ECG-Gated 16-MDCT of the Coronary Arteries: Assessment of Image Quality and Accuracy in Detecting Stenoses
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1 ECG-Gated 16-MDCT of the Coronary Arteries ECG-Gated 16-MDCT of the Coronary Arteries: Assessment of Image Quality and Accuracy in Detecting Stenoses Martin Heuschmid 1 Axel Kuettner 1 Stephen Schroeder 2 Tobias Trabold 1 Anja Feyer 1 Marcus D. Seemann 1 Ronald Kuzo 3 Claus D. Claussen 1 Andreas F. Kopp 1 Heuschmid M, Kuettner A, Schroeder S, et al. OBJECTIVE. The aim of this study was to investigate image quality and diagnostic accuracy in detecting coronary artery lesions using a 16-MDCT scanner. MATERIALS AND METHODS. Thirty-seven patients (28 men, nine women) underwent unenhanced helical CT and MDCT angiography of the coronary arteries. After patients received oral β-blocker medication, CT scans were obtained during a single breath-hold with a 16-MDCT scanner using ECG-gating (0.75-mm collimation, 2.8-mm table feed/rotation, 0.42-sec rotation time). The image quality was assessed in terms of artifacts and segment visibility by two reviewers. Stenosis severity was compared with the results of conventional invasive coronary angiography. RESULTS. The data evaluation of the image quality was based on a total of 488 segments, of which 380 segments were considered to have diagnostic image quality. One hundred eight segments (22.1%) could not be sufficiently evaluated because of severe calcifications (35 segments) and motion artifacts (73 segments). The mean calcium score (Agatston score equivalent [ASE]) was ± Twenty-eight (75.7%) of the 37 patients had an ASE of less than 1,000 (mean ASE, 90.8 ± [SD]), and nine (24.3%) patients had an ASE of 1,000 or greater (mean ASE, 1,761.0 ± 637.6). For detecting lesions 50% or greater (without any exclusion criteria), the overall sensitivity, specificity, positive predictive value, and negative predictive value were 59%, 87%, 61%, and 87%, respectively. When limiting the number of patients to those with a calcium score of less than 1,000 ASE, the threshold-corrected sensitivity for lesions 50% or greater was 93%; specificity, 94%; positive predictive value, 68%; and negative predictive value, 99%. CONCLUSION. In patients with no or moderate coronary calcification, MDCT of coronary arteries using 16-MDCT technology allows the reliable detection of coronary artery stenoses with high diagnostic accuracy. Obtaining an initial unenhanced scan was found to be mandatory to avoid performing useless examinations in patients with severe calcifications. Received March 21, 2004; accepted after revision September 9, Department of Diagnostic Radiology, Eberhard-Karls- University Tuebingen, Hoppe-Seyler-Strasse 3, Tuebingen 72076, Germany. Address correspondence to M. Heuschmid (martin.heuschmid@med.uni-tuebingen.de). 2 Department of Cardiology, University Hospital, Tuebingen, Germany. 3 Department of Radiology, Mayo Clinic, Jacksonville, FL. AJR 2005;184: X/05/ American Roentgen Ray Society n the past years, technical innovations in CT have opened the field of I noninvasive coronary imaging [1]. Promising clinical results have been published using 4-MDCT systems with 0.5-sec gantry rotation and retrospective ECG-gating [2]. Despite technical advances, some challenges and limitations remained for 4-MDCT of the heart. Coronary calcifications and motion artifacts, particularly in patients with higher heart rates, were major causes of impaired image quality and image interpretation [3 5]. With the new generation of MDCT systems offering simultaneous acquisition of up to 16- submillimeter slices and gantry rotation times of 420 msec, both spatial and temporal resolution can be improved further, and examination times are now considerably reduced [6]. According to the initial clinical results showing improved image quality, new 16-MDCT technology might have the potential to overcome the limitations of 4-MDCT systems [7 11]. The aim of our study was to investigate image quality and diagnostic accuracy in detecting coronary artery lesions using a 16-MDCT scanner. Materials and Methods Patients Thirty-seven patients (28 men, nine women; mean age, 56.0 ± 14.1 [SD] years; mean body mass index, 28.1 ± 3.4 [SD] kg/m 2 ). They were recruited from inpatients scheduled for invasive conventional coronary angiography because of suspected coronary artery disease or suspected progression of known coronary artery disease. Exclusion criteria were irregular heart rate, unstable angina, contraindications for β-blocker administration, elevated se- AJR:184, May
