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Items: 1 to 20 of 135

1.
2.

Multiscale Predictors of Femoral Neck In Situ Strength in Aging Women: Contributions of BMD, Cortical Porosity, Reference Point Indentation, and Nonenzymatic Glycation.

Abraham AC, Agarwalla A, Yadavalli A, McAndrew C, Liu JY, Tang SY.

J Bone Miner Res. 2015 Dec;30(12):2207-14. doi: 10.1002/jbmr.2568. Epub 2015 Jul 14.

3.

Use of FTIR spectroscopic imaging to identify parameters associated with fragility fracture.

Gourion-Arsiquaud S, Faibish D, Myers E, Spevak L, Compston J, Hodsman A, Shane E, Recker RR, Boskey ER, Boskey AL.

J Bone Miner Res. 2009 Sep;24(9):1565-71. doi: 10.1359/jbmr.090414.

4.

Reduced cortical bone compositional heterogeneity with bisphosphonate treatment in postmenopausal women with intertrochanteric and subtrochanteric fractures.

Donnelly E, Meredith DS, Nguyen JT, Gladnick BP, Rebolledo BJ, Shaffer AD, Lorich DG, Lane JM, Boskey AL.

J Bone Miner Res. 2012 Mar;27(3):672-8. doi: 10.1002/jbmr.560.

5.

Proximal femoral density and geometry measurements by quantitative computed tomography: association with hip fracture.

Cheng X, Li J, Lu Y, Keyak J, Lang T.

Bone. 2007 Jan;40(1):169-74. Epub 2006 Jul 28.

PMID:
16876496
6.

Nano-structural, compositional and micro-architectural signs of cortical bone fragility at the superolateral femoral neck in elderly hip fracture patients vs. healthy aged controls.

Milovanovic P, Rakocevic Z, Djonic D, Zivkovic V, Hahn M, Nikolic S, Amling M, Busse B, Djuric M.

Exp Gerontol. 2014 Jul;55:19-28. doi: 10.1016/j.exger.2014.03.001. Epub 2014 Mar 12.

PMID:
24614625
7.

Femoral neck trabecular bone: loss with aging and role in preventing fracture.

Thomas CD, Mayhew PM, Power J, Poole KE, Loveridge N, Clement JG, Burgoyne CJ, Reeve J.

J Bone Miner Res. 2009 Nov;24(11):1808-18. doi: 10.1359/jbmr.090504.

8.

Different morphometric and densitometric parameters predict cervical and trochanteric hip fracture: the EPIDOS Study.

Duboeuf F, Hans D, Schott AM, Kotzki PO, Favier F, Marcelli C, Meunier PJ, Delmas PD.

J Bone Miner Res. 1997 Nov;12(11):1895-902.

9.

Examining the Relationships Between Bone Tissue Composition, Compositional Heterogeneity, and Fragility Fracture: A Matched Case-Controlled FTIRI Study.

Boskey AL, Donnelly E, Boskey E, Spevak L, Ma Y, Zhang W, Lappe J, Recker RR.

J Bone Miner Res. 2016 May;31(5):1070-81. doi: 10.1002/jbmr.2759. Epub 2015 Dec 24.

10.

Evidence of altered matrix composition in iliac crest biopsies from patients with idiopathic juvenile osteoporosis.

Garcia I, Chiodo V, Ma Y, Boskey A.

Connect Tissue Res. 2016;57(1):28-37. doi: 10.3109/03008207.2015.1088531. Epub 2015 Nov 5.

11.

Altered distributions of bone tissue mineral and collagen properties in women with fragility fractures.

Wang ZX, Lloyd AA, Burket JC, Gourion-Arsiquaud S, Donnelly E.

Bone. 2016 Mar;84:237-44. doi: 10.1016/j.bone.2016.01.012. Epub 2016 Jan 15.

PMID:
26780445
12.

Fourier transform infrared imaging microspectroscopy and tissue-level mechanical testing reveal intraspecies variation in mouse bone mineral and matrix composition.

Courtland HW, Nasser P, Goldstone AB, Spevak L, Boskey AL, Jepsen KJ.

Calcif Tissue Int. 2008 Nov;83(5):342-53. doi: 10.1007/s00223-008-9176-8. Epub 2008 Oct 15.

13.

Age trends for hip geometry in Chinese men and women and the association with femoral neck fracture.

Zhang H, Hu YQ, Zhang ZL.

Osteoporos Int. 2011 Sep;22(9):2513-22. doi: 10.1007/s00198-010-1479-8. Epub 2011 Jan 6.

PMID:
21210083
14.

Osteopontin deficiency increases mineral content and mineral crystallinity in mouse bone.

Boskey AL, Spevak L, Paschalis E, Doty SB, McKee MD.

Calcif Tissue Int. 2002 Aug;71(2):145-54. Epub 2002 Jun 20.

PMID:
12073157
15.

Fourier transform infrared imaging of bone.

Paschalis EP.

Methods Mol Biol. 2012;816:517-25. doi: 10.1007/978-1-61779-415-5_31.

PMID:
22130948
16.

Fourier Transform Infrared Spectroscopic Imaging of Fracture Healing in the Normal Mouse.

Gollwitzer H, Yang X, Spevak L, Lukashova L, Nocon A, Fields K, Pleshko N, Courtland HW, Bostrom MP, Boskey AL.

J Spectrosc (Hindawi). 2015 Jan 1;2015. pii: 659473.

17.

Femoral neck BMD is a strong predictor of hip fracture susceptibility in elderly men and women because it detects cortical bone instability: the Rotterdam Study.

Rivadeneira F, Zillikens MC, De Laet CE, Hofman A, Uitterlinden AG, Beck TJ, Pols HA.

J Bone Miner Res. 2007 Nov;22(11):1781-90.

18.

Overexpression of IGF-binding protein 5 alters mineral and matrix properties in mouse femora: an infrared imaging study.

Atti E, Boskey AL, Canalis E.

Calcif Tissue Int. 2005 Mar;76(3):187-93. Epub 2004 Nov 18.

PMID:
15570402
19.

In vivo discrimination of hip fracture with quantitative computed tomography: results from the prospective European Femur Fracture Study (EFFECT).

Bousson VD, Adams J, Engelke K, Aout M, Cohen-Solal M, Bergot C, Haguenauer D, Goldberg D, Champion K, Aksouh R, Vicaut E, Laredo JD.

J Bone Miner Res. 2011 Apr;26(4):881-93. doi: 10.1002/jbmr.270.

20.

BMD T-score discriminates trochanteric fractures from unfractured controls, whereas geometry discriminates cervical fracture cases from unfractured controls of similar BMD.

Pulkkinen P, Partanen J, Jalovaara P, Jämsä T.

Osteoporos Int. 2010 Jul;21(7):1269-76. doi: 10.1007/s00198-009-1070-3. Epub 2009 Sep 26.

PMID:
19784537

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