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Items: 1 to 20 of 75

1.

In vivo MRI-based simulation of fatigue process: a possible trigger for human carotid atherosclerotic plaque rupture.

Huang Y, Teng Z, Sadat U, He J, Graves MJ, Gillard JH.

Biomed Eng Online. 2013 Apr 23;12:36. doi: 10.1186/1475-925X-12-36.

2.

Lumen irregularity dominates the relationship between mechanical stress condition, fibrous-cap thickness, and lumen curvature in carotid atherosclerotic plaque.

Teng Z, Sadat U, Ji G, Zhu C, Young VE, Graves MJ, Gillard JH.

J Biomech Eng. 2011 Mar;133(3):034501. doi: 10.1115/1.4003439.

PMID:
21303186
3.

Arterial luminal curvature and fibrous-cap thickness affect critical stress conditions within atherosclerotic plaque: an in vivo MRI-based 2D finite-element study.

Teng Z, Sadat U, Li Z, Huang X, Zhu C, Young VE, Graves MJ, Gillard JH.

Ann Biomed Eng. 2010 Oct;38(10):3096-101. doi: 10.1007/s10439-010-0078-3. Epub 2010 May 25.

PMID:
20499180
4.

In vivo quantitative measurement of intact fibrous cap and lipid-rich necrotic core size in atherosclerotic carotid plaque: comparison of high-resolution, contrast-enhanced magnetic resonance imaging and histology.

Cai J, Hatsukami TS, Ferguson MS, Kerwin WS, Saam T, Chu B, Takaya N, Polissar NL, Yuan C.

Circulation. 2005 Nov 29;112(22):3437-44. Epub 2005 Nov 21.

5.

Association between biomechanical structural stresses of atherosclerotic carotid plaques and subsequent ischaemic cerebrovascular events--a longitudinal in vivo magnetic resonance imaging-based finite element study.

Sadat U, Teng Z, Young VE, Walsh SR, Li ZY, Graves MJ, Varty K, Gillard JH.

Eur J Vasc Endovasc Surg. 2010 Oct;40(4):485-91. doi: 10.1016/j.ejvs.2010.07.015. Epub 2010 Aug 17.

6.

Sites of rupture in human atherosclerotic carotid plaques are associated with high structural stresses: an in vivo MRI-based 3D fluid-structure interaction study.

Tang D, Teng Z, Canton G, Yang C, Ferguson M, Huang X, Zheng J, Woodard PK, Yuan C.

Stroke. 2009 Oct;40(10):3258-63. doi: 10.1161/STROKEAHA.109.558676. Epub 2009 Jul 23.

7.

Patient-specific artery shrinkage and 3D zero-stress state in multi-component 3D FSI models for carotid atherosclerotic plaques based on in vivo MRI data.

Huang X, Yang C, Yuan C, Liu F, Canton G, Zheng J, Woodard PK, Sicard GA, Tang D.

Mol Cell Biomech. 2009 Jun;6(2):121-34.

8.

Magnetic Resonance Imaging-Based Assessment of Carotid Atheroma: a Comparative Study of Patients with and without Coronary Artery Disease.

Usman A, Sadat U, Teng Z, Graves MJ, Boyle JR, Varty K, Hayes PD, Gillard JH.

J Stroke Cerebrovasc Dis. 2017 Feb;26(2):347-351. doi: 10.1016/j.jstrokecerebrovasdis.2016.09.028. Epub 2016 Oct 17.

PMID:
27765555
9.

Carotid arterial plaque stress analysis using fluid-structure interactive simulation based on in-vivo magnetic resonance images of four patients.

Gao H, Long Q, Graves M, Gillard JH, Li ZY.

J Biomech. 2009 Jul 22;42(10):1416-23. doi: 10.1016/j.jbiomech.2009.04.010. Epub 2009 May 21.

PMID:
19464011
10.