2 TABLE 1 Patient Characteristics and Cardiovascular Risk Factors Characteristics and Risk Factors Value (SD) Patient characteristic Mean age (yr) 56.0 (14.1) Mean body mass index (kg/m ² ) 28.1 (3.4) Male sex (%) 76 Risk factor Hyperlipidemia (%) 64 Hypertension (%) 60 Smoking (%) 56 Diabetes (%) 14 Family history (%) 12 rum creatinine levels of more than 1.5 mg/dl, pregnancy, thyroid disease, previous allergic reactions to iodinated contrast agents, or implanted coronary stents. All patients received an oral β-blocker medication ( mg metoprolol tartrate [Lopresor, Novartis]) min before the CT examination. The local ethics committee approved the study protocol, and all patients gave informed consent. MDCT Examination All CT examinations were performed with a 16- MDCT scanner (Sensation 16, Siemens Medical Solutions) with patients in the supine position. In all patients, an unenhanced scan was obtained to determine the total calcium burden of the coronary arteries (1.5-mm collimation, maximum of 133 mas [modulated dose reduction] at 120-kV tube TABLE 2 voltage). For MDCT angiography, the individual circulation time was determined in the lumen of the ascending aorta using a test bolus of 20 ml of IVadministered contrast medium (400 mg I/mL iomeprol [Imeron 400, Altana]) at a flow rate of 4 ml/ sec and a chaser bolus of 20 ml of normal saline. For MDCT angiography, the following scanning protocol was used: mm collimation (cardiac mode), 2.8-mm table feed/rotation, 420-msec gantry rotation time, and 120-kV tube voltage. The tube current was ECG-controlled, modulated, and reduced during the systolic phases, while maintained at 500 mas during the diastolic phase centered around 60% of the cardiac cycle (when best image quality is required). Eighty milliliters of contrast medium (Imeron 400) was injected IV in two phases: 50 ml was injected at a flow rate of 4 ml/ sec and 30 ml was injected at a flow rate of 2.5 ml/ sec. In patients with coronary bypass grafts, 100 ml of contrast medium was administered: 50 ml was injected at a flow rate of 4 ml/sec and 50 ml was injected at a flow rate of 2.5 ml/sec. In all patients, the standard built-in reconstruction algorithm was used for image reconstruction. For all unenhanced images, the standard reconstruction window was set at 60% of the R-R interval. For the contrast-enhanced scan, the reconstruction interval with the fewest motion artifacts was determined by reconstructing a slice at the level of the middle of the left ventricle in 2% steps from 35% to 75% of the R- R interval. The time point with the least motion artifact in the right and left coronary arteries was used to reconstruct the CT angiography images for diagnostic interpretation. In cases with different optimal time points for the right and left coronary arteries, two different image sets were reconstructed for the whole examination. The effective slice thickness of CT angiography images was 1 mm using a reconstruction increment of 0.5 mm. Calcium Burden and Image Quality of 16-MDCT of Coronary Arteries Calcium Burden and Image Quality Value Calcium burden (mean ± SD) ASE (n = 37 patients) ± (80.9 ± mg of calcium hydroxyapatite) ASE < 1,000 (n = 28 patients) 90.8 ± (16.4 ± 26.1 mg of calcium hydroxyapatite) ASE 1,000 (n = 9 patients) ± (318.8 ± mg of calcium hydroxyapatite) Image quality for no. (%) of segments (n = 488) Excellent (score, 1) 127 (26.0) Good (score, 2) 130 (26.6) Diagnostic (score, 3) 123 (25.2) Limited by heavy calcifications (score, 4) 35 (7.2) Limited by motion artifacts (score, 5) 73 (15.0) Note. ASE = Agatston score equivalent. On an offline workstation (Leonardo, Siemens Medical Solutions), vessel wall calcifications were assessed visually and determined quantitatively on the basis of a standard built-in algorithm. For MDCT, the adapted Agatston score equivalent (ASE) and the total calcium mass in milligrams of calcium hydroxyapatite were measured. Two experienced reviewers who were not aware of clinical information or the coronary angiographic findings evaluated all MDCT images jointly. In addition to the original 1-mm axial slices, sliding thinslab maximum-intensity-projection [12] and other postprocessing techniques, such as multiplanar reconstruction and 3D volume rendering, were used, depending on the individual case. Image quality was graded in terms of artifacts and visibility as follows: 1, excellent; 2, good; 3, diagnostic; 4, diagnostically limited due to heavy calcifications; and 5, diagnostically limited due to motion artifacts. Only lesions with a diameter reduction of 50% or greater were included in the analysis. All coronary vessel segments were documented separately using a modified American Heart Association classification system (right coronary artery: 1 = proximal, 2 = middle, 3 = distal, and 4 = combined posterior descending and posterolateral