Osteoinductive biomaterials - properties and relevance in bone repair

Pamela Habibovic; Klaas de Groot

doi:10.1002/term.5

Osteoinductive biomaterials - properties and relevance in bone repair

Pamela Habibovic^*, Klaas de Groot

^*Corresponding author for this work

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

284 Citations (Web of Science)

Abstract

The need for bone tissue regeneration is continuously expanding due to the improvement of life quality and the consequent increase in life expectancy. Although natural bone grafts have shown excellent clinical successes, their use is associated with some important drawbacks, limited availability being one of the most important. Cell- and growth-factor based tissue engineering provides a promising alternative to natural bone grafts; however, the performance of tissue-engineered constructs often depends on the used carrier.

An important challenge in the field of bone regeneration is the development of synthetic bone graft substitutes that are "intelligent" in that they are able to instruct the in vivo environment to form bone. A group of potentially "intelligent" bone graft substitutes are osteoinductive biomaterials.

In this paper, background on the phenomenon of osteoinduction and an overview of synthetic biomaterials with osteoinductive potential are given. Furthermore, we elaborate on physicochemical properties of biomaterials that are of influence on their osteoinductive potential. Finally, we discuss the relevance of osteoinductivity of biomaterials in the repair of clinically relevant bone defects. Copyright (c) 2007 John Wiley & Sons, Ltd.

Original language	English
Pages (from-to)	25-32
Number of pages	8
Journal	Journal of Tissue Engineering and Regenerative Medicine
Volume	1
Issue number	1
DOIs	https://doi.org/10.1002/term.5
Publication status	Published - 2007
Externally published	Yes

Keywords

osteoinduction
bone graft substitute
biomaterials
tissue engineering
bone repair
CALCIUM-PHOSPHATE CERAMICS
HYDROXYAPATITE-DERIVED BIOMATERIALS
POROUS BIOACTIVE TITANIUM
ADULT SHEEP MODEL
MORPHOGENETIC PROTEIN
INDUCTION
TISSUE
IMPLANTS
CELLS
GRAFT

Access to Document

10.1002/term.5

Cite this

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title = "Osteoinductive biomaterials - properties and relevance in bone repair",

abstract = "The need for bone tissue regeneration is continuously expanding due to the improvement of life quality and the consequent increase in life expectancy. Although natural bone grafts have shown excellent clinical successes, their use is associated with some important drawbacks, limited availability being one of the most important. Cell- and growth-factor based tissue engineering provides a promising alternative to natural bone grafts; however, the performance of tissue-engineered constructs often depends on the used carrier.An important challenge in the field of bone regeneration is the development of synthetic bone graft substitutes that are {"}intelligent{"} in that they are able to instruct the in vivo environment to form bone. A group of potentially {"}intelligent{"} bone graft substitutes are osteoinductive biomaterials.In this paper, background on the phenomenon of osteoinduction and an overview of synthetic biomaterials with osteoinductive potential are given. Furthermore, we elaborate on physicochemical properties of biomaterials that are of influence on their osteoinductive potential. Finally, we discuss the relevance of osteoinductivity of biomaterials in the repair of clinically relevant bone defects. Copyright (c) 2007 John Wiley & Sons, Ltd.",

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year = "2007",

doi = "10.1002/term.5",

language = "English",

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journal = "Journal of Tissue Engineering and Regenerative Medicine",

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AU - Habibovic, Pamela

AU - de Groot, Klaas

PY - 2007

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N2 - The need for bone tissue regeneration is continuously expanding due to the improvement of life quality and the consequent increase in life expectancy. Although natural bone grafts have shown excellent clinical successes, their use is associated with some important drawbacks, limited availability being one of the most important. Cell- and growth-factor based tissue engineering provides a promising alternative to natural bone grafts; however, the performance of tissue-engineered constructs often depends on the used carrier.An important challenge in the field of bone regeneration is the development of synthetic bone graft substitutes that are "intelligent" in that they are able to instruct the in vivo environment to form bone. A group of potentially "intelligent" bone graft substitutes are osteoinductive biomaterials.In this paper, background on the phenomenon of osteoinduction and an overview of synthetic biomaterials with osteoinductive potential are given. Furthermore, we elaborate on physicochemical properties of biomaterials that are of influence on their osteoinductive potential. Finally, we discuss the relevance of osteoinductivity of biomaterials in the repair of clinically relevant bone defects. Copyright (c) 2007 John Wiley & Sons, Ltd.

AB - The need for bone tissue regeneration is continuously expanding due to the improvement of life quality and the consequent increase in life expectancy. Although natural bone grafts have shown excellent clinical successes, their use is associated with some important drawbacks, limited availability being one of the most important. Cell- and growth-factor based tissue engineering provides a promising alternative to natural bone grafts; however, the performance of tissue-engineered constructs often depends on the used carrier.An important challenge in the field of bone regeneration is the development of synthetic bone graft substitutes that are "intelligent" in that they are able to instruct the in vivo environment to form bone. A group of potentially "intelligent" bone graft substitutes are osteoinductive biomaterials.In this paper, background on the phenomenon of osteoinduction and an overview of synthetic biomaterials with osteoinductive potential are given. Furthermore, we elaborate on physicochemical properties of biomaterials that are of influence on their osteoinductive potential. Finally, we discuss the relevance of osteoinductivity of biomaterials in the repair of clinically relevant bone defects. Copyright (c) 2007 John Wiley & Sons, Ltd.

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KW - bone repair

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KW - HYDROXYAPATITE-DERIVED BIOMATERIALS

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KW - ADULT SHEEP MODEL

KW - MORPHOGENETIC PROTEIN

KW - INDUCTION

KW - TISSUE

KW - IMPLANTS

KW - CELLS

KW - GRAFT

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