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Literature DB >> 29171714

Biomimetic Materials and Fabrication Approaches for Bone Tissue Engineering.

Hwan D Kim¹, Sivashanmugam Amirthalingam², Seunghyun L Kim³, Seunghun S Lee³, Jayakumar Rangasamy², Nathaniel S Hwang^1,3,4.

Abstract

Various strategies have been explored to overcome critically sized bone defects via bone tissue engineering approaches that incorporate biomimetic scaffolds. Biomimetic scaffolds may provide a novel platform for phenotypically stable tissue formation and stem cell differentiation. In recent years, osteoinductive and inorganic biomimetic scaffold materials have been optimized to offer an osteo-friendly microenvironment for the osteogenic commitment of stem cells. Furthermore, scaffold structures with a microarchitecture design similar to native bone tissue are necessary for successful bone tissue regeneration. For this reason, various methods for fabricating 3D porous structures have been developed. Innovative techniques, such as 3D printing methods, are currently being utilized for optimal host stem cell infiltration, vascularization, nutrient transfer, and stem cell differentiation. In this progress report, biomimetic materials and fabrication approaches that are currently being utilized for biomimetic scaffold design are reviewed.

Keywords: 3D printing; bone tissue engineering; calcium phosphate; scaffold systems; whitlockite

Mesh：

Year: 2017 PMID： 29171714 DOI： 10.1002/adhm.201700612

Source DB: PubMed Journal: Adv Healthc Mater ISSN： 2192-2640 Impact factor: 9.933

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Cited

53 in total

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Journal: Birth Defects Res Date: 2018-05-20 Impact factor: 2.344

2. Novel calcium phosphate cement with biofilm-inhibition and platelet lysate delivery to enhance osteogenesis of encapsulated human periodontal ligament stem cells.

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3. Polycaprolactone/Gelatin/Hydroxyapatite Electrospun Nanomembrane Materials Incorporated with Different Proportions of Attapulgite Synergistically Promote Bone Formation.

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Journal: Int J Nanomedicine Date: 2022-09-08

Review 4. Endogenous repair theory enriches construction strategies for orthopaedic biomaterials: a narrative review.

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5. Constructing Injectable Bone-Forming Units by Loading a Subtype of Osteoprogenitors on Decellularized Bone Matrix Powders for Bone Regeneration.

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Journal: Front Cell Dev Biol Date: 2022-07-06

6. Fabrication of centimeter-sized 3D constructs with patterned endothelial cells through assembly of cell-laden microbeads as a potential bone graft.

Authors: Guang Yang; Bhushan Mahadik; Ji Young Choi; Justine R Yu; Trevor Mollot; Bin Jiang; Xiaoming He; John P Fisher
Journal: Acta Biomater Date: 2020-12-01 Impact factor: 8.947

7. Bone Tissue Engineering in the Growing Calvaria Using Dipyridamole-Coated, Three-Dimensionally-Printed Bioceramic Scaffolds: Construct Optimization and Effects on Cranial Suture Patency.

Authors: Samantha G Maliha; Christopher D Lopez; Paulo G Coelho; Lukasz Witek; Madison Cox; Alan Meskin; Sejndi Rusi; Andrea Torroni; Bruce N Cronstein; Roberto L Flores
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Review 8. Gene- and RNAi-activated scaffolds for bone tissue engineering: Current progress and future directions.

Authors: Noah Z Laird; Timothy M Acri; Kelsie Tingle; Aliasger K Salem
Journal: Adv Drug Deliv Rev Date: 2021-05-18 Impact factor: 17.873

9. Enhanced osteogenic commitment of murine mesenchymal stem cells on graphene oxide substrate.

Authors: Jiyong Kim; Hwan D Kim; Jungha Park; Eun-Seo Lee; Eugene Kim; Seunghun S Lee; Jin-Kyung Yang; Yoon-Sik Lee; Nathaniel S Hwang
Journal: Biomater Res Date: 2018-01-02

10. CAD/CAM scaffolds for bone tissue engineering: investigation of biocompatibility of selective laser melted lightweight titanium.

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