Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials.

Andreas Kolk; Jörg Handschel; Wolf Drescher; Daniel Rothamel; Frank Kloss; Marco Blessmann; Max Heiland; Klaus-Dietrich Wolff; Ralf Smeets

Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials.

Standard

Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials. / Kolk, Andreas; Handschel, Jörg; Drescher, Wolf; Rothamel, Daniel; Kloss, Frank; Blessmann, Marco; Heiland, Max; Wolff, Klaus-Dietrich; Smeets, Ralf.

In: J CRANIO MAXILL SURG, Vol. 40, No. 8, 8, 2012, p. 706-718.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Kolk, A, Handschel, J, Drescher, W, Rothamel, D, Kloss, F, Blessmann, M, Heiland, M, Wolff, K-D & Smeets, R 2012, 'Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials.', J CRANIO MAXILL SURG, vol. 40, no. 8, 8, pp. 706-718. <http://www.ncbi.nlm.nih.gov/pubmed/22297272?dopt=Citation>

APA

Kolk, A., Handschel, J., Drescher, W., Rothamel, D., Kloss, F., Blessmann, M., Heiland, M., Wolff, K-D., & Smeets, R. (2012). Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials. J CRANIO MAXILL SURG, 40(8), 706-718. [8]. http://www.ncbi.nlm.nih.gov/pubmed/22297272?dopt=Citation

Vancouver

Kolk A, Handschel J, Drescher W, Rothamel D, Kloss F, Blessmann M et al. Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials. J CRANIO MAXILL SURG. 2012;40(8):706-718. 8.

Bibtex

@article{3c09e82e3b19407e86d0a88266427013,

title = "Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials.",

abstract = "An autologous bone graft is still the ideal material for the repair of craniofacial defects, but its availability is limited and harvesting can be associated with complications. Bone replacement materials as an alternative have a long history of success. With increasing technological advances the spectrum of grafting materials has broadened to allografts, xenografts, and synthetic materials, providing material specific advantages. A large number of bone-graft substitutes are available including allograft bone preparations such as demineralized bone matrix and calcium-based materials. More and more replacement materials consist of one or more components: an osteoconductive matrix, which supports the ingrowth of new bone; and osteoinductive proteins, which sustain mitogenesis of undifferentiated cells; and osteogenic cells (osteoblasts or osteoblast precursors), which are capable of forming bone in the proper environment. All substitutes can either replace autologous bone or expand an existing amount of autologous bone graft. Because an understanding of the properties of each material enables individual treatment concepts this review presents an overview of the principles of bone replacement, the types of graft materials available, and considers future perspectives. Bone substitutes are undergoing a change from a simple replacement material to an individually created composite biomaterial with osteoinductive properties to enable enhanced defect bridging.",

keywords = "Humans, Forecasting, Transplantation, Homologous, Ceramics/chemistry, Biocompatible Materials/chemistry/*therapeutic use, Biopolymers/chemistry, Bone Matrix/chemistry, Bone Substitutes/chemistry/*therapeutic use, Calcium Compounds/chemistry, Tissue Scaffolds/chemistry, Humans, Forecasting, Transplantation, Homologous, Ceramics/chemistry, Biocompatible Materials/chemistry/*therapeutic use, Biopolymers/chemistry, Bone Matrix/chemistry, Bone Substitutes/chemistry/*therapeutic use, Calcium Compounds/chemistry, Tissue Scaffolds/chemistry",

author = "Andreas Kolk and J{\"o}rg Handschel and Wolf Drescher and Daniel Rothamel and Frank Kloss and Marco Blessmann and Max Heiland and Klaus-Dietrich Wolff and Ralf Smeets",

year = "2012",

language = "English",

volume = "40",

pages = "706--718",

journal = "J CRANIO MAXILL SURG",

issn = "1010-5182",

publisher = "Elsevier",

number = "8",

}

RIS

TY - JOUR

T1 - Current trends and future perspectives of bone substitute materials - from space holders to innovative biomaterials.

AU - Kolk, Andreas

AU - Handschel, Jörg

AU - Drescher, Wolf

AU - Rothamel, Daniel

AU - Kloss, Frank

AU - Blessmann, Marco

AU - Heiland, Max

AU - Wolff, Klaus-Dietrich

AU - Smeets, Ralf

PY - 2012

Y1 - 2012

N2 - An autologous bone graft is still the ideal material for the repair of craniofacial defects, but its availability is limited and harvesting can be associated with complications. Bone replacement materials as an alternative have a long history of success. With increasing technological advances the spectrum of grafting materials has broadened to allografts, xenografts, and synthetic materials, providing material specific advantages. A large number of bone-graft substitutes are available including allograft bone preparations such as demineralized bone matrix and calcium-based materials. More and more replacement materials consist of one or more components: an osteoconductive matrix, which supports the ingrowth of new bone; and osteoinductive proteins, which sustain mitogenesis of undifferentiated cells; and osteogenic cells (osteoblasts or osteoblast precursors), which are capable of forming bone in the proper environment. All substitutes can either replace autologous bone or expand an existing amount of autologous bone graft. Because an understanding of the properties of each material enables individual treatment concepts this review presents an overview of the principles of bone replacement, the types of graft materials available, and considers future perspectives. Bone substitutes are undergoing a change from a simple replacement material to an individually created composite biomaterial with osteoinductive properties to enable enhanced defect bridging.

AB - An autologous bone graft is still the ideal material for the repair of craniofacial defects, but its availability is limited and harvesting can be associated with complications. Bone replacement materials as an alternative have a long history of success. With increasing technological advances the spectrum of grafting materials has broadened to allografts, xenografts, and synthetic materials, providing material specific advantages. A large number of bone-graft substitutes are available including allograft bone preparations such as demineralized bone matrix and calcium-based materials. More and more replacement materials consist of one or more components: an osteoconductive matrix, which supports the ingrowth of new bone; and osteoinductive proteins, which sustain mitogenesis of undifferentiated cells; and osteogenic cells (osteoblasts or osteoblast precursors), which are capable of forming bone in the proper environment. All substitutes can either replace autologous bone or expand an existing amount of autologous bone graft. Because an understanding of the properties of each material enables individual treatment concepts this review presents an overview of the principles of bone replacement, the types of graft materials available, and considers future perspectives. Bone substitutes are undergoing a change from a simple replacement material to an individually created composite biomaterial with osteoinductive properties to enable enhanced defect bridging.

KW - Humans

KW - Forecasting

KW - Transplantation, Homologous

KW - Ceramics/chemistry

KW - Biocompatible Materials/chemistry/therapeutic use

KW - Biopolymers/chemistry

KW - Bone Matrix/chemistry

KW - Bone Substitutes/chemistry/therapeutic use

KW - Calcium Compounds/chemistry

KW - Tissue Scaffolds/chemistry

KW - Humans

KW - Forecasting

KW - Transplantation, Homologous

KW - Ceramics/chemistry

KW - Biocompatible Materials/chemistry/therapeutic use

KW - Biopolymers/chemistry

KW - Bone Matrix/chemistry

KW - Bone Substitutes/chemistry/therapeutic use

KW - Calcium Compounds/chemistry

KW - Tissue Scaffolds/chemistry

M3 - SCORING: Journal article

VL - 40

SP - 706

EP - 718

JO - J CRANIO MAXILL SURG

JF - J CRANIO MAXILL SURG

SN - 1010-5182

IS - 8

M1 - 8

ER -