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Journal Abstract Search

142 related items for PubMed ID: 12608726

  • 21. Identification of dentine sialoprotein in gingival crevicular fluid during physiological root resorption and orthodontic tooth movement.
    Kereshanan S, Stephenson P, Waddington R.
    Eur J Orthod; 2008 Jun; 30(3):307-14. PubMed ID: 18540018
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  • 23. Matrix metalloproteinases -1, -2, -3, -7, -8, -12, and -13 in gingival crevicular fluid during orthodontic tooth movement: a longitudinal randomized split-mouth study.
    Canavarro C, Teles RP, Capelli Júnior J.
    Eur J Orthod; 2013 Oct; 35(5):652-8. PubMed ID: 22989715
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  • 24. Levels of gingival crevicular fluid matrix metalloproteinases in periodontally compromised teeth under orthodontic forces.
    Almeida RC, Capelli J, Teles RP.
    Angle Orthod; 2015 Nov; 85(6):1009-14. PubMed ID: 25751014
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  • 25. Matrix metalloproteinases and tissue inhibitors of metalloproteinases in gingival crevicular fluid during orthodontic tooth movement.
    Bildt MM, Bloemen M, Kuijpers-Jagtman AM, Von den Hoff JW.
    Eur J Orthod; 2009 Oct; 31(5):529-35. PubMed ID: 19299245
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  • 26. Leptin levels in gingival crevicular fluid during orthodontic tooth movement.
    Dilsiz A, Kiliç N, Aydin T, Ates FN, Zihni M, Bulut C.
    Angle Orthod; 2010 May; 80(3):504-8. PubMed ID: 20050744
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  • 27. Interleukin-1beta levels, pain intensity, and tooth movement using two different magnitudes of continuous orthodontic force.
    Luppanapornlarp S, Kajii TS, Surarit R, Iida J.
    Eur J Orthod; 2010 Oct; 32(5):596-601. PubMed ID: 20534713
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  • 28. Calcitonin gingival crevicular fluid levels and pain discomfort during early orthodontic tooth movement in young patients.
    Alarcón JA, Linde D, Barbieri G, Solano P, Caba O, Rios-Lugo MJ, Sanz M, Martin C.
    Arch Oral Biol; 2013 Jun; 58(6):590-5. PubMed ID: 23107048
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  • 29. [Changes of MMP-9 and TIMP-1 levels in gingival crevicular fluid during orthodontic tooth movement under orthodontic forces].
    Zhou ZY, Zhou JJ, Zhou JJ.
    Xi Bao Yu Fen Zi Mian Yi Xue Za Zhi; 2011 Jun; 27(6):683-4. PubMed ID: 21882477
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  • 30. Interleukin (IL)-1 beta, IL-6, tumor necrosis factor-alpha, epidermal growth factor, and beta 2-microglobulin levels are elevated in gingival crevicular fluid during human orthodontic tooth movement.
    Uematsu S, Mogi M, Deguchi T.
    J Dent Res; 1996 Jan; 75(1):562-7. PubMed ID: 8655760
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  • 31. The monitoring of orthodontic tooth movement over a 2-year period by analysis of gingival crevicular fluid.
    Pender N, Samuels RH, Last KS.
    Eur J Orthod; 1994 Dec; 16(6):511-20. PubMed ID: 7720796
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  • 33. Composition changes in gingival crevicular fluid during orthodontic tooth movement: comparisons between tension and compression sides.
    Dudic A, Kiliaridis S, Mombelli A, Giannopoulou C.
    Eur J Oral Sci; 2006 Oct; 114(5):416-22. PubMed ID: 17026508
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  • 34. Effect of orthodontic forces on levels of enzymes in gingival crevicular fluid (GCF): A systematic review.
    Kapoor P, Monga N, Kharbanda OP, Kapila S, Miglani R, Moganty R.
    Dental Press J Orthod; 2019 May 20; 24(2):40.e1-40.e22. PubMed ID: 31116284
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  • 37. Painful tooth stimulation elevates matrix metalloproteinase-8 levels locally in human gingival crevicular fluid.
    Avellan NL, Sorsa T, Tervahartiala T, Mäntylä P, Forster C, Kemppainen P.
    J Dent Res; 2005 Apr 20; 84(4):335-9. PubMed ID: 15790739
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  • 39. Levels of RANKL and OPG in gingival crevicular fluid during orthodontic tooth movement and effect of compression force on releases from periodontal ligament cells in vitro.
    Nishijima Y, Yamaguchi M, Kojima T, Aihara N, Nakajima R, Kasai K.
    Orthod Craniofac Res; 2006 May 20; 9(2):63-70. PubMed ID: 16764680
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  • 40. Myeloperoxidase enzymatic activity is increased in patients with different levels of dental crowding after initial orthodontic activation.
    Navarro-Palacios A, García-López E, Meza-Rios A, Armendariz-Borunda J, Sandoval-Rodríguez A.
    Am J Orthod Dentofacial Orthop; 2014 Jul 20; 146(1):92-7. PubMed ID: 24975003
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