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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

296 related items for PubMed ID: 8585432

  • 61.
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  • 62.
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  • 63. T and B cells participate in bone repair by infiltrating the fracture callus in a two-wave fashion.
    Könnecke I, Serra A, El Khassawna T, Schlundt C, Schell H, Hauser A, Ellinghaus A, Volk HD, Radbruch A, Duda GN, Schmidt-Bleek K.
    Bone; 2014 Jul; 64():155-65. PubMed ID: 24721700
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  • 64. Anti-inflammatory treatment increases angiogenesis during early fracture healing.
    Lu C, Xing Z, Wang X, Mao J, Marcucio RS, Miclau T.
    Arch Orthop Trauma Surg; 2012 Aug; 132(8):1205-13. PubMed ID: 22622792
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  • 65. The temporal role of leptin within fracture healing and the effect of local application of recombinant leptin on fracture healing.
    Khan SN, DuRaine G, Virk SS, Fung J, Rowland DJ, Reddi AH, Lee MA.
    J Orthop Trauma; 2013 Nov; 27(11):656-62. PubMed ID: 23287761
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  • 66. Transient expression of myofibroblast-like cells in rat rib fracture callus.
    McDonald SJ, Dooley PC, McDonald AC, Schuijers JA, Ward AR, Grills BL.
    Acta Orthop; 2012 Feb; 83(1):93-8. PubMed ID: 22248170
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  • 67. Osteoporosis increases chondrocyte proliferation without a change in apoptosis during fracture healing in an ovariectomized rat model.
    Chen GQ, Wang S, Hu SY.
    Mol Med Rep; 2012 Jan; 5(1):202-6. PubMed ID: 21946935
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  • 68. Influence of internal fixator stiffness on murine fracture healing: two types of fracture healing lead to two distinct cellular events and FGF-2 expressions.
    Ueno M, Urabe K, Naruse K, Uchida K, Minehara H, Yamamoto T, Steck R, Gregory L, Wullschleger ME, Schuetz MA, Itoman M.
    Exp Anim; 2011 Jan; 60(1):79-87. PubMed ID: 21325755
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  • 69.
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  • 71. X-ray microanalysis of fluoride distribution in microfracture calluses in cancellous iliac bone from osteoporotic patients treated with fluoride and untreated.
    Boivin G, Grousson B, Meunier PJ.
    J Bone Miner Res; 1991 Nov; 6(11):1183-90. PubMed ID: 1805542
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  • 72. The inflammatory phase of fracture healing is influenced by oestrogen status in mice.
    Haffner-Luntzer M, Fischer V, Prystaz K, Liedert A, Ignatius A.
    Eur J Med Res; 2017 Jul 06; 22(1):23. PubMed ID: 28683813
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  • 73. Reversal of the detrimental effects of chronic protein malnutrition on long bone fracture healing.
    Day SM, DeHeer DH.
    J Orthop Trauma; 2001 Jan 06; 15(1):47-53. PubMed ID: 11147687
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  • 74. Altered mRNA expression of genes related to nerve cell activity in the fracture callus of older rats: A randomized, controlled, microarray study.
    Meyer MH, Etienne W, Meyer RA.
    BMC Musculoskelet Disord; 2004 Aug 03; 5():24. PubMed ID: 15291962
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  • 75. Molecular basis for affected cartilage formation and bone union in fracture healing of the streptozotocin-induced diabetic rat.
    Ogasawara A, Nakajima A, Nakajima F, Goto K, Yamazaki M.
    Bone; 2008 Nov 03; 43(5):832-9. PubMed ID: 18725334
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  • 76. Trauma-induced inflammation and fracture healing.
    Pape HC, Marcucio R, Humphrey C, Colnot C, Knobe M, Harvey EJ.
    J Orthop Trauma; 2010 Sep 03; 24(9):522-5. PubMed ID: 20736786
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  • 77. Characterization of wound cytokines in the sponge matrix model.
    Ford HR, Hoffman RA, Wing EJ, Magee DM, McIntyre L, Simmons RL.
    Arch Surg; 1989 Dec 03; 124(12):1422-8. PubMed ID: 2686582
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  • 78. Immunohistochemical localization of key arachidonic acid metabolism enzymes during fracture healing in mice.
    Lin HN, O'Connor JP.
    PLoS One; 2014 Dec 03; 9(2):e88423. PubMed ID: 24516658
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  • 79.
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  • 80. Role of Macrophages and Plasminogen Activator Inhibitor-1 in Delayed Bone Repair in Diabetic Female Mice.
    Shimoide T, Kawao N, Tamura Y, Okada K, Horiuchi Y, Okumoto K, Kurashimo S, Ishida M, Tatsumi K, Matsuo O, Kaji H.
    Endocrinology; 2018 Apr 01; 159(4):1875-1885. PubMed ID: 29534207
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