Effects of Prolonged Intensive Lipid-Lowering Therapy on the Characteristics of Carotid Atherosclerotic Plaques In Vivo by MRI: A Case-Control Study

doi:10.1161/hq1001.098463

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Arteriosclerosis, Thrombosis, and Vascular Biology. 2001;21:1623-1629
doi: 10.1161/hq1001.098463

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(Arteriosclerosis, Thrombosis, and Vascular Biology. 2001;21:1623.)
© 2001 American Heart Association, Inc.

Atherosclerosis and Lipoproteins

Effects of Prolonged Intensive Lipid-Lowering Therapy on the Characteristics of Carotid Atherosclerotic Plaques In Vivo by MRI

A Case-Control Study

Xue-Qiao Zhao; Chun Yuan; Thomas S. Hatsukami; Ellen Huss Frechette; Xiao-Jian Kang; Kenneth R. Maravilla; B. Greg Brown

From the Division of Cardiology, Department of Medicine (X.-Q.Z., E.H.F., B.G.B.), the Diagnostic Imaging Sciences Center, Department of Radiology (C.Y., X.-J.K., K.R.M.), and the Division of Vascular Surgery, Department of Surgery (T.S.H.), University of Washington, Seattle.

Correspondence to Xue-Qiao Zhao, MD, University of Washington, Cardiology, Box 358771, 1914 N 34th St, Suite 105, Seattle, WA 98103. E-mail xueqiao{at}u.washington.edu

Abstract—— High-resolution magnetic resonance imaging(MRI) with flow suppression not only provides useful informationon luminal and wall areas of the carotid artery but also canidentify the principal tissue components of the carotid atheroscleroticplaque. The effects of intensive lipid-lowering therapy on theseMRI tissue characteristics were examined in patients with coronarydisease (CAD). Eight CAD patients who have been receiving intensivelipid-lowering treatment (niacin 2.5 g/d, lovastatin 40 mg/d,and colestipol 20 g/d) for 10 years in the Familial AtherosclerosisTreatment Study (FATS) follow-up were randomly selected fromamong 60 such treated patients. Eight CAD patients who werematched to the treated patients for age (±3 years), baselinelow density lipoprotein (±5 mg/dL), and triglycerides(±50 mg/dL) but who had never been treated with lipid-loweringdrugs were selected as controls. For each of these 32 carotidarteries, luminal and plaque areas were measured by planimetry,in a blinded protocol, from the magnetic resonance image thatshowed most plaque. Fibrous tissue, calcium, and lipid depositswere identified on the basis of established criteria. Plaquecomposition was estimated as a fraction of total planimeteredarea. Patients treated with 10-year intensive lipid-loweringtherapy, compared with control subjects, had significantly lowerlow density lipoprotein cholesterol levels (84 versus 158 mg/dL,respectively; P<0.001) and higher high density lipoproteincholesterol levels (51 versus 37 mg/dL, respectively; P<0.001).As a group, treated patients, compared with untreated controlsubjects, had a smaller core lipid area (0.7 versus 10.2 mm²,respectively; P=0.01) and lipid composition (1% versus 17%,respectively). Group differences in luminal area (55 [treated]versus 44 [control] mm², P=NS) and plaque area (58 [treated]versus 64 [control] mm², P=NS) tended to favor treatment. MRIappears useful for estimating carotid plaque size and composition.Hyperlipidemic CAD patients frequently (97%) have at least moderate( $>=$ 40% area stenosis) carotid plaque. In this case-control study,prolonged intensive lipid-lowering therapy is associated witha markedly decreased lipid content, a characteristic of clinicallystable plaques.

Key Words: MRI • atherosclerotic plaque • lipid-lowering therapy

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				J. D. Morrisett and K. C. Vickers Vascular Calcification in Homozygote Familial Hypercholesterolemia Arterioscler Thromb Vasc Biol, April 1, 2008; 28(4): 606 - 607. [Full Text] [PDF]

				B. A. Wasserman, A. R. Sharrett, S. Lai, A. S. Gomes, M. Cushman, A. R. Folsom, D. E. Bild, R. A. Kronmal, S. Sinha, and D. A. Bluemke Risk Factor Associations With the Presence of a Lipid Core in Carotid Plaque of Asymptomatic Individuals Using High-Resolution MRI: The Multi-Ethnic Study of Atherosclerosis (MESA) Stroke, February 1, 2008; 39(2): 329 - 335. [Abstract] [Full Text] [PDF]

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				B. S. Pessanha, K. Potter, F. D. Kolodgie, A. Farb, R. Kutys, E. K. Mont, A. P. Burke, T. J. O'Leary, and R. Virmani Characterization of Intimal Changes in Coronary Artery Specimens with MR Microscopy Radiology, October 1, 2006; 241(1): 107 - 115. [Abstract] [Full Text] [PDF]

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				Y. Momiyama, R. Kato, Z. A. Fayad, N. Tanaka, H. Taniguchi, R. Ohmori, T. Kihara, A. Kameyama, K. Miyazaki, K. Kimura, et al. A Possible Association Between Coronary Plaque Instability and Complex Plaques in Abdominal Aorta Arterioscler Thromb Vasc Biol, April 1, 2006; 26(4): 903 - 909. [Abstract] [Full Text] [PDF]

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				V. Fuster, Z. A. Fayad, P. R. Moreno, M. Poon, R. Corti, and J. J. Badimon Atherothrombosis and High-Risk Plaque: Part II: Approaches by Noninvasive Computed Tomographic/Magnetic Resonance Imaging J. Am. Coll. Cardiol., October 4, 2005; 46(7): 1209 - 1218. [Abstract] [Full Text] [PDF]

				C. L. Higgins, S. A. Marvel, and J. D. Morrisett Quantification of Calcification in Atherosclerotic Lesions Arterioscler Thromb Vasc Biol, August 1, 2005; 25(8): 1567 - 1576. [Abstract] [Full Text] [PDF]

				R. Corti, V. Fuster, Z. A. Fayad, S. G. Worthley, G. Helft, W. F. Chaplin, J. Muntwyler, J. F. Viles-Gonzalez, J. Weinberger, D. A. Smith, et al. Effects of Aggressive Versus Conventional Lipid-Lowering Therapy by Simvastatin on Human Atherosclerotic Lesions: A Prospective, Randomized, Double-Blind Trial With High-Resolution Magnetic Resonance Imaging J. Am. Coll. Cardiol., July 5, 2005; 46(1): 106 - 112. [Abstract] [Full Text] [PDF]

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				J. J. Wentzel, R. Corti, Z. A. Fayad, P. Wisdom, F. Macaluso, M. O. Winkelman, V. Fuster, and J. J. Badimon Does shear stress modulate both plaque progression and regression in the thoracic aorta?: Human study using serial magnetic resonance imaging J. Am. Coll. Cardiol., March 15, 2005; 45(6): 846 - 854. [Abstract] [Full Text] [PDF]

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