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1 accurately and noninvasively with the use of electron beam computed tomography.
2 ocardiography, intravascular ultrasound, and electron beam computed tomography.
3 nd coronary artery calcium (CAC) measured by electron beam computed tomography.
4 d at baseline and at 3 years follow up using electron beam computed tomography.
5 Coronary atheroma was quantified by means of electron beam computed tomography.
6 CAC was quantified with electron beam computed tomography.
7 Calcification was measured with electron beam computed tomography.
8 red with pericardial thickness measured with electron beam computed tomography.
9 rial locations was detected noninvasively by electron beam computed tomography.
10 by coronary artery calcification (CAC) using electron-beam computed tomography.
11 onary artery calcification (CAC) assessed by electron-beam computed tomography.
12 CAC was assessed by electron-beam computed tomography.
13 al coronary artery disease was identified by electron-beam computed tomography.
14 prusside) were quantified in vivo in pigs by electron-beam computed tomography after a 12-week normal
15 nd quantity of CAC and AC were measured with electron beam computed tomography and fasting blood test
16 m (CAC) score >10 Agatston units measured by electron-beam computed tomography and detectable aortic
17 dvances in transesophageal echocardiography, electron beam computed tomography, and magnetic resonanc
18 dial perfusion were determined in vivo using electron beam computed tomography, and myocardial sample
19 phic imaging methods, including fluoroscopy, electron-beam computed tomography, and helical computed
20 end-diastolic and end-systolic volumes using electron-beam computed tomography as the reference stand
21 patients underwent coronary angiography and electron beam computed tomography at five different cent
22 s and function were quantified in vivo using electron-beam computed tomography at baseline and after
23 lar permeability were measured in vivo using electron beam computed tomography before and after cardi
25 al computed tomography and contrast-enhanced electron-beam computed tomography, but with present tech
29 thallium scintigraphy, echocardiography, and electron-beam computed tomography (CT) scanning of the c
33 odynamics and function were quantified using electron-beam-computed tomography (CT) in normocholester
36 he purpose of this study was to determine if electron beam computed tomography (EBCT) has potential a
37 cardiography was determined in comparison to electron beam computed tomography (EBCT) in 26 patients.
38 ints for coronary calcium scores measured by electron beam computed tomography (EBCT) in predicting t
40 dy was undertaken to evaluate the ability of electron beam computed tomography (EBCT) to distinguish
41 coronary artery calcium (CC) as detected by electron beam computed tomography (EBCT) with convention
42 compare the results and prognostic value of electron-beam computed tomography (EBCT) and exercise ec
43 nt coronary stenoses on a segmental basis by electron-beam computed tomography (EBCT) and intravenous
44 by quantification of coronary calcium using electron-beam computed tomography (EBCT) and to compare
49 ctors, quantified coronary calcium mass with electron-beam computed tomography (EBCT), and measured s
52 sured genes to CAC progression measured by 2 electron beam computed tomography examinations an averag
53 w bias between rapid 3D echocardiography and electron-beam computed tomography for measuring left ven
54 nical coronary heart disease were studied by electron-beam computed tomography for the extent of calc
56 Quantification of coronary calcification via electron beam computed tomography has shown promise as a
57 ness, coronary artery calcification score on electron-beam computed tomography, homocysteine, and lip
58 of coronary calcification detected by serial electron beam computed tomography imaging as an end-poin
59 etermined using coronary calcium measured by electron beam computed tomography in 1,289 men and women
60 res in 2000 to 2001, and CAC was measured by electron beam computed tomography in 2000 to 2001 and 20
61 netic influences on CAC quantity measured by electron beam computed tomography in 698 asymptomatic wh
62 g vasoactive challenge were quantified using electron-beam computed tomography in pigs after 12 wk of
67 coronary artery calcium score as measured by electron-beam computed tomography, lipoprotein(a) level,
68 ndividuals and include exercise ECG testing, electron beam computed tomography, magnetic resonance co
71 identified 65 patients who had undergone two electron-beam computed tomography scans at a mean (SD) i
72 those, 98 patients underwent a total of 248 electron beam computed tomography studies at 0.5, 1, 1.5
73 have recently documented the feasibility of electron beam computed tomography to detect and quantify
74 power of coronary calcification detected by electron beam computed tomography to predict coronary he
75 tudy, 13 of these 65 patients also underwent electron-beam computed tomography to assess coronary art
78 coronary artery calcification determined by electron beam computed tomography was assessed in models
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