Biomimetic Materials for Bone Tissue Engineering - State of the Art and Future Trends
Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting, culturing and differentiating human mesenchymal stem cells in combination with scaffolds. Different cell sources, such as bone marrow or adipose tissu...
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Published in | Advanced engineering materials Vol. 13; no. 5; pp. B135 - B150 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
Weinheim
WILEY-VCH Verlag
01.05.2011
WILEY‐VCH Verlag Wiley |
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Abstract | Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting, culturing and differentiating human mesenchymal stem cells in combination with scaffolds. Different cell sources, such as bone marrow or adipose tissue, have been studied. Biomaterials resembling bone extracellular matrix have been used for scaffolding cells. However, these macroporous calcium phosphate ceramics or biodegradable polymers are two dimensional structures at the cellular level and have low osteogenesis properties in vivo. In this paper, several biomimetic approaches involving hydrogels or particles for 3‐dimensional (3D) cell cultures are reviewed. High numbers of cells for low amounts of material induced abundant extracellular matrix formation in vitro and relatively large amounts of bone tissue formation in vivo. In addition, the 3D culture of several cell populations should make it easier for bone tissue constructs to vascularize, thus lifting the limits of current clinical applications.
Bone tissue engineering consists of culturing mesenchymal stem cells in combination with scaffolds for regenerating bone defects in patients. This paper reviews biomimetic approaches involving hydrogels, polymer nanofibers or calcium phosphate microparticles for 3‐dimensional culture of several cell populations. Hybrid constructs having high numbers of cells and low volume content of biomaterial may facilitate bone tissue regeneration and re‐vascularization. |
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AbstractList | Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting, culturing and differentiating human mesenchymal stem cells in combination with scaffolds. Different cell sources, such as bone marrow or adipose tissue, have been studied. Biomaterials resembling bone extracellular matrix have been used for scaffolding cells. However, these macroporous calcium phosphate ceramics or biodegradable polymers are two dimensional structures at the cellular level and have low osteogenesis properties in vivo. In this paper, several biomimetic approaches involving hydrogels or particles for 3‐dimensional (3D) cell cultures are reviewed. High numbers of cells for low amounts of material induced abundant extracellular matrix formation in vitro and relatively large amounts of bone tissue formation in vivo. In addition, the 3D culture of several cell populations should make it easier for bone tissue constructs to vascularize, thus lifting the limits of current clinical applications.
Bone tissue engineering consists of culturing mesenchymal stem cells in combination with scaffolds for regenerating bone defects in patients. This paper reviews biomimetic approaches involving hydrogels, polymer nanofibers or calcium phosphate microparticles for 3‐dimensional culture of several cell populations. Hybrid constructs having high numbers of cells and low volume content of biomaterial may facilitate bone tissue regeneration and re‐vascularization. Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting, culturing and differentiating human mesenchymal stem cells in combination with scaffolds. Different cell sources, such as bone marrow or adipose tissue, have been studied. Biomaterials resembling bone extracellular matrix have been used for scaffolding cells. However, these macroporous calcium phosphate ceramics or biodegradable polymers are two dimensional structures at the cellular level and have low osteogenesis properties in vivo. In this paper, several biomimetic approaches involving hydrogels or particles for 3-dimensional (3D) cell cultures are reviewed. High numbers of cells for low amounts of material induced abundant extracellular matrix formation in vitro and relatively large amounts of bone tissue formation in vivo. In addition, the 3D culture of several cell populations should make it easier for bone tissue constructs to vascularize, thus lifting the limits of current clinical applications. Abstract Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting, culturing and differentiating human mesenchymal stem cells in combination with scaffolds. Different cell sources, such as bone marrow or adipose tissue, have been studied. Biomaterials resembling bone extracellular matrix have been used for scaffolding cells. However, these macroporous calcium phosphate ceramics or biodegradable polymers are two dimensional structures at the cellular level and have low osteogenesis properties in vivo . In this paper, several biomimetic approaches involving hydrogels or particles for 3‐dimensional (3D) cell cultures are reviewed. High numbers of cells for low amounts of material induced abundant extracellular matrix formation in vitro and relatively large amounts of bone tissue formation in vivo . In addition, the 3D culture of several cell populations should make it easier for bone tissue constructs to vascularize, thus lifting the limits of current clinical applications. |
Author | Cordonnier, Thomas Rosset, Philippe Layrolle, Pierre Sohier, Jérôme |
Author_xml | – sequence: 1 givenname: Thomas surname: Cordonnier fullname: Cordonnier, Thomas organization: Inserm, U957, Laboratory for Bone Resorption Physiopathology and Primary Bone Tumors Therapy, Faculty of Medicine, University of Nantes, (France) Inserm U957, Faculty of Medicine, 1 rue Gaston Veil, 44035 Nantes, (France) – sequence: 2 givenname: Jérôme surname: Sohier fullname: Sohier, Jérôme organization: Inserm, U957, Laboratory for Bone Resorption Physiopathology and Primary Bone Tumors Therapy, Faculty of Medicine, University of Nantes, (France) Inserm U957, Faculty of Medicine, 1 rue Gaston Veil, 44035 Nantes, (France) – sequence: 3 givenname: Philippe surname: Rosset fullname: Rosset, Philippe organization: EA3855, Laboratory of Hematopoiesis François Rabelais University, Tours, (France) – sequence: 4 givenname: Pierre surname: Layrolle fullname: Layrolle, Pierre email: pierre.layrolle@inserm.fr organization: Inserm, U957, Laboratory for Bone Resorption Physiopathology and Primary Bone Tumors Therapy, Faculty of Medicine, University of Nantes, (France) Inserm U957, Faculty of Medicine, 1 rue Gaston Veil, 44035 Nantes, (France) |
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Notes | European Commission - No. 241879 ArticleID:ADEM201080098 istex:2C3A3A6964B0E75202C02AAC4C735A0446C4B6B3 Acknowledgements: This work was funded by a grant from the Directorate-General for research of the European Commission (no. 241879), through the REBORNE project. TC and JS were supported by the French national research agency (ATOS project). ark:/67375/WNG-5MNQCRP7-7 Acknowledgements: This work was funded by a grant from the Directorate‐General for research of the European Commission (no. 241879), through the REBORNE project. TC and JS were supported by the French national research agency (ATOS project). ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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Snippet | Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting, culturing... Abstract Bone tissue engineering is extremely promising for regenerating large bone defects in orthopedic or maxillofacial surgery. It consists of harvesting,... |
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SubjectTerms | Biocompatibility Bioengineering Biomaterials Biomedical materials Bones Culture In vivo testing In vivo tests Life Sciences Surgical implants Three dimensional |
Title | Biomimetic Materials for Bone Tissue Engineering - State of the Art and Future Trends |
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