Ashwin Nagaraj
Overview
Explore the profile of Ashwin Nagaraj including associated specialties, affiliations and a list of published articles.
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13
Citations
202
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Recent Articles
1.
Ortega N, Prakash A, Rafael M, Ashley W, Nagaraj A, McPherson D
Echocardiography
. 2006 May;
23(5):413-6.
PMID: 16686628
This case report describes the occurrence of multiple coronary artery fistulae emptying into the left ventricle and includes a small communication into the left atrium. The initial diagnosis of a...
2.
Koktzoglou I, Harris K, Tang R, Kane B, Misselwitz B, Weinmann H, et al.
Invest Radiol
. 2006 Feb;
41(3):299-304.
PMID: 16481913
Objective: The aim of this study was to determine whether gadofluorine, a paramagnetic magnetic resonance imaging (MRI) contrast agent, selectively enhances carotid atherosclerotic plaques in Yucatan miniswine. Methods: Atherosclerotic plaques...
3.
Hamilton A, Kim H, Nagaraj A, Mun J, Yan L, Roth S, et al.
J Biomech
. 2005 Oct;
38(12):2354-64.
PMID: 16214483
We have developed a novel methodology that permits assessment of regional vascular mechanical property alterations in the presence of atheroma in vivo employing a Yucatan miniswine model with induced lesions....
4.
Nagaraj A, Kim H, Hamilton A, Mun J, Smulevitz B, Kane B, et al.
Med Eng Phys
. 2005 Jan;
27(2):147-56.
PMID: 15642510
Objective: A novel methodology has been developed to evaluate regional alterations in arterial wall material properties with induced atheroma in an animal model. Methods: Atheromatous lesions (fatty, fibro-fatty, and fibrous)...
5.
Mutharasan R, Nagaraj A, Hamilton A, McPherson D, Bharati S
Pacing Clin Electrophysiol
. 2004 Jun;
27(6 Pt 1):740-8.
PMID: 15189528
The human atrioventricular conduction system (AVCS), which includes the AV node and its approaches, AV bundle (penetrating, branching, and bifurcating parts), and the bundle branches, is a curved complex structure...
6.
Liu Y, Hamilton A, Nagaraj A, Yan L, Liu K, Lai Y, et al.
Ann Biomed Eng
. 2004 May;
32(4):544-54.
PMID: 15117028
Although the relationship between the local wall shear stresses (WSS) and atheroma development has been previously studied, the effect of variable regional wall distensibility with early atherosclerotic lesions and its...
7.
Hamilton A, Huang S, Warnick D, Rabbat M, Kane B, Nagaraj A, et al.
J Am Coll Cardiol
. 2004 Mar;
43(3):453-60.
PMID: 15013130
Objectives: Our purpose was to quantitate and confirm specific echogenic immunoliposome (ELIP) atheroma component enhancement in vivo. Background: Targeted ELIPs for ultrasonic detection and staging of active molecular components of...
8.
Coussios C, Holland C, Jakubowska L, Huang S, MacDonald R, Nagaraj A, et al.
Ultrasound Med Biol
. 2004 Mar;
30(2):181-90.
PMID: 14998670
Liposomes are phospholipid vesicles that can encapsulate both gas and fluid. With antibody conjugation, new formulations, known as immunoliposomes, can be targeted to atheroma and other pathologic components and are,...
9.
Huang S, Hamilton A, Tiukinhoy S, Nagaraj A, Kane B, Klegerman M, et al.
Cell Mol Biol Lett
. 2002 Jul;
7(2):233-5.
PMID: 12097929
No abstract available.
10.
Hamilton A, Huang S, Warnick D, Stein A, Rabbat M, Madhav T, et al.
Circulation
. 2002 Jun;
105(23):2772-8.
PMID: 12057993
Background: Targeted echogenic immunoliposomes (ELIPs) for ultrasound enhancement of atheroma components have been developed. To date, ELIP delivery has been intra-arterial. To determine whether ELIPs can be given intravenously with...