Abstract

Atherosclerotic lesions in the cardiovascular system range widely in severity from the limited fatty streak to the extensive complicated plaque. Between these two extremes are lesions that are especially vulnerable to disruption at their surface, often leading to thrombosis and vessel occlusion. The non-invasive detection of these lesions in vivo would provide valuable information for guiding appropriate medical and surgical intervention, as well as monitoring drug therapy over time. This project involves integrated studies on atherosclerotic lesions in human carotid arteries, vessels that afford several important experimental advantages, including availability of surgical tissue (number and mass) and relative ease of imaging in vivo. A primary objective of this project is to develop and refine in vivo MRI to a state where it can accurately quantify physical dimensions of carotid atherosclerotic lesions (e.g. residual lumen area, wall thickness, plaque area) at specific sites throughout the vessel. A secondary objective is to develop in vivo MRI to a level where it can detect, discriminate among and possibly quantify specific chemical components of lesions (e.g. calcified, lipid-rich, fibrotic, necrotic and thrombotic areas). These objectives will be pursued through three specific aims:
AIM 1 is to differentiate and estimate the major components of carotid lesions based on their MR images acquired in vivo and ex vivo. Their unique combinations of T1, T2, and proton density will be identified and measured using 3D contour plots, parametric imaging, and feature space analysis.
AIM 2 will be to quantify carotid lesion components by histologic and morphometric methods, using conventional and microarray tissue techniques, and to use these measures to calibrate corresponding MR images.
AIM 3 is to use non-invasive in vivo MRI to monitor the effect of statin therapy on carotid atherosclerotic lesion characteristics in patients with greater than 40 percent stenosis. Data from all slices will be used to generate arterial profiles showing the volume, radial position, and linear location of the plaque. Successful execution of this project should provide valuable non-invasive technology for monitoring the efficacy of medical intervention on atherosclerotic lesions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL063090-02
Application #
6609677
Study Section
Biophysical Chemistry Study Section (BBCB)
Program Officer
Wassef, Momtaz K
Project Start
2002-07-08
Project End
2006-06-30
Budget Start
2003-07-01
Budget End
2004-06-30
Support Year
2
Fiscal Year
2003
Total Cost
$323,402
Indirect Cost

  Institution

Name
Baylor College of Medicine
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
051113330
City
Houston
State
TX
Country
United States
Zip Code
77030

  Publications

Han, Richard I; Wheeler, Thomas M; Lumsden, Alan B et al. (2016) Morphometric analysis of calcification and fibrous layer thickness in carotid endarterectomy tissues. Comput Biol Med 70:210-219
Kamran, Hassan; Nambi, Vijay; Negi, Smita et al. (2016) Magnetic Resonance Venous Volume Measurements in Peripheral Artery Disease (from ELIMIT). Am J Cardiol 118:1399-1404
Cordero-Reyes, Andrea M; Youker, Keith A; Trevino, Alejandro R et al. (2016) Full Expression of Cardiomyopathy Is Partly Dependent on B-Cells: A Pathway That Involves Cytokine Activation, Immunoglobulin Deposition, and Activation of Apoptosis. J Am Heart Assoc 5:
Higgins, Catherine L; Isbilir, Salim; Basto, Pamela et al. (2015) Distribution of alkaline phosphatase, osteopontin, RANK ligand and osteoprotegerin in calcified human carotid atheroma. Protein J 34:315-28
Ababneh, Bashar; Rejjal, Loui; Pokharel, Yashashwi et al. (2014) Distribution of calcification in carotid endarterectomy tissues: comparison of micro-computed tomography imaging with histology. Vasc Med 19:343-50
Slovut, David P; Kargoli, Faraj; Fletcher, Jason J et al. (2014) Quality of care among patients undergoing lower extremity revascularization. Vasc Med 19:368-75
Brunner, Gerd; Yang, Eric Y; Kumar, Anirudh et al. (2013) The Effect of Lipid Modification on Peripheral Artery Disease after Endovascular Intervention Trial (ELIMIT). Atherosclerosis 231:371-7
Castro-Chavez, Fernando; Vickers, Kasey C; Lee, Jae Sam et al. (2013) Effect of lyso-phosphatidylcholine and Schnurri-3 on osteogenic transdifferentiation of vascular smooth muscle cells to calcifying vascular cells in 3D culture. Biochim Biophys Acta 1830:3828-34
Lee, Jae Sam; Morrisett, Joel D; Tung, Ching-Hsuan (2012) Detection of hydroxyapatite in calcified cardiovascular tissues. Atherosclerosis 224:340-7
Castro-Chavez, Fernando (2012) Escaping the cut by restriction enzymes through single-strand self-annealing of host-edited 12-bp and longer synthetic palindromes. DNA Cell Biol 31:151-63

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