branches; 5 = left mainstem artery; left anterior descending artery: 6 = proximal, 7 = middle, 8 = distal, 9 = first diagonal, 10 = second diagonal; left circumflex artery: 11 = proximal, 12 = distal, 13 = first marginal branch) [13]. Quantitative Coronary Angiography Conventional invasive coronary angiograms were obtained within 1 5 days after MDCT examination using 4-French catheters. All angiograms were evaluated by quantitative coronary analysis with automated vessel contour detection by an independent, experienced interventional cardiologist. The angiography catheter was used for calibration for the quantitative coronary analysis. Lesions with a diameter reduction of 50% or more were considered to be significant lesions. All coronary vessel segments were included in the statistical analysis. Coronary angiography was considered as the reference standard for detection of relevant vascular stenoses. In coronary segments with more than one lesion, the lesion with the most severe diameter reduction determined the diagnostic accuracy. Results Patient characteristics and cardiovascular risk factors are provided in Table 1. MDCT and conventional invasive coronary angiography were performed without any complications in all 37 patients. After β-blocker was administered, the mean heart rate was 64.5 ± 13.3 (SD) beats per minute (bpm). The total calcium burden of the coronary arteries was determined in all patients. The mean calcium score (ASE) was ± AJR:184, May 2005
3 ECG-Gated 16-MDCT of the Coronary Arteries (SD), and the mean calcium mass was 80.9 ± (SD) mg calcium hydroxyapatite. We divided all patients into two groups according to their ASE (ASE < 1,000 vs ASE 1,000): 28 (75.7%) of the 37 patients had an ASE of less than 1,000 (mean ASE, 90.8 ± 152.3; mean calcium mass, 16.4 ± 26.1 mg calcium hydroxyapatite), whereas nine (24.3%) of the 37 patients had an ASE of 1,000 or greater (mean ASE, 1,761.0 ± 637.6; mean calcium mass, ± mg calcium hydroxyapatite) (Table 2). The analysis of image quality was based on a total of 488 vessel segments (481 segments of the coronary tree and seven bypasses). In summary, images of 77.9% (380 segments) of the segments were of acceptable quality, whereas the vessel lumen of the coronary segments could not be assessed sufficiently on images of 22.1% (108 segments) (Table 2). Image quality was graded as excellent for 127 coronary segments and as good for 130 coronary segments. Images of 123 segments were considered to be of diagnostic quality. The imaging assessment of 35 segments was not possible because of severe calcifications. Furthermore, motion artifacts affected the diagnostic evaluation of 73 segments. Fifty-two (71.2%) of the 73 segments affected by motion artifacts were distal segments or side branches A Fig year-old man with coronary artery disease (body mass index, 33.6). Heart rate was 60 beats per minute, and Agatston score equivalent was (calcium mass, 43.4 mg of calcium hydroxyapatite). A and B, Maximum-intensity-projection image of MDCT reconstruction displays complete occlusion of left circumflex artery (arrow, A) and 30% stenosis (arrow, B) of proximal left anterior descending coronary artery. C, Invasive coronary angiogram confirms occlusion of left circumflex artery (arrows), as shown on MDCT. B C AJR:184, May
4 A B C D Fig year-old man with single-vessel coronary artery disease. Calcified plaque of proximal left anterior descending coronary artery (Agatston score equivalent, 160.7; calcium mass, 39.2 mg of calcium hydroxyapatite). A and B, Maximum-intensity-projection images of MDCT angiography reconstruction show occlusion of left anterior descending coronary artery after small first diagonal branch (arrows). C, Vascular stenosis of end branches of right coronary artery can be excluded on the basis of this volume-rendered display. D, Conventional angiogram confirms occlusion of left anterior descending coronary artery (arrow) AJR:184, May 2005
5 ECG-Gated 16-MDCT of the Coronary Arteries (segment 4, n = 16; 8, n = 1; 9, n = 6; 10, n = 10; 12, n = 9; 13, n = 10). When the distal segments and side branches (segments 4, 9, 10, 12, and 13) are excluded from the analysis, the percentage of segments for which the image quality is acceptable rises from 77.9% (380/ 488 segments) to 85.1% (258/303 segments). Thirty-seven lesions with a diameter reduction of 50% or greater were found on conventional invasive coronary angiography (Figs. 1 and 2). MDCT correctly detected 22 of the 37 lesions with a diameter reduction of 50% or greater. Fifteen lesions were missed or overlooked or incorrectly estimated on MDCT because of insufficient image quality caused by calcifications and motion artifacts. Fourteen lesions with