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PUBMED FOR HANDHELDS

Journal Abstract Search


409 related items for PubMed ID: 30019109

  • 1. Expression kinetics of human periodontal ligament fibroblasts in the early phases of orthodontic tooth movement.
    Schröder A, Bauer K, Spanier G, Proff P, Wolf M, Kirschneck C.
    J Orofac Orthop; 2018 Sep; 79(5):337-351. PubMed ID: 30019109
    [Abstract] [Full Text] [Related]

  • 2. Effects of the Highly COX-2-Selective Analgesic NSAID Etoricoxib on Human Periodontal Ligament Fibroblasts during Compressive Orthodontic Mechanical Strain.
    Kirschneck C, Küchler EC, Wolf M, Spanier G, Proff P, Schröder A.
    Mediators Inflamm; 2019 Sep; 2019():2514956. PubMed ID: 30983880
    [Abstract] [Full Text] [Related]

  • 3. Effects of ethanol on human periodontal ligament fibroblasts subjected to static compressive force.
    Schröder A, Küchler EC, Omori M, Spanier G, Proff P, Kirschneck C.
    Alcohol; 2019 Jun; 77():59-70. PubMed ID: 30336201
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  • 4. Genetic polymorphisms influence gene expression of human periodontal ligament fibroblasts in the early phases of orthodontic tooth movement.
    Küchler EC, Schröder A, Corso P, Scariot R, Spanier G, Proff P, Kirschneck C.
    Odontology; 2020 Jul; 108(3):493-502. PubMed ID: 31741103
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  • 5. Sodium-chloride-induced effects on the expression profile of human periodontal ligament fibroblasts with focus on simulated orthodontic tooth movement.
    Schröder A, Nazet U, Neubert P, Jantsch J, Spanier G, Proff P, Kirschneck C.
    Eur J Oral Sci; 2019 Oct; 127(5):386-395. PubMed ID: 31254476
    [Abstract] [Full Text] [Related]

  • 6. The role of mechanotransduction versus hypoxia during simulated orthodontic compressive strain-an in vitro study of human periodontal ligament fibroblasts.
    Ullrich N, Schröder A, Jantsch J, Spanier G, Proff P, Kirschneck C.
    Int J Oral Sci; 2019 Nov 05; 11(4):33. PubMed ID: 31685804
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  • 8. microRNA-21 Contributes to Orthodontic Tooth Movement.
    Chen N, Sui BD, Hu CH, Cao J, Zheng CX, Hou R, Yang ZK, Zhao P, Chen Q, Yang QJ, Jin Y, Jin F.
    J Dent Res; 2016 Nov 05; 95(12):1425-1433. PubMed ID: 27422860
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  • 9. An Evaluation of Different 3D Cultivation Models on Expression Profiles of Human Periodontal Ligament Fibroblasts with Compressive Strain.
    Schröder A, Schöniger R, Oeldemann J, Spanier G, Proff P, Jantsch J, Kirschneck C, Ullrich N.
    Int J Mol Sci; 2022 Feb 12; 23(4):. PubMed ID: 35216145
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  • 10. In Vitro Compression Model for Orthodontic Tooth Movement Modulates Human Periodontal Ligament Fibroblast Proliferation, Apoptosis and Cell Cycle.
    Brockhaus J, Craveiro RB, Azraq I, Niederau C, Schröder SK, Weiskirchen R, Jankowski J, Wolf M.
    Biomolecules; 2021 Jun 23; 11(7):. PubMed ID: 34201602
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  • 13. 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 23; 9(2):63-70. PubMed ID: 16764680
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  • 14. Impact of phosphorylation of heat shock protein 27 on the expression profile of periodontal ligament fibroblasts during mechanical strain.
    Schröder A, Wagner K, Cieplik F, Spanier G, Proff P, Kirschneck C.
    J Orofac Orthop; 2023 Apr 23; 84(Suppl 2):143-153. PubMed ID: 35445818
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  • 16. Notch signaling induces root resorption via RANKL and IL-6 from hPDL cells.
    Kikuta J, Yamaguchi M, Shimizu M, Yoshino T, Kasai K.
    J Dent Res; 2015 Jan 23; 94(1):140-7. PubMed ID: 25376720
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  • 17. Caffeine may enhance orthodontic tooth movement through increasing osteoclastogenesis induced by periodontal ligament cells under compression.
    Yi J, Yan B, Li M, Wang Y, Zheng W, Li Y, Zhao Z.
    Arch Oral Biol; 2016 Apr 23; 64():51-60. PubMed ID: 26773691
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  • 18. Analysis of time-course gene expression profiles of a periodontal ligament tissue model under compression.
    Li Y, Li M, Tan L, Huang S, Zhao L, Tang T, Liu J, Zhao Z.
    Arch Oral Biol; 2013 May 23; 58(5):511-22. PubMed ID: 23116693
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