Development and assessment of Pulsating Heart phantom for CT.
Development of Pulsating Heart phantom for CT.
Assessment of Real Heart Motion Simulation Phantom (SE)
Design and Development of a New Pulsating Heart Phantom for Multi-slice CT Imaging (SS)
Development of a New Pulsating Heart Phantom for Multi-slice CT Imaging (EE),
(got 2000RSNA award)
Improvement of Coronary Calcification Quantification with a New Reconstruction Algorithm and Multi-slice Helical CT: Theoretical Considerations and Phantom Evaluation (SS)
Simulation of patientﾕs real LV motion using pulsating cardiac phantom for evaluation of Multi sector cardiac reconstruction algorithm
Effect factor of temporal resolution for Volume ejection fraction and coronary calcification scoring using different cardiac algorithm and pulsating cardiac phantom
Construction of Dynamic Phantom for Cardiac CT and Cardiac MR Imaging
Improving Coronary Artery Imaging Quality on the High Heart Rate (70-90bpm) by Combination of Cardiac Multi Sector Reconstruction Algorithm and Variable Gantry Rotation Speed. . (Got Award)
Coronary Artery Calcium Scoring Using Multicardiac Computed Tomography
Journal of Computer Assisted Tomography 26(6) : 880-885
Technical innovation of cardiac multirow detector CT using multisector reconstruction
Computerized Medical Imaging and Graphics 26(2002) : 217-226
WHAT IS BEST CONDITION FOR CARDIAC EJECTION FRACTION AND CORONARY IMAGE QUALITY ON THE GATED CARDIAC MDCT?
THE ACCURACY OF DENSITY MEASUREMENTS WITHIN PLAQUES USING MULTISLICE CT: RESULTS OF A PULSATING CARDIAC PHANTOM STUDY
The Evaluation of MDCT Cardiac Imaging using Cardiac Pulsating Phantom
Vol.103, No.319(20030912) pp. 1-4
New Pulsating Cardiac Flow Phantom for Cardiac MR and Cardiac MDCT
The Effect of Different type of Heart Rate Shift on Cardiac Image Quality: The Result of Newly developed Pulsating Cardiac Phantom Study
Design and Development of a Pulsating Cardiac Flow Phantom for Cardiac MR and Cardiac MDCT
Electron Beam CT Versus 16-MDCT on the Variability of Repeated Coronary Artery Calcium Measurements in a Variable Heart Rate Phantom
AJR 2005(185) : 995-1000
Improving Coronary Artery Imaging Quality in the High Heart Rate Region and on MDCT Using a Pulsating Cardiac Phantom
Vol.61, No.4(20050420) pp. 506-513
Design and Development of a New Pulsating Cardiac Coronary Phantom for ECG-gated CT and Its Experimental Characteristics
Quantitative Evaluation of Coronary Arterial Stenosis Rate Using Profile Curve with 16-Slice MDCT: Preliminary Study Using Pulsating Cardiac Phantom
Correlation of effective temporal resolution and accuracy of volume ejection fraction on the ECG-gated cardiac MDCT
2005 Jul ;65 (3):233-239
Electron beam CT versus 16-slice spiral CT:
how accurately can we measure coronary artery calcium volume?
Eur Radiol 2006(16) : 374-380
Soft and Intermediate Plaques in Coronary Arteries:
How Accurately Can We Measure CT Attenuation Using 64-MDCT?
Radiation Dose, Image Quality,Stenosis Measurement, and CT Densitometry
Using ECG-Triggered Coronary 64-MDCT Angiography:
A Phantom Study
Variability of Repeated Coronary Artery Calcium Scoring and Radiation Dose on 64- and 16-Slice Computed Tomography by Prospective Electrocardiographically-triggered Axial and Retrospective Electrocardiographically-gated Spiral Computed Tomography:
A Phantom Study
Acad Radiol 2008; 15:958-965
In vitro measurement of CT density and estimation of stenosis related to coronary soft plaque at 100 kV and 120 kV on ECG-triggered scan.
Eur J Radiol (2009),
Prospective ECG-triggered axial CT at 140-kV
tube voltage improves coronary in-stent
restenosis visibility at a lower radiation dose
compared with conventional retrospective
ECG-gated helical CT
Eur Radiol (2009) 19: 2363?2372
Quantification of lumen stenoses with known dimensions by coventional angiography and computed tomography:implications of using conventional angiography as gold standard
A Aebab-Zadeh, J Texter, K M Ostbye, et al.
Heart2010 96: 1358-1363