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Journal Abstract Search

308 related items for PubMed ID: 34905745

  • 1.
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  • 2. Controlled degradation of chitosan-coated strontium-doped calcium sulfate hemihydrate composite cement promotes bone defect repair in osteoporosis rats.
    Miao Q, Yang S, Ding H, Liu J.
    Biomed Mater; 2020 Sep 08; 15(5):055039. PubMed ID: 32580171
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  • 4. Enhanced bone formation by strontium modified calcium sulfate hemihydrate in ovariectomized rat critical-size calvarial defects.
    Yang S, Wang L, Feng S, Yang Q, Yu B, Tu M.
    Biomed Mater; 2017 Jun 05; 12(3):035004. PubMed ID: 28580902
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  • 5. Effects of Strontium-Doped β-Tricalcium Scaffold on Longitudinal Nuclear Factor-Kappa Beta and Vascular Endothelial Growth Factor Receptor-2 Promoter Activities during Healing in a Murine Critical-Size Bone Defect Model.
    Tohidnezhad M, Kubo Y, Lichte P, Heigl T, Roch D, Barahmand Pour N, Bergmann C, Sönmez TT, Hock JVP, Fragoulis A, Gremse F, Rosenhain S, Slowik A, Bienert M, Kweider N, Wruck CJ, Jahr H, Hildebrand F, Pape HC, Neuß S, Fischer H, Pufe T.
    Int J Mol Sci; 2020 May 01; 21(9):. PubMed ID: 32370039
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  • 6. 3D-printed PCL/β-TCP/CS composite artificial bone and histocompatibility study.
    Zheng C, Zhang M.
    J Orthop Surg Res; 2023 Dec 21; 18(1):981. PubMed ID: 38129861
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  • 7. SrO- and MgO-doped microwave sintered 3D printed tricalcium phosphate scaffolds: mechanical properties and in vivo osteogenesis in a rabbit model.
    Tarafder S, Dernell WS, Bandyopadhyay A, Bose S.
    J Biomed Mater Res B Appl Biomater; 2015 Apr 21; 103(3):679-90. PubMed ID: 25045131
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  • 8. Novel Extrusion-Microdrilling Approach to Fabricate Calcium Phosphate-Based Bioceramic Scaffolds Enabling Fast Bone Regeneration.
    He F, Lu T, Fang X, Feng S, Feng S, Tian Y, Li Y, Zuo F, Deng X, Ye J.
    ACS Appl Mater Interfaces; 2020 Jul 22; 12(29):32340-32351. PubMed ID: 32597161
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  • 9. Strontium-substituted calcium sulfate hemihydrate/hydroxyapatite scaffold enhances bone regeneration by recruiting bone mesenchymal stromal cells.
    Chang H, Xiang H, Yao Z, Yang S, Tu M, Zhang X, Yu B.
    J Biomater Appl; 2020 Jul 22; 35(1):97-107. PubMed ID: 32233720
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  • 11. A bioceramic scaffold composed of strontium-doped three-dimensional hydroxyapatite whiskers for enhanced bone regeneration in osteoporotic defects.
    Zhao R, Chen S, Zhao W, Yang L, Yuan B, Ioan VS, Iulian AV, Yang X, Zhu X, Zhang X.
    Theranostics; 2020 Jul 22; 10(4):1572-1589. PubMed ID: 32042323
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  • 12. Biofunctional Ionic-Doped Calcium Phosphates: Silk Fibroin Composites for Bone Tissue Engineering Scaffolding.
    Pina S, Canadas RF, Jiménez G, Perán M, Marchal JA, Reis RL, Oliveira JM.
    Cells Tissues Organs; 2017 Jul 22; 204(3-4):150-163. PubMed ID: 28803246
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  • 14. The effect of calcium phosphate composite scaffolds on the osteogenic differentiation of rabbit dental pulp stem cells.
    Ling LE, Feng L, Liu HC, Wang DS, Shi ZP, Wang JC, Luo W, Lv Y.
    J Biomed Mater Res A; 2015 May 22; 103(5):1732-45. PubMed ID: 25131439
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  • 17. A Naringin-loaded gelatin-microsphere/nano-hydroxyapatite/silk fibroin composite scaffold promoted healing of critical-size vertebral defects in ovariectomised rat.
    Yu X, Shen G, Shang Q, Zhang Z, Zhao W, Zhang P, Liang D, Ren H, Jiang X.
    Int J Biol Macromol; 2021 Dec 15; 193(Pt A):510-518. PubMed ID: 34710477
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  • 19. Sr-HA scaffolds fabricated by SPS technology promote the repair of segmental bone defects.
    Hu B, Meng ZD, Zhang YQ, Ye LY, Wang CJ, Guo WC.
    Tissue Cell; 2020 Oct 15; 66():101386. PubMed ID: 32933709
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