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Journal Abstract Search

136 related items for PubMed ID: 31463260

  • 1. Evaluation of levels of Interleukin-1b, intensity of pain and tooth movement during canine retraction using different magnitudes of continuous orthodontic force.
    Singh R, Jayaprakash PK, Yadav A, Dawar M, Grewal H, Mishra A.
    J Family Med Prim Care; 2019 Jul; 8(7):2373-2377. PubMed ID: 31463260
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  • 2. 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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  • 3. Effects of diode laser (980 nm) on orthodontic tooth movement and interleukin 6 levels in gingival crevicular fluid in female subjects.
    Yassaei S, Aghili H, Afshari JT, Bagherpour A, Eslami F.
    Lasers Med Sci; 2016 Dec; 31(9):1751-1759. PubMed ID: 27680969
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  • 4. Biochemical and clinical comparisons of segmental maxillary posterior tooth distal movement between two different force magnitudes.
    Limsiriwong S, Khemaleelakul W, Sirabanchongkran S, Pothacharoen P, Kongtawelert P, Ongchai S, Jotikasthira D.
    Eur J Orthod; 2018 Sep 28; 40(5):496-503. PubMed ID: 29253140
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  • 5. Comparisons of the chondroitin sulphate levels in orthodontically moved canines and the clinical outcomes between two different force magnitudes.
    Insee K, Pothacharoen P, Kongtawelert P, Ongchai S, Jotikasthira D, Krisanaprakornkit S.
    Eur J Orthod; 2014 Feb 28; 36(1):39-46. PubMed ID: 23535117
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  • 6. Impact of Low-Level Laser Therapy on Orthodontic Tooth Movement and Various Cytokines in Gingival Crevicular Fluid: A Split-Mouth Randomized Study.
    Prathapan Santhakumari P, Varma Raja V, Joseph J, Devaraj A, John E, Oommen Thomas N.
    Cureus; 2023 Aug 28; 15(8):e42809. PubMed ID: 37664315
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  • 7. Low-level laser therapy increases interleukin-1β in gingival crevicular fluid and enhances the rate of orthodontic tooth movement.
    Varella AM, Revankar AV, Patil AK.
    Am J Orthod Dentofacial Orthop; 2018 Oct 28; 154(4):535-544.e5. PubMed ID: 30268264
    [Abstract] [Full Text] [Related]

  • 8. Human interleukin-1 beta and interleukin-1 receptor antagonist secretion and velocity of tooth movement.
    Iwasaki LR, Haack JE, Nickel JC, Reinhardt RA, Petro TM.
    Arch Oral Biol; 2001 Feb 28; 46(2):185-9. PubMed ID: 11163326
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  • 9. Effects of autologous leukocyte-platelet rich fibrin (L-PRF) on the rate of maxillary canine retraction and various biomarkers in gingival crevicular fluid (GCF): A split mouth randomized controlled trial.
    Barhate UH, Duggal I, Mangaraj M, Sharan J, Duggal R, Jena AK.
    Int Orthod; 2022 Dec 28; 20(4):100681. PubMed ID: 36151016
    [Abstract] [Full Text] [Related]

  • 10. Lactate dehydrogenase activity in gingival crevicular fluid as a marker in orthodontic tooth movement.
    Alfaqeeh SA, Anil S.
    Open Dent J; 2011 Dec 28; 5():105-9. PubMed ID: 21760863
    [Abstract] [Full Text] [Related]

  • 11. Effects of continuous and interrupted orthodontic force on interleukin-1beta and prostaglandin E2 production in gingival crevicular fluid.
    Lee KJ, Park YC, Yu HS, Choi SH, Yoo YJ.
    Am J Orthod Dentofacial Orthop; 2004 Feb 28; 125(2):168-77. PubMed ID: 14765054
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  • 12. Leptin Levels in Gingival Crevicular Fluid during Orthodontic Tooth Movement.
    Alaguselvaraj J, Selvaraj K, Bhaskaran P, Chidambaram SM, Rajasekaran T, Mani M.
    J Pharm Bioallied Sci; 2021 Nov 28; 13(Suppl 2):S1174-S1177. PubMed ID: 35017951
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  • 15. Alkaline phosphatase activity in gingival crevicular fluid during canine retraction.
    Batra P, Kharbanda O, Duggal R, Singh N, Parkash H.
    Orthod Craniofac Res; 2006 Feb 28; 9(1):44-51. PubMed ID: 16420274
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