Numerical simulations of carotid MRI quantify the accuracy in measuring atherosclerotic plaque components in vivo.

Nieuwstadt HA, Geraedts TR, Truijman MT, Kooi ME, van der Lugt A, van der Steen AF, Wentzel JJ, Breeuwer M, Gijsen FJ.

Magn Reson Med. 2014 Jul;72(1):188-201. doi: 10.1002/mrm.24905. Epub 2013 Aug 13.

PMID:
23943090
11.

Stress analysis of carotid plaque rupture based on in vivo high resolution MRI.

Li ZY, Howarth S, Trivedi RA, U-King-Im JM, Graves MJ, Brown A, Wang L, Gillard JH.

J Biomech. 2006;39(14):2611-22. Epub 2005 Oct 26.

PMID:
16256124
12.

Fatigue crack propagation analysis of plaque rupture.

Pei X, Wu B, Li ZY.

J Biomech Eng. 2013 Oct 1;135(10):101003-9. doi: 10.1115/1.4025106.

PMID:
23897295
13.

Local critical stress correlates better than global maximum stress with plaque morphological features linked to atherosclerotic plaque vulnerability: an in vivo multi-patient study.

Tang D, Teng Z, Canton G, Hatsukami TS, Dong L, Huang X, Yuan C.

Biomed Eng Online. 2009 Aug 3;8:15. doi: 10.1186/1475-925X-8-15.

14.

Multi-sequence in vivo MRI can quantify fibrous cap and lipid core components in human carotid atherosclerotic plaques.

Trivedi RA, U-King-Im J, Graves MJ, Horsley J, Goddard M, Kirkpatrick PJ, Gillard JH.

Eur J Vasc Endovasc Surg. 2004 Aug;28(2):207-13.

15.

High-resolution magnetic resonance imaging of carotid atherosclerosis identifies vulnerable carotid plaques.

Millon A, Mathevet JL, Boussel L, Faries PL, Fayad ZA, Douek PC, Feugier P.

J Vasc Surg. 2013 Apr;57(4):1046-1051.e2. doi: 10.1016/j.jvs.2012.10.088. Epub 2013 Feb 1.

16.

3D MRI-based multicomponent FSI models for atherosclerotic plaques.

Tang D, Yang C, Zheng J, Woodard PK, Sicard GA, Saffitz JE, Yuan C.

Ann Biomed Eng. 2004 Jul;32(7):947-60.

PMID:
15298432
17.

Distribution of wall shear stress in carotid plaques using magnetic resonance imaging and computational fluid dynamics analysis: a preliminary study.

Jing LN, Gao PY, Lin Y, Sui BB, Qin HQ, Ma L, Xue J.

Chin Med J (Engl). 2011 May;124(10):1465-9.

PMID:
21740799
18.

Stress analysis of carotid atheroma in transient ischemic attack patients: evidence for extreme stress-induced plaque rupture.

Gao H, Long Q, Das SK, Sadat U, Graves M, Gillard JH, Li ZY.

Ann Biomed Eng. 2011 Aug;39(8):2203-12. doi: 10.1007/s10439-011-0314-5. Epub 2011 May 5.

PMID:
21544675
19.

MRI-derived measurements of fibrous-cap and lipid-core thickness: the potential for identifying vulnerable carotid plaques in vivo.

Trivedi RA, U-King-Im JM, Graves MJ, Horsley J, Goddard M, Kirkpatrick PJ, Gillard JH.

Neuroradiology. 2004 Sep;46(9):738-43.

PMID:
15309350
20.

Carotid plaque high-resolution MRI at 3 T: evaluation of a new imaging score for symptomatic plaque assessment.

Gury-Paquet L, Millon A, Salami F, Cernicanu A, Scoazec JY, Douek P, Boussel L.

Magn Reson Imaging. 2012 Dec;30(10):1424-31. doi: 10.1016/j.mri.2012.04.024. Epub 2012 Jul 24.

PMID:
22835940

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