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Journal Abstract Search

423 related items for PubMed ID: 8747247

  • 21. Compressive mechanical properties of the human anulus fibrosus and their relationship to biochemical composition.
    Best BA, Guilak F, Setton LA, Zhu W, Saed-Nejad F, Ratcliffe A, Weidenbaum M, Mow VC.
    Spine (Phila Pa 1976); 1994 Jan 15; 19(2):212-21. PubMed ID: 8153833
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  • 23. An immunohistochemical study of nerve structures in the anulus fibrosus of human normal lumbar intervertebral discs.
    Palmgren T, Grönblad M, Virri J, Kääpä E, Karaharju E.
    Spine (Phila Pa 1976); 1999 Oct 15; 24(20):2075-9. PubMed ID: 10543001
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  • 26. Temporo-spatial distribution of blood vessels in human lumbar intervertebral discs.
    Nerlich AG, Schaaf R, Wälchli B, Boos N.
    Eur Spine J; 2007 Apr 15; 16(4):547-55. PubMed ID: 16947015
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  • 27. Effects of aging and spinal degeneration on mechanical properties of lumbar supraspinous and interspinous ligaments.
    Iida T, Abumi K, Kotani Y, Kaneda K.
    Spine J; 2002 Apr 15; 2(2):95-100. PubMed ID: 14588267
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  • 28. Human intervertebral disc internal strain in compression: the effect of disc region, loading position, and degeneration.
    O'Connell GD, Vresilovic EJ, Elliott DM.
    J Orthop Res; 2011 Apr 15; 29(4):547-55. PubMed ID: 21337394
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  • 30. Effect of strain rate on tensile properties of sheep disc anulus fibrosus.
    Kasra M, Parnianpour M, Shirazi-Adl A, Wang JL, Grynpas MD.
    Technol Health Care; 2004 Apr 15; 12(4):333-42. PubMed ID: 15502284
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  • 31. The stiffness of lumbar spinal motion segments with a high-intensity zone in the anulus fibrosus.
    Schmidt TA, An HS, Lim TH, Nowicki BH, Haughton VM.
    Spine (Phila Pa 1976); 1998 Oct 15; 23(20):2167-73. PubMed ID: 9802156
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  • 33. Interlaminar shear stresses and laminae separation in a disc. Finite element analysis of the L3-L4 motion segment subjected to axial compressive loads.
    Goel VK, Monroe BT, Gilbertson LG, Brinckmann P.
    Spine (Phila Pa 1976); 1995 Mar 15; 20(6):689-98. PubMed ID: 7604345
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  • 34. Human annulus fibrosus material properties from biaxial testing and constitutive modeling are altered with degeneration.
    O'Connell GD, Sen S, Elliott DM.
    Biomech Model Mechanobiol; 2012 Mar 15; 11(3-4):493-503. PubMed ID: 21748426
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  • 36. A meta-model analysis of a finite element simulation for defining poroelastic properties of intervertebral discs.
    Nikkhoo M, Hsu YC, Haghpanahi M, Parnianpour M, Wang JL.
    Proc Inst Mech Eng H; 2013 Jun 15; 227(6):672-82. PubMed ID: 23636748
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  • 37. Structural variation of the anterior and posterior anulus fibrosus in the development of human lumbar intervertebral disc. A risk factor for intervertebral disc rupture.
    Tsuji H, Hirano N, Ohshima H, Ishihara H, Terahata N, Motoe T.
    Spine (Phila Pa 1976); 1993 Feb 15; 18(2):204-10. PubMed ID: 8441935
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  • 38. Topographic differences of 1H-NMR relaxation times (T1, T2) in the normal intervertebral disc and its relationship to water content.
    Chatani K, Kusaka Y, Mifune T, Nishikawa H.
    Spine (Phila Pa 1976); 1993 Nov 15; 18(15):2271-5. PubMed ID: 8278845
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  • 39. Influences of disc degeneration and bone mineral density on the structural properties of lumbar end plates.
    Hou Y, Yuan W.
    Spine J; 2012 Mar 15; 12(3):249-56. PubMed ID: 22366078
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  • 40. Compression-induced degeneration of the intervertebral disc: an in vivo mouse model and finite-element study.
    Lotz JC, Colliou OK, Chin JR, Duncan NA, Liebenberg E.
    Spine (Phila Pa 1976); 1998 Dec 01; 23(23):2493-506. PubMed ID: 9854748
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