a stenosis that was 50% of the diameter or greater were detected on MDCT only (right coronary artery, n = 3; left mainstem, n = 1; left anterior descending, n = 5; left circumflex, n = 5). These lesions were not confirmed by conventional coronary angiography and were thus considered as falsepositives. The overall sensitivity was 59%; specificity, 87%; the positive predictive value, 61%; and the negative predictive value, 87%. Nine of the 37 patients had severe calcifications with an ASE of 1,000 or greater. When the 28 patients with an ASE threshold of less than 1,000 (n = 28) were evaluated separately, a total of 14 lesions with a diameter reduction of 50% or greater were detected using conventional coronary angiography (right coronary artery, n = 6; left mainstem, n = 0; left anterior descending, n = 6; left circumflex, n = 2). MDCT angiography correctly assessed 13 of the 14 lesions with a diameter reduction of 50% or greater. One lesion was missed in a side branch (segment 9) of the left anterior descending artery. Six lesions with a diameter reduction of 50% or greater (right coronary artery, n = 1; left mainstem, n = 0; left anterior descending, n = 3; left circumflex, n = 2) were overestimated by the MDCT angiography investigators and were counted as false-positive findings. Sensitivity for the detection of lesions in this subgroup was 93%; specificity, 94%; positive predictive value, 68%; and negative predictive value, 99% (Table 3). In 36 (97.3%) of the 37 patient studies, the correct clinical diagnosis (at least one lesion 50%) was correctly determined using 16- MDCT. In one patient with severe calcifications, a vascular stenosis with diameter reduction of 50% or greater was not sufficiently shown. In one patient, MDCT overestimated TABLE 3 Accuracy of 16-MDCT Angiography in Detecting Lesion with 50% or Greater Reduction in Diameter of Coronary Arteries Statistical Measure a left main stenosis that could not be confirmed by coronary angiography. Discussion Noninvasive techniques for the detection of coronary artery stenoses, such as electron beam CT and MRI, have recently emerged [14 19]. Visualization of the coronary arteries using 4-MDCT is limited because of insufficient spatial and temporal resolution [3, 4]. Motion artifacts, severely calcified lesions, and the lack of isotropic resolution reduced the number of assessable coronary segments; therefore, 4-MDCT was not reliable enough for a consistent assessment of the coronary tree in nonselected patient populations [20, 21]. Our results show that recently introduced 16-MDCT is a promising tool for the detection of coronary artery stenoses. However, severe coronary artery calcifications and motion artifacts still remain limitations. Specific thresholds seem to be useful to raise the diagnostic accuracy of 16-MDCT. Using the same technique, comparable results were found by Nieman et al. [9] and Ropers et al. [10]. Nieman et al. [9] were excluding vessels with a diameter of less than 2 mm from their data evaluation. To raise diagnostic accuracy, Ropers et al. focused their data analysis on patients with heart rates below 60 bpm. Assessment of the coronary artery lumen on CT is difficult when severely calcified lesions are present. The poor differentiation between contrast-enhanced vessel lumen and high-density calcified plaques may lead to misinterpretation of stenotic lesions and may make some vascular segments unassessable, as has been described by several groups [5, 22]. Therefore, we focused on patients without excessive coronary calcifications and defined a threshold of less than 1,000 ASE. Other exclusion criteria such as heart rate and vascular diameter were not used in our data evaluation. Patients with Lesions with 50% Reduction in Diameter (n = 37) Patients with ASE < 1,000 and Lesions with 50% ReductioninDiameter (n = 28) Sensitivity (%) Specificity (%) Positive predictive value (%) Negative predictive value (%) Note. ASE = Agatston score equivalent. The diagnostic accuracy was higher in the below-threshold group with fewer calcified plaques (sensitivity, 93%; specificity, 94%) than for the group overall (overall sensitivity, 59%; overall specificity, 87%). The negative predictive value was 87% for all patients and 99% for patients with an ASE of less than 1,000. The positive predictive value was 61% and 68%, respectively. Overestimation of the grade of stenoses leads to these low numbers for the positive predictive value. Overestimation of vascular stenoses is often caused by cardiac motion artifacts and by vascular wall calcifications. Even smaller soft plaque lesions of the vascular wall that cause vascular wall irregularities may lead to the overestimation of vascular stenoses. The