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Journal Abstract Search

121 related items for PubMed ID: 12351669

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  • 4. Indian and sonic hedgehogs regulate synchondrosis growth plate and cranial base development and function.
    Young B, Minugh-Purvis N, Shimo T, St-Jacques B, Iwamoto M, Enomoto-Iwamoto M, Koyama E, Pacifici M.
    Dev Biol; 2006 Nov 01; 299(1):272-82. PubMed ID: 16935278
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  • 5. Temporal expression of SOX9 and type II collagen in spheno-occipital synchondrosis of mice after mechanical tension stimuli.
    Cendekiawan T, Wong RW, Rabie AB.
    Angle Orthod; 2008 Jan 01; 78(1):83-8. PubMed ID: 18193955
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  • 6. BMP4 promotes chondrocyte proliferation and hypertrophy in the endochondral cranial base.
    Shum L, Wang X, Kane AA, Nuckolls GH.
    Int J Dev Biol; 2003 Sep 01; 47(6):423-31. PubMed ID: 14598792
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  • 7. Studies on chondrocytes from mandibular condylar cartilage, nasal septal cartilage, and spheno-occipital synchondrosis in culture. I. Morphology, growth, glycosaminoglycan synthesis, and responsiveness to bovine parathyroid hormone (1-34).
    Takigawa M, Okada M, Takano T, Ohmae H, Sakuda M, Suzuki F.
    J Dent Res; 1984 Jan 01; 63(1):19-22. PubMed ID: 6582075
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  • 8. The effect of mechanical loading on the metabolism of growth plate chondrocytes.
    Ueki M, Tanaka N, Tanimoto K, Nishio C, Honda K, Lin YY, Tanne Y, Ohkuma S, Kamiya T, Tanaka E, Tanne K.
    Ann Biomed Eng; 2008 May 01; 36(5):793-800. PubMed ID: 18278554
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  • 9. 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 01; 143(5):1851-7. PubMed ID: 11956168
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  • 10. 8-Nitro-cGMP promotes bone growth through expansion of growth plate cartilage.
    Hoshino M, Kaneko K, Miyamoto Y, Yoshimura K, Suzuki D, Akaike T, Sawa T, Ida T, Fujii S, Ihara H, Tanaka J, Tsukuura R, Chikazu D, Mishima K, Baba K, Kamijo R.
    Free Radic Biol Med; 2017 Sep 01; 110():63-71. PubMed ID: 28559051
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  • 11. Effect of tensile force on expression of PTHrP and thickness of hypertrophic zone in organ-cultured mouse spheno-occipital synchondroses.
    Rukkulchon BK, Wong RW.
    Arch Oral Biol; 2008 Jul 01; 53(7):690-9. PubMed ID: 18343352
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  • 13. In vitro regulation of proliferation and differentiation within a postnatal growth plate of the cranial base by parathyroid hormone-related peptide (PTHrP).
    Wealthall RJ.
    J Cell Physiol; 2009 Jun 01; 219(3):688-97. PubMed ID: 19229881
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  • 14. Expression of glutathione peroxidase 1 in the spheno-occipital synchondrosis and its role in ROS-induced apoptosis.
    Koretsi V, Kirschneck C, Proff P, Römer P.
    Eur J Orthod; 2015 Jun 01; 37(3):308-13. PubMed ID: 25312980
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  • 15. [Chondrogenesis in vitro by epiphyseal chondrocytes seeding into three-dimensional scaffolds].
    Zhou Q, Li QH, Dai G.
    Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi; 2004 Mar 01; 18(2):92-5. PubMed ID: 15065404
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  • 16. Proliferation of the hypertrophic chondrocytes of the growth plate after physeal distraction. An experimental study in rabbits.
    Alberty A, Peltonen J.
    Clin Orthop Relat Res; 1993 Dec 01; (297):7-11. PubMed ID: 8242954
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  • 17. Determination of proliferative characteristics of growth plate chondrocytes by labeling with bromodeoxyuridine.
    Farnum CE, Wilsman NJ.
    Calcif Tissue Int; 1993 Feb 01; 52(2):110-9. PubMed ID: 8443686
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  • 18. Mechanical regulation of terminal chondrocyte differentiation via RGD-CAP/beta ig-h3 induced by TGF-beta.
    Ohno S, Tanaka N, Ueki M, Honda K, Tanimoto K, Yoneno K, Ohno-Nakahara M, Fujimoto K, Kato Y, Tanne K.
    Connect Tissue Res; 2005 Feb 01; 46(4-5):227-34. PubMed ID: 16546826
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  • 19. Multiscale modeling of growth plate cartilage mechanobiology.
    Gao J, Williams JL, Roan E.
    Biomech Model Mechanobiol; 2017 Apr 01; 16(2):667-679. PubMed ID: 27770213
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  • 20. Suture cartilage formation pattern varies with different expansive forces.
    Liu Y, Tang Y, Xiao L, Liu SS, Yu H.
    Am J Orthod Dentofacial Orthop; 2014 Oct 01; 146(4):442-50. PubMed ID: 25263147
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