Recent advances in bone tissue engineering scaffolds.
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TLDR
In this review, recent advances in bone scaffolds are highlighted and aspects that still need to be improved are discussed.About:
This article is published in Trends in Biotechnology.The article was published on 2012-10-01 and is currently open access. It has received 1737 citations till now. The article focuses on the topics: Bone regeneration & Tissue engineering.read more
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Three-dimensional bio-printing equipment technologies for tissue engineering and regenerative medicine
TL;DR: The history and types of 3D printers, the classification of3D bio-printers, and the technology used to manufacture artificial tissues and organs are discussed.
Advancement in Scaffolds for Bone Tissue Engineering: A Review
TL;DR: This review attempts to illustrate the biology of natural bone, various desirable properties of scaffolding, biomaterials used for fabrication of scaffold and various fabrication techniques with examples of bone regenerate.
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Fabrication and properties of newly developed Ti35Zr28Nb scaffolds fabricated by powder metallurgy for bone-tissue engineering
TL;DR: In this article, a newly developed porous Ti35Zr28Nb scaffold was manufactured via powder metallurgy (PM) using space-holder (NH4HCO3) sintering from pre-alloyed powder.
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Mineralization of Biomaterials for Bone Tissue Engineering
TL;DR: The mineralized scaffolds have improved bone regeneration in animal models due to the enhanced mechanical properties and cell recruitment capability making them a preferable option for bone tissue engineering over non-mineralization scaffolds.
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Scaffold-Based Delivery of Nucleic Acid Therapeutics for Enhanced Bone and Cartilage Repair.
Domhnall C. Kelly,Rosanne M. Raftery,Rosanne M. Raftery,Caroline M. Curtin,Caroline M. Curtin,Caitriona M. O'Driscoll,Caitriona M. O'Driscoll,Fergal J. O'Brien +7 more
TL;DR: An overview of the current state‐of‐the‐art in the field of gene‐activated scaffolds and their use within orthopedic tissue engineering applications is provided.
References
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Porosity of 3D biomaterial scaffolds and osteogenesis.
TL;DR: New fabrication techniques, such as solid-free form fabrication, can potentially be used to generate scaffolds with morphological and mechanical properties more selectively designed to meet the specificity of bone-repair needs.
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Bioceramics: From Concept to Clinic
TL;DR: The mechanisms of tissue bonding to bioactive ceramics are beginning to be understood, which can result in the molecular design of bioceramics for interfacial bonding with hard and soft tissues.
Journal Article
Bioceramics : from concept to clinic
TL;DR: The mechanisms of tissue bonding to bioactive ceramics are beginning to be understood, which can result in the molecular design of bioceramics for interfacial bonding with hard and soft tissues.
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Biodegradable and bioactive porous polymer/inorganic composite scaffolds for bone tissue engineering
TL;DR: Challenges in scaffold fabrication for tissue engineering such as biomolecules incorporation, surface functionalization and 3D scaffold characterization are discussed, giving possible solution strategies.
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The Extracellular Matrix: Not Just Pretty Fibrils
TL;DR: The extracellular matrix and ECM proteins are important in phenomena as diverse as developmental patterning, stem cell niches, cancer, and genetic diseases and these properties need to be incorporated into considerations of the functions of the ECM.