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Journal Abstract Search

242 related items for PubMed ID: 22419886

  • 1. Phenotypic characterization of osteoarthritic osteocytes from the sclerotic zones: a possible pathological role in subchondral bone sclerosis.
    Jaiprakash A, Prasadam I, Feng JQ, Liu Y, Crawford R, Xiao Y.
    Int J Biol Sci; 2012; 8(3):406-17. PubMed ID: 22419886
    [Abstract] [Full Text] [Related]

  • 2. Osteocyte TGFβ1‑Smad2/3 is positively associated with bone turnover parameters in subchondral bone of advanced osteoarthritis.
    Dai G, Xiao H, Liao J, Zhou N, Zhao C, Xu W, Xu W, Liang X, Huang W.
    Int J Mol Med; 2020 Jul; 46(1):167-178. PubMed ID: 32319543
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  • 3. Impact of extracellular matrix derived from osteoarthritis subchondral bone osteoblasts on osteocytes: role of integrinβ1 and focal adhesion kinase signaling cues.
    Prasadam I, Farnaghi S, Feng JQ, Gu W, Perry S, Crawford R, Xiao Y.
    Arthritis Res Ther; 2013 Oct 09; 15(5):R150. PubMed ID: 24289792
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  • 4. SOST Deficiency Aggravates Osteoarthritis in Mice by Promoting Sclerosis of Subchondral Bone.
    Li J, Xue J, Jing Y, Wang M, Shu R, Xu H, Xue C, Feng J, Wang P, Bai D.
    Biomed Res Int; 2019 Oct 09; 2019():7623562. PubMed ID: 31828128
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  • 7. Characterization of nano-structural and nano-mechanical properties of osteoarthritic subchondral bone.
    Zuo Q, Lu S, Du Z, Friis T, Yao J, Crawford R, Prasadam I, Xiao Y.
    BMC Musculoskelet Disord; 2016 Aug 24; 17(1):367. PubMed ID: 27558702
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  • 10. The simultaneous analysis of mesenchymal stem cells and early osteocytes accumulation in osteoarthritic femoral head sclerotic bone.
    Ilas DC, Churchman SM, Baboolal T, Giannoudis PV, Aderinto J, McGonagle D, Jones E.
    Rheumatology (Oxford); 2019 Oct 01; 58(10):1777-1783. PubMed ID: 31165896
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  • 11. Comparison of secretome from osteoblasts derived from sclerotic versus non-sclerotic subchondral bone in OA: A pilot study.
    Sanchez C, Mazzucchelli G, Lambert C, Comblain F, DePauw E, Henrotin Y.
    PLoS One; 2018 Oct 01; 13(3):e0194591. PubMed ID: 29547667
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  • 12. Effect of interval-training exercise on subchondral bone in a chemically-induced osteoarthritis model.
    Boudenot A, Presle N, Uzbekov R, Toumi H, Pallu S, Lespessailles E.
    Osteoarthritis Cartilage; 2014 Aug 01; 22(8):1176-85. PubMed ID: 24928318
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  • 13. Elevated marrow inflammatory cells and osteoclasts in subchondral osteosclerosis in human knee osteoarthritis.
    Geurts J, Patel A, Hirschmann MT, Pagenstert GI, Müller-Gerbl M, Valderrabano V, Hügle T.
    J Orthop Res; 2016 Feb 01; 34(2):262-9. PubMed ID: 26250062
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  • 14. Osteoblast-like cells from human subchondral osteoarthritic bone demonstrate an altered phenotype in vitro: possible role in subchondral bone sclerosis.
    Hilal G, Martel-Pelletier J, Pelletier JP, Ranger P, Lajeunesse D.
    Arthritis Rheum; 1998 May 01; 41(5):891-9. PubMed ID: 9588742
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  • 15. Loading-Induced Reduction in Sclerostin as a Mechanism of Subchondral Bone Plate Sclerosis in Mouse Knee Joints During Late-Stage Osteoarthritis.
    Jia H, Ma X, Wei Y, Tong W, Tower RJ, Chandra A, Wang L, Sun Z, Yang Z, Badar F, Zhang K, Tseng WJ, Kramer I, Kneissel M, Xia Y, Liu XS, Wang JHC, Han L, Enomoto-Iwamoto M, Qin L.
    Arthritis Rheumatol; 2018 Feb 01; 70(2):230-241. PubMed ID: 29024567
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  • 16. Irisin inhibits osteocyte apoptosis by activating the Erk signaling pathway in vitro and attenuates ALCT-induced osteoarthritis in mice.
    He Z, Li H, Han X, Zhou F, Du J, Yang Y, Xu Q, Zhang S, Zhang S, Zhao N, Yan M, Yu Z.
    Bone; 2020 Dec 01; 141():115573. PubMed ID: 32768686
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  • 17. Alterations in compositional and cellular properties of the subchondral bone are linked to cartilage degeneration in hip osteoarthritis.
    Delsmann J, Eissele J, Simon A, Alimy AR, von Kroge S, Mushumba H, Püschel K, Busse B, Ries C, Amling M, Beil FT, Rolvien T.
    Osteoarthritis Cartilage; 2024 May 01; 32(5):535-547. PubMed ID: 38403152
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  • 18. Multiscale bone quality analysis in osteoarthritic knee joints reveal a role of the mechanosensory osteocyte network in osteophytes.
    Rabelo GD, Vom Scheidt A, Klebig F, Hemmatian H, Citak M, Amling M, Busse B, Jähn K.
    Sci Rep; 2020 Jan 20; 10(1):673. PubMed ID: 31959806
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  • 19. Osteocyte network; a negative regulatory system for bone mass augmented by the induction of Rankl in osteoblasts and Sost in osteocytes at unloading.
    Moriishi T, Fukuyama R, Ito M, Miyazaki T, Maeno T, Kawai Y, Komori H, Komori T.
    PLoS One; 2012 Jan 20; 7(6):e40143. PubMed ID: 22768243
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  • 20. Increased tartrate-resistant Acid phosphatase expression in osteoblasts and osteocytes in experimental osteoporosis in rats.
    Solberg LB, Brorson SH, Stordalen GA, Bækkevold ES, Andersson G, Reinholt FP.
    Calcif Tissue Int; 2014 May 20; 94(5):510-21. PubMed ID: 24395179
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