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Items: 1 to 20 of 204

1.

Cancellous bone mechanical properties from normals and patients with hip fractures differ on the structure level, not on the bone hard tissue level.

Homminga J, McCreadie BR, Ciarelli TE, Weinans H, Goldstein SA, Huiskes R.

Bone. 2002 May;30(5):759-64.

PMID:
11996916
2.

Anisotropy of osteoporotic cancellous bone.

Sugita H, Oka M, Toguchida J, Nakamura T, Ueo T, Hayami T.

Bone. 1999 May;24(5):513-6.

PMID:
10321912
3.

Altered tissue properties induce changes in cancellous bone architecture in aging and diseases.

van der Linden JC, Day JS, Verhaar JA, Weinans H.

J Biomech. 2004 Mar;37(3):367-74.

PMID:
14757456
4.

Comparison of the elastic and yield properties of human femoral trabecular and cortical bone tissue.

Bayraktar HH, Morgan EF, Niebur GL, Morris GE, Wong EK, Keaveny TM.

J Biomech. 2004 Jan;37(1):27-35.

PMID:
14672565
5.

Regional differences in mechanical and material properties of femoral head cancellous bone in health and osteoarthritis.

Brown SJ, Pollintine P, Powell DE, Davie MW, Sharp CA.

Calcif Tissue Int. 2002 Sep;71(3):227-34. Epub 2002 Aug 12.

PMID:
12170373
6.

Relationship between CT intensity, micro-architecture and mechanical properties of porcine vertebral cancellous bone.

Teo JC, Si-Hoe KM, Keh JE, Teoh SH.

Clin Biomech (Bristol, Avon). 2006 Mar;21(3):235-44. Epub 2005 Dec 13.

PMID:
16356612
7.

Difference in femoral head and neck material properties between osteoarthritis and osteoporosis.

Sun SS, Ma HL, Liu CL, Huang CH, Cheng CK, Wei HW.

Clin Biomech (Bristol, Avon). 2008;23 Suppl 1:S39-47. doi: 10.1016/j.clinbiomech.2007.11.018. Epub 2008 Jan 9.

PMID:
18187243
8.

Structural determinants of hip fracture in elderly women: re-analysis of the data from the EPIDOS study.

Szulc P, Duboeuf F, Schott AM, Dargent-Molina P, Meunier PJ, Delmas PD.

Osteoporos Int. 2006 Feb;17(2):231-6. Epub 2005 Jun 28.

PMID:
15983728
9.

The effect of impact direction on the fracture load of osteoporotic proximal femurs.

Wakao N, Harada A, Matsui Y, Takemura M, Shimokata H, Mizuno M, Ito M, Matsuyama Y, Ishiguro N.

Med Eng Phys. 2009 Nov;31(9):1134-9. doi: 10.1016/j.medengphy.2009.07.010. Epub 2009 Aug 8.

PMID:
19665419
10.
11.

The fracture toughness of cancellous bone.

Cook RB, Zioupos P.

J Biomech. 2009 Sep 18;42(13):2054-60. doi: 10.1016/j.jbiomech.2009.06.001. Epub 2009 Jul 29. Erratum in: J Biomech. 2010 May 7;43(7):1441.

PMID:
19643417
12.
13.

Bone mineral density and singh index predict bone mechanical properties of human femur.

D'Amelio P, Rossi P, Isaia G, Lollino N, Castoldi F, Girardo M, Dettoni F, Sattin F, Delise M, Bignardi C.

Connect Tissue Res. 2008;49(2):99-104. doi: 10.1080/03008200801913940.

PMID:
18382896
14.

Bone strength at the distal radius can be estimated from high-resolution peripheral quantitative computed tomography and the finite element method.

Macneil JA, Boyd SK.

Bone. 2008 Jun;42(6):1203-13. doi: 10.1016/j.bone.2008.01.017. Epub 2008 Feb 13.

PMID:
18358799
15.

The dependence of the elastic properties of osteoporotic cancellous bone on volume fraction and fabric.

Homminga J, Mccreadie BR, Weinans H, Huiskes R.

J Biomech. 2003 Oct;36(10):1461-7.

PMID:
14499295
16.

Assessment of cancellous bone quality in severe osteoarthrosis: bone mineral density, mechanics, and microdamage.

Fazzalari NL, Forwood MR, Smith K, Manthey BA, Herreen P.

Bone. 1998 Apr;22(4):381-8.

PMID:
9556139
17.

Mechanical characterization in shear of human femoral cancellous bone: torsion and shear tests.

Bruyère Garnier K, Dumas R, Rumelhart C, Arlot ME.

Med Eng Phys. 1999 Nov;21(9):641-9.

PMID:
10699566
18.

A method for patient-specific evaluation of vertebral cancellous bone strength: in vitro validation.

Diamant I, Shahar R, Masharawi Y, Gefen A.

Clin Biomech (Bristol, Avon). 2007 Mar;22(3):282-91. Epub 2006 Nov 28.

PMID:
17134802
19.

Material properties of femoral cancellous bone in axial loading. Part I: Time independent properties.

Rohlmann A, Zilch H, Bergmann G, Kölbel R.

Arch Orthop Trauma Surg. 1980;97(2):95-102.

PMID:
7458606
20.

Critical evaluation of known bone material properties to realize anisotropic FE-simulation of the proximal femur.

Wirtz DC, Schiffers N, Pandorf T, Radermacher K, Weichert D, Forst R.

J Biomech. 2000 Oct;33(10):1325-30.

PMID:
10899344
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