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Items: 1 to 20 of 99

1.

Microcracks in compact bone: a three-dimensional view.

Mohsin S, O'Brien FJ, Lee TC.

J Anat. 2006 Jul;209(1):119-24.

2.

Three-dimensional reconstruction of Haversian systems in ovine compact bone.

Mohsin S, Taylor D, Lee TC.

Eur J Morphol. 2002 Dec;40(5):309-15.

PMID:
15101447
3.

Visualisation of three-dimensional microcracks in compact bone.

O'Brien FJ, Taylor D, Dickson GR, Lee TC.

J Anat. 2000 Oct;197 Pt 3:413-20.

4.

Osteonal crack barriers in ovine compact bone.

Mohsin S, O'Brien FJ, Lee TC.

J Anat. 2006 Jan;208(1):81-9.

5.

Measuring the shape and size of microcracks in bone.

Taylor D, Lee TC.

J Biomech. 1998 Dec;31(12):1177-80.

PMID:
9882051
6.

New insights into the propagation of fatigue damage in cortical bone using confocal microscopy and chelating fluorochromes.

Zarrinkalam KH, Kuliwaba JS, Martin RB, Wallwork MA, Fazzalari NL.

Eur J Morphol. 2005 Feb-Apr;42(1-2):81-90.

PMID:
16123027
7.

The behaviour of microcracks in compact bone.

O'brien FJ, Hardiman DA, Hazenberg JG, Mercy MV, Mohsin S, Taylor D, Lee TC.

Eur J Morphol. 2005 Feb-Apr;42(1-2):71-9.

PMID:
16123026
8.

The behaviour of fatigue-induced microdamage in compact bone samples from control and ovariectomised sheep.

Kennedy OD, Brennan O, Mauer P, O'Brien FJ, Rackard SM, Taylor D, Lee TC.

Stud Health Technol Inform. 2008;133:148-55.

PMID:
18376023
9.

Synchrotron radiation micro-CT at the micrometer scale for the analysis of the three-dimensional morphology of microcracks in human trabecular bone.

Larrue A, Rattner A, Peter ZA, Olivier C, Laroche N, Vico L, Peyrin F.

PLoS One. 2011;6(7):e21297. doi: 10.1371/journal.pone.0021297. Epub 2011 Jul 7.

10.

Microcrack frequency and bone remodeling in postmenopausal osteoporotic women on long-term bisphosphonates: a bone biopsy study.

Chapurlat RD, Arlot M, Burt-Pichat B, Chavassieux P, Roux JP, Portero-Muzy N, Delmas PD.

J Bone Miner Res. 2007 Oct;22(10):1502-9. Erratum in: J Bone Miner Res. 2008 Jul;23(7):1153.

11.

Microcrack accumulation at different intervals during fatigue testing of compact bone.

O'Brien FJ, Taylor D, Lee TC.

J Biomech. 2003 Jul;36(7):973-80.

PMID:
12757806
12.
13.

The effects of increased intracortical remodeling on microcrack behaviour in compact bone.

Kennedy OD, Brennan O, Mauer P, Rackard SM, O'Brien FJ, Taylor D, Lee TC.

Bone. 2008 Nov;43(5):889-93. doi: 10.1016/j.bone.2008.07.235. Epub 2008 Jul 25.

PMID:
18706535
14.

Time-lapsed assessment of microcrack initiation and propagation in murine cortical bone at submicrometer resolution.

Voide R, Schneider P, Stauber M, Wyss P, Stampanoni M, Sennhauser U, van Lenthe GH, Müller R.

Bone. 2009 Aug;45(2):164-73. doi: 10.1016/j.bone.2009.04.248. Epub 2009 May 3.

PMID:
19410668
15.

Fluorescence-aided detection of microdamage in compact bone.

Lee TC, Myers ER, Hayes WC.

J Anat. 1998 Aug;193 ( Pt 2):179-84.

16.

The effect of bone microstructure on the initiation and growth of microcracks.

O'Brien FJ, Taylor D, Clive Lee T.

J Orthop Res. 2005 Mar;23(2):475-80.

17.

Trabecular bone failure at the microstructural level.

Müller R, van Lenthe GH.

Curr Osteoporos Rep. 2006 Jun;4(2):80-6. Review.

PMID:
16822408
18.

Three-dimensional confocal images of microdamage in cancellous bone.

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

Bone. 1998 Oct;23(4):373-8.

PMID:
9763150
19.

Effects of fatigue induced damage on the longitudinal fracture resistance of cortical bone.

Fletcher L, Codrington J, Parkinson I.

J Mater Sci Mater Med. 2014 Jul;25(7):1661-70. doi: 10.1007/s10856-014-5213-5. Epub 2014 Apr 9.

PMID:
24715332
20.

Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging.

Slyfield CR Jr, Niemeyer KE, Tkachenko EV, Tomlinson RE, Steyer GG, Patthanacharoenphon CG, Kazakia GJ, Wilson DL, Hernandez CJ.

J Microsc. 2009 Oct;236(1):52-9. doi: 10.1111/j.1365-2818.2009.03204.x.

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