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Journal Abstract Search

112 related items for PubMed ID: 31521827

  • 1. Increased anabolic bone response in Dkk1 KO mice following tibial compressive loading.
    Morse A, Ko FC, McDonald MM, Lee LR, Schindeler A, van der Meulen MCH, Little DG.
    Bone; 2020 Feb; 131():115054. PubMed ID: 31521827
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  • 2. Dkk1 KO Mice Treated with Sclerostin Antibody Have Additional Increases in Bone Volume.
    Morse A, Cheng TL, Schindeler A, McDonald MM, Mohanty ST, Kneissel M, Kramer I, Little DG.
    Calcif Tissue Int; 2018 Sep; 103(3):298-310. PubMed ID: 29845410
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  • 5. Activation of Wnt Signaling by Mechanical Loading Is Impaired in the Bone of Old Mice.
    Holguin N, Brodt MD, Silva MJ.
    J Bone Miner Res; 2016 Dec; 31(12):2215-2226. PubMed ID: 27357062
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  • 8. Mechanical load increases in bone formation via a sclerostin-independent pathway.
    Morse A, McDonald MM, Kelly NH, Melville KM, Schindeler A, Kramer I, Kneissel M, van der Meulen MC, Little DG.
    J Bone Miner Res; 2014 Nov; 29(11):2456-67. PubMed ID: 24821585
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  • 9. Sost deficiency led to a greater cortical bone formation response to mechanical loading and altered gene expression.
    Pflanz D, Birkhold AI, Albiol L, Thiele T, Julien C, Seliger A, Thomson E, Kramer I, Kneissel M, Duda GN, Kornak U, Checa S, Willie BM.
    Sci Rep; 2017 Aug 25; 7(1):9435. PubMed ID: 28842678
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  • 12. Sclerostin Antibody Augments the Anabolic Bone Formation Response in a Mouse Model of Mechanical Tibial Loading.
    Morse A, Schindeler A, McDonald MM, Kneissel M, Kramer I, Little DG.
    J Bone Miner Res; 2018 Mar 25; 33(3):486-498. PubMed ID: 29090474
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  • 14. Sost deficiency leads to reduced mechanical strains at the tibia midshaft in strain-matched in vivo loading experiments in mice.
    Albiol L, Cilla M, Pflanz D, Kramer I, Kneissel M, Duda GN, Willie BM, Checa S.
    J R Soc Interface; 2018 Apr 25; 15(141):. PubMed ID: 29669893
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  • 15. Role of osteogenic Dickkopf-1 in bone remodeling and bone healing in mice with type I diabetes mellitus.
    Hildebrandt N, Colditz J, Dutra C, Goes P, Salbach-Hirsch J, Thiele S, Hofbauer LC, Rauner M.
    Sci Rep; 2021 Jan 21; 11(1):1920. PubMed ID: 33479403
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  • 16. Sclerostin deficiency effectively promotes bone morphogenetic protein-2-induced ectopic bone formation.
    Nakamura K, Koide M, Kobayashi Y, Yamashita T, Matsushita M, Yasuda H, Ishihara Y, Yoshinari N, Udagawa N.
    J Periodontal Res; 2023 Aug 21; 58(4):769-779. PubMed ID: 37154419
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  • 17. Targeted deletion of the sclerostin gene in mice results in increased bone formation and bone strength.
    Li X, Ominsky MS, Niu QT, Sun N, Daugherty B, D'Agostin D, Kurahara C, Gao Y, Cao J, Gong J, Asuncion F, Barrero M, Warmington K, Dwyer D, Stolina M, Morony S, Sarosi I, Kostenuik PJ, Lacey DL, Simonet WS, Ke HZ, Paszty C.
    J Bone Miner Res; 2008 Jun 21; 23(6):860-9. PubMed ID: 18269310
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  • 18. Effects of Long-Term Sclerostin Deficiency on Trabecular Bone Mass and Adaption to Limb Loading Differ in Male and Female Mice.
    Albiol L, Büttner A, Pflanz D, Mikolajewicz N, Birkhold AI, Kramer I, Kneissel M, Duda GN, Checa S, Willie BM.
    Calcif Tissue Int; 2020 Apr 21; 106(4):415-430. PubMed ID: 31873756
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  • 19. Targeted postnatal knockout of Sclerostin using a bone-targeted adeno-associated viral vector increases bone anabolism and decreases canalicular density.
    O'Donohue AK, Xiao Y, Lee LR, Schofield T, Cheng TL, Munns CF, Baldock PA, Schindeler A.
    Bone; 2023 Feb 21; 167():116636. PubMed ID: 36462771
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  • 20. Bone adaptation to mechanical loading in mice is affected by circadian rhythms.
    Bouchard AL, Dsouza C, Julien C, Rummler M, Gaumond MH, Cermakian N, Willie BM.
    Bone; 2022 Jan 21; 154():116218. PubMed ID: 34571201
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