - Rehabilitation

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Investigation of osteogenic activity of primary rabbit periosteal cells stimulated by multi-axial tensile strain

Abstract

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Keywords

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