Review of the cellular and biological principles of distraction osteogenesis: An in vivo bioreactor tissue engineering model

K. Dhaliwal; R. Kunchur; R. Farhadieh

doi:10.1016/j.bjps.2015.11.003

Review of the cellular and biological principles of distraction osteogenesis: An in vivo bioreactor tissue engineering model

K. Dhaliwal^*, R. Kunchur, R. Farhadieh

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

26 Citations (Scopus)

Abstract

Summary Distraction osteogenesis (DO) is a widely used technique in plastic and orthopaedic surgery. During the process, mechanical force is applied to fractured bone to enhance the regenerative processes and induce new bone formation. Although there is an abundance of literature on the clinical process of DO, there is a distinct lack of focus on the underlying biological principles governing this process. DO follows the basic premises of tissue engineering. The mechanical stress stimulates mesenchymal stem cell differentiation down an osteoblastic lineage on a matrix background. The aim of this review is to give an overview of the current knowledge of the molecular mechanism governing this process.

Original language	English
Pages (from-to)	e19-e26
Journal	Journal of Plastic, Reconstructive and Aesthetic Surgery
Volume	69
Issue number	2
DOIs	https://doi.org/10.1016/j.bjps.2015.11.003
Publication status	Published - 1 Feb 2016

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10.1016/j.bjps.2015.11.003

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title = "Review of the cellular and biological principles of distraction osteogenesis: An in vivo bioreactor tissue engineering model",

abstract = "Summary Distraction osteogenesis (DO) is a widely used technique in plastic and orthopaedic surgery. During the process, mechanical force is applied to fractured bone to enhance the regenerative processes and induce new bone formation. Although there is an abundance of literature on the clinical process of DO, there is a distinct lack of focus on the underlying biological principles governing this process. DO follows the basic premises of tissue engineering. The mechanical stress stimulates mesenchymal stem cell differentiation down an osteoblastic lineage on a matrix background. The aim of this review is to give an overview of the current knowledge of the molecular mechanism governing this process.",

keywords = "Distraction osteogenesis, Mechano-transduction, Mesenchymal stem cell differentiation, Tissue engineering, Tissue matrix",

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T2 - An in vivo bioreactor tissue engineering model

AU - Dhaliwal, K.

AU - Kunchur, R.

AU - Farhadieh, R.

PY - 2016/2/1

Y1 - 2016/2/1

N2 - Summary Distraction osteogenesis (DO) is a widely used technique in plastic and orthopaedic surgery. During the process, mechanical force is applied to fractured bone to enhance the regenerative processes and induce new bone formation. Although there is an abundance of literature on the clinical process of DO, there is a distinct lack of focus on the underlying biological principles governing this process. DO follows the basic premises of tissue engineering. The mechanical stress stimulates mesenchymal stem cell differentiation down an osteoblastic lineage on a matrix background. The aim of this review is to give an overview of the current knowledge of the molecular mechanism governing this process.

AB - Summary Distraction osteogenesis (DO) is a widely used technique in plastic and orthopaedic surgery. During the process, mechanical force is applied to fractured bone to enhance the regenerative processes and induce new bone formation. Although there is an abundance of literature on the clinical process of DO, there is a distinct lack of focus on the underlying biological principles governing this process. DO follows the basic premises of tissue engineering. The mechanical stress stimulates mesenchymal stem cell differentiation down an osteoblastic lineage on a matrix background. The aim of this review is to give an overview of the current knowledge of the molecular mechanism governing this process.

KW - Distraction osteogenesis

KW - Mechano-transduction

KW - Mesenchymal stem cell differentiation

KW - Tissue engineering

KW - Tissue matrix

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SN - 1748-6815

VL - 69

SP - e19-e26

JO - Journal of Plastic, Reconstructive and Aesthetic Surgery

JF - Journal of Plastic, Reconstructive and Aesthetic Surgery

IS - 2

ER -

Review of the cellular and biological principles of distraction osteogenesis: An in vivo bioreactor tissue engineering model

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