influence of higher heart rates on motion artifacts using 4-MDCT has been described by several groups [21, 23, 24]. One reason for that can be seen in the limited temporal resolution of 4-MDCT. The 16-MDCT systems have a gantry rotation time of 420 msec that results in improved temporal resolution of 210 and 105 msec in patients with a heart rate of more than 70 bpm (biphasic reconstruction algorithm) compared with 4- MDCT scanners with a 0.5-sec rotation time [6]. In our study, the mean heart rate of 64.5 ± 13.3 bpm was achieved through oral β- blocker administration. Comparable heart rates were found by Ropers et al. [10] using 50 mg of atenolol. The use of retrospective ECG-gating and of helical data acquisition allows image reconstruction at any time position within the cardiac cycle (R-R interval). The need to optimize the reconstruction window was described by Kopp et al. [25]. Because of the high interindividual variations among patients, test series are recommended to look at each of the three major coronary arteries. In our patients, test series of the CT angiography data sets were performed, and the images were evaluated to determine the time point AJR:184, May
6 with minimum motion artifact to avoid loss of image quality. Similar to conventional angiography, MDCT angiography requires the injection of iodinated contrast medium. Especially in patients with diminished kidney function, lower amounts of contrast medium may help reduce the risk of kidney failure. Sophisticated CT technology with data acquisition of up to 16 slices (12 slices in the cardiac mode for Siemens scanners) per rotation enables scanning times to be less than 20 sec. This means that the amount of contrast agent can be reduced from ml in 4-MDCT systems [20] to ml in 16-MDCT scanners. In addition, biphasic injection protocols can be used to obtain optimized vascular enhancement while lowering the amount of contrast medium administered. In CT angiography of the abdominal aorta and iliac arteries, Fleischmann et al. [26] showed the advantages of biphasic contrast medium injection. This biphasic injection technique leads to superior uniform enhancement in comparison with standard uniphasic injections and allows optimal visualization of vessels. For that reason, a biphasic injection protocol was used in all patients. No effects of flow limitations from proximal critical stenoses on distal visualization of the coronary arteries were found in our contrast-enhanced series. On all cardiac scans, filling of the coronary venous system was found, and even in high-grade stenoses, contrast enhancement of distal parts was seen. One major limitation of the application of MDCT in the diagnosis of coronary artery disease is radiation exposure. In conventional coronary angiography, dosage levels depend to a large extent on the examiner and are approximately 3 msv [16]. Radiation exposure in cardiac CT is influenced by the scanning protocols and parameters used [27]. In 4- MDCT angiography of the coronary arteries, the effective doses of 10.4 msv in men and 12.7 msv in women have to be expected (scan length, 13 cm) [28]. Newly developed scanner software for dose saving is provided by the manufacturers and allows tube current modulation according to each patient s ECG findings, referred to as ECG-pulsing. In 16- MDCT, Trabold et al. [29] found an estimated effective dose (using an Alderson-Rando phantom) for the helical scan obtained to determine the calcium score to be 2.9 msv in men and 3.6 msv in women without ECGpulsing and 1.6 and 2.0 msv, respectively, with ECG-pulsing. For coronary CT angiography without and with ECG-controlled tube current modulation, the effective dose was 8.1 and 4.3 msv, respectively, in men and 10.9 and 5.6 msv, respectively, in women. The number of patients investigated in this study is relatively small and does not allow a satisfying statistical analysis of all the different aspects of coronary MDCT angiography. In all patients, the total calcium burden of the coronary arteries was determined using an unenhanced helical scan. The decision of when to obtain a contrast-enhanced helical scan of the heart is influenced by different factors, such as heart rate, heart rhythm, and body weight. The threshold of 1,000 ASE was chosen arbitrarily and cannot be seen as a definitive threshold. However, it shows the influence of severe coronary calcifications on the diagnostic accuracy of MDCT of the heart. All patients were in sinus rhythm and received an oral β-blocker medication before CT examination. Thus, further studies are needed to investigate the influence of arrhythmias and increased heart rates on 16-MDCT coronary angiography. In comparison with quantitative coronary