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Journal Abstract Search

585 related items for PubMed ID: 25428072

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  • 2. Surface modification of strontium-doped porous bioactive ceramic scaffolds via poly(DOPA) coating and immobilizing silk fibroin for excellent angiogenic and osteogenic properties.
    Wang X, Gu Z, Jiang B, Li L, Yu X.
    Biomater Sci; 2016 Apr; 4(4):678-88. PubMed ID: 26870855
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  • 5. In vivo study of porous strontium-doped calcium polyphosphate scaffolds for bone substitute applications.
    Tian M, Chen F, Song W, Song Y, Chen Y, Wan C, Yu X, Zhang X.
    J Mater Sci Mater Med; 2009 Jul; 20(7):1505-12. PubMed ID: 19267259
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  • 9. A promising scaffold with excellent cytocompatibility and pro-angiogenesis action for dental tissue engineering: Strontium-doped calcium polyphosphate.
    Qin H, Yang Z, Li L, Yang X, Liu J, Chen X, Yu X.
    Dent Mater J; 2016 Jul; 35(2):241-9. PubMed ID: 27041014
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  • 11. Effect of strontium ions on the growth of ROS17/2.8 cells on porous calcium polyphosphate scaffolds.
    Qiu K, Zhao XJ, Wan CX, Zhao CS, Chen YW.
    Biomaterials; 2006 Mar; 27(8):1277-86. PubMed ID: 16143392
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  • 12. The inhibitory effect of strontium-doped calcium polyphosphate particles on cytokines from macrophages and osteoblasts leading to aseptic loosening in vitro.
    Huang C, Li L, Yu X, Gu Z, Zhang X.
    Biomed Mater; 2014 Apr; 9(2):025010. PubMed ID: 24518283
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  • 13. 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; 66():101386. PubMed ID: 32933709
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  • 15. Bone marrow stromal cells with a combined expression of BMP-2 and VEGF-165 enhanced bone regeneration.
    Xiao C, Zhou H, Liu G, Zhang P, Fu Y, Gu P, Hou H, Tang T, Fan X.
    Biomed Mater; 2011 Feb; 6(1):015013. PubMed ID: 21252414
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