Bone regenerative medicine: classic options, novel strategies, and future directions
TLDR
Tissue engineering is a new and developing option that had been introduced to reduce limitations of bone grafts and improve the healing processes of the bone fractures and defects and may open new insights in the near future.Abstract:
This review analyzes the literature of bone grafts and introduces tissue engineering as a strategy in this field of orthopedic surgery. We evaluated articles concerning bone grafts; analyzed characteristics, advantages, and limitations of the grafts; and provided explanations about bone-tissue engineering technologies. Many bone grafting materials are available to enhance bone healing and regeneration, from bone autografts to graft substitutes; they can be used alone or in combination. Autografts are the gold standard for this purpose, since they provide osteogenic cells, osteoinductive growth factors, and an osteoconductive scaffold, all essential for new bone growth. Autografts carry the limitations of morbidity at the harvesting site and limited availability. Allografts and xenografts carry the risk of disease transmission and rejection. Tissue engineering is a new and developing option that had been introduced to reduce limitations of bone grafts and improve the healing processes of the bone fractures and defects. The combined use of scaffolds, healing promoting factors, together with gene therapy, and, more recently, three-dimensional printing of tissue-engineered constructs may open new insights in the near future.read more
Citations
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Development of collagen/nanohydroxyapatite scaffolds containing plant extract intended for bone regeneration.
Claudio Garcia,Crisiane Aparecida Marangon,Lívia Contini Massimino,Maria Fátima Guarizo Klingbeil,Virginia da Conceição Amaro Martins,Ana Maria de Guzzi Plepis +5 more
TL;DR: The combination of collagen, nHA and plant extracts offers a promising strategy to design novel biomaterials for bone tissue regeneration.
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Investigating the Influence of Architecture and Material Composition of 3D Printed Anatomical Design Scaffolds for Large Bone Defects
Evangelos Daskalakis,Fengyuan Liu,Boyang Huang,Anıl Ahmet Acar,Glen Cooper,Andrew Weightman,Gordon Blunn,Bahattin Koc,Paulo Jorge Da Silva Bartolo +8 more
TL;DR: This paper investigates the anatomical designed bone bricks with different architectures, pore size gradients, and material compositions, and establishes a correlation between bone bricks architecture and material composition and bone bricks performance.
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Bioceramic Coatings on Magnesium Alloys
TL;DR: The context of magnesium as biodegradable metal, current challenges on use of magnesium-based materials for biomedical applications, and calcium phosphate-based bioceramic coatings on orthopedic applications are discussed.
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Bioprinting of Stem Cells in Multimaterial Scaffolds and Their Applications in Bone Tissue Engineering.
TL;DR: The authors evaluated the impact of extrusion, inkjet, and laser-assisted bioprinting on adipose-derived and bone-marrow-derived stem cells along with the effect of incorporating these stem cells into natural and composite biomaterials.
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In vitro Evaluation of PHBV/PCL Blends for Bone Tissue Engineering
Amália Baptista-Perianes,Sônia Maria Malmonge,Márcia Mayumi Omi Simbara,Arnaldo Rodrigues Santos Junior +3 more
TL;DR: In this article, the authors evaluated Vero cells in in vitro biocompatibility tests with pure PHBV and PCL and 75/25 and 50/50 blends developed for bone tissue bioengineering in dense or porous forms.
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