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Journal Abstract Search

237 related items for PubMed ID: 25121501

  • 1. Hypertrophic chondrocytes in the rabbit growth plate can proliferate and differentiate into osteogenic cells when capillary invasion is interposed by a membrane filter.
    Enishi T, Yukata K, Takahashi M, Sato R, Sairyo K, Yasui N.
    PLoS One; 2014; 9(8):e104638. PubMed ID: 25121501
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  • 2. SOX9 is a major negative regulator of cartilage vascularization, bone marrow formation and endochondral ossification.
    Hattori T, Müller C, Gebhard S, Bauer E, Pausch F, Schlund B, Bösl MR, Hess A, Surmann-Schmitt C, von der Mark H, de Crombrugghe B, von der Mark K.
    Development; 2010 Mar; 137(6):901-11. PubMed ID: 20179096
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  • 3. The skeleton: a multi-functional complex organ: the growth plate chondrocyte and endochondral ossification.
    Mackie EJ, Tatarczuch L, Mirams M.
    J Endocrinol; 2011 Nov; 211(2):109-21. PubMed ID: 21642379
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  • 4. VEGF couples hypertrophic cartilage remodeling, ossification and angiogenesis during endochondral bone formation.
    Gerber HP, Vu TH, Ryan AM, Kowalski J, Werb Z, Ferrara N.
    Nat Med; 1999 Jun; 5(6):623-8. PubMed ID: 10371499
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  • 5. The role of the resting zone in growth plate chondrogenesis.
    Abad V, Meyers JL, Weise M, Gafni RI, Barnes KM, Nilsson O, Bacher JD, Baron J.
    Endocrinology; 2002 May; 143(5):1851-7. PubMed ID: 11956168
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  • 6. Association of cartilage-specific deletion of peroxisome proliferator-activated receptor γ with abnormal endochondral ossification and impaired cartilage growth and development in a murine model.
    Monemdjou R, Vasheghani F, Fahmi H, Perez G, Blati M, Taniguchi N, Lotz M, St-Arnaud R, Pelletier JP, Martel-Pelletier J, Beier F, Kapoor M.
    Arthritis Rheum; 2012 May; 64(5):1551-61. PubMed ID: 22131019
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  • 7. Deletion of beta catenin in hypertrophic growth plate chondrocytes impairs trabecular bone formation.
    Golovchenko S, Hattori T, Hartmann C, Gebhardt M, Gebhard S, Hess A, Pausch F, Schlund B, von der Mark K.
    Bone; 2013 Jul; 55(1):102-12. PubMed ID: 23567158
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  • 8. ADAM17 controls endochondral ossification by regulating terminal differentiation of chondrocytes.
    Hall KC, Hill D, Otero M, Plumb DA, Froemel D, Dragomir CL, Maretzky T, Boskey A, Crawford HC, Selleri L, Goldring MB, Blobel CP.
    Mol Cell Biol; 2013 Aug; 33(16):3077-90. PubMed ID: 23732913
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  • 10. New morphological evidence of the 'fate' of growth plate hypertrophic chondrocytes in the general context of endochondral ossification.
    Pazzaglia UE, Reguzzoni M, Casati L, Sibilia V, Zarattini G, Raspanti M.
    J Anat; 2020 Feb; 236(2):305-316. PubMed ID: 31820452
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  • 14. Expression of Sulf1 and Sulf2 in cartilage, bone and endochondral fracture healing.
    Zaman G, Staines KA, Farquharson C, Newton PT, Dudhia J, Chenu C, Pitsillides AA, Dhoot GK.
    Histochem Cell Biol; 2016 Jan; 145(1):67-79. PubMed ID: 26464246
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  • 17. Growth cartilage calcification and formation of bone trabeculae are late and dissociated events in the endochondral ossification of Rana catesbeiana.
    Felisbino SL, Carvalho HF.
    Cell Tissue Res; 2001 Nov; 306(2):319-23. PubMed ID: 11702243
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  • 19. Chondrocyte-specific knockout of Cbfβ reveals the indispensable function of Cbfβ in chondrocyte maturation, growth plate development and trabecular bone formation in mice.
    Wu M, Li YP, Zhu G, Lu Y, Wang Y, Jules J, McConnell M, Serra R, Shao JZ, Chen W.
    Int J Biol Sci; 2014 Nov; 10(8):861-72. PubMed ID: 25170300
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  • 20. Cartilage abnormalities are associated with abnormal Phex expression and with altered matrix protein and MMP-9 localization in Hyp mice.
    Miao D, Bai X, Panda DK, Karaplis AC, Goltzman D, McKee MD.
    Bone; 2004 Apr; 34(4):638-47. PubMed ID: 15050894
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