analysis, the grade of stenoses on MDCT was estimated visually. All MDCT studies were evaluated by two radiologists in a joint review manner. A separate data evaluation would have allowed an investigation of the interobserver variability. In conclusion, in patients with no to moderate coronary calcium burden, MDCT angiography of the coronary arteries is a suitable technique to diagnose vascular stenoses. Severe coronary calcifications and motion artifacts may still affect the diagnostic accuracy of 16-MDCT coronary angiography, and an initial unenhanced scan was found to be mandatory to avoid useless examinations in patients with severe calcifications. However, in comparison with 4-MDCT systems, 16-MDCT scanners with submillimeter data acquisition and faster gantry rotation speed offer considerable improvements in coronary artery visualization and stenosis detection. Acknowledgments We wish to thank the radiographers Ayser Birinci, Henriette Heners, and Nicole Sachse for their excellent assistance. References 1. Klingenbeck-Regn K, Schaller S, Flohr T, Ohnesorge B, Kopp AF, Baum U. 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Coronary artery stenoses: assessment with contrast-enhanced electron-beam CT and axial reconstructions. Radiology 1998;208: Austen WG, Edwards JE, Frye RL, et al. A reporting system on patients evaluated for coronary artery disease: report of the Ad Hoc Committee for Grading of Coronary Artery Disease, Council on Cardiovascular Surgery, American Heart Association. Circulation 1975;51[suppl 4]: Moshage WE, Achenbach S, Seese B, Bachmann K, Kirchgeorg M. Coronary artery stenoses: three-dimensional imaging with electrocardiographically triggered, contrast agent-enhanced, electron-beam CT. Radiology 1995;196: Achenbach S, Moshage WE, Ropers D, Nossen J, Daniel WG. Value of electron-beam computed tomography for the noninvasive detection of highgrade coronary-artery stenoses and occlusions. N Engl J Med 1998;339: Becker C, Schatzl M, Feist H, et al. Assessment of the effective dose for routine protocols in conventional CT, electron beam CT and coronary angiography [in German]. 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7 ECG-Gated 16-MDCT of the Coronary Arteries angiography. AJR 1999;172: Huber A, Nikolaou K, Gonschior P, Knez A, Stehling M, Reiser M. Navigator echo-based respiratory gating for three-dimensional MR coronary angiography: results from healthy volunteers and patient with proximal coronary artery stenoses. AJR 1999;173: Barkhausen J, Hunold P, Jochims M, et al. Comparison of gradient-echo and steady state free precession sequences for 3D-navigator MR angiography of coronary arteries [in German]. Rofo 2002;174: Vogel T, Abolmaali ND, Diebold T, et al. Techniques for the detection of coronary atherosclerosis: multi-detector row CT coronary angiography. Radiology 2002;223: Giesler T, Baum U, Ropers D, et al. Noninvasive visualization of coronary arteries using contrastenhanced multidetector CT: influence of heart rate on image quality and stenosis detection. AJR 2002;179: Becker CR, Ohnesorge BM, Schoepf UJ, Reiser MF. Current development of cardiac imaging with multidetector-row CT. Eur J Radiol 2000;36: Schroeder S, Kopp AF, Kuettner A, et al. Influence of heart rate on vessel visibility in noninvasive coronary angiography using new multislice computed tomography: experience in 94 patients. Clin Imaging 2002;26: Becker CR, Knez A, Ohnesorge B, Schoepf UJ, Reiser MF. Imaging of noncalcified coronary plaques using helical CT with retrospective ECG gating. AJR 2000;175: Kopp AF, Schroeder S, Kuettner A, et al. Coronary angiography: retrospectively ECG-gated multi-detector row CT angiography with selective optimization of the image reconstruction window. Radiology 2001;221: Fleischmann D, Rubin GD, Bankier AA, Hittmair K. Improved uniformity of aortic enhancement with customized contrast medium injection protocols at CT angiography. Radiology 2000;214: Hunold P, Vogt FM, Schmermund A, et al. Radiation exposure during cardiac CT. Radiology 2003;226: Cohnen M, Poll L, Puttmann C, Ewen K, Modder U. Radiation exposure in multi-slice CT of the heart. Rofo 2001;173: [Erratum in Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr 2001;173:521] 29. Trabold T, Buchgeister M, Kuttner A, et al. Estimation of radiation exposure in 16-detector row computed tomography of the heart with retrospective ECG-gating. Rofo 2003;175: For the convenience of AJR authors, a standardized form requesting permission to reprint from other publications is now available via the ARRS Web site at Your computer system must have version 3.0 or later of Adobe Acrobat Reader. AJR:184, May
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