Superiority of synchrony of 256-slice cone beam computed tomography for acquiring pulsating objects. Comparison with conventional multislice computed tomography

• Published in: International journal of cardiology Vol. 118; no. 3; pp. 400 - 405
• Main Authors: Funabashi, Nobusada, Mizuno, Naoko, Yoshida, Katsuya, Tsunoo, Takanori, Mori, Shinichiro, Tanada, Shuji, Endo, Masahiro, Komuro, Issei
• Format: Journal Article
• Language: English
• Published: Shannon Elsevier Ireland Ltd 12.06.2007; Elsevier Science
• Subjects: 256-slice cone beam CT synchrony; Biological and medical sciences; Calcified phantoms; Cardiology. Vascular system; Cardiovascular; Cone beam computed tomography; ECG; Electrocardiography; Image Processing, Computer-Assisted; Medical sciences; Models, Cardiovascular; Phantoms, Imaging; Sensitivity and Specificity; Tomography, Spiral Computed - instrumentation; Tomography, Spiral Computed - methods; Tomography, X-Ray Computed - instrumentation; Tomography, X-Ray Computed - methods; ECG; Cone beam computed tomography; 256-slice cone beam CT synchrony; Calcified phantoms; Human; Cone; Radiodiagnosis; Phlebology; Electrodiagnosis; Electrocardiography; Medical imagery; Multislice; Computerized axial tomography; Circulatory system; Cardiology; Comparative study; Test object
• ISSN: 0167-5273; 1874-1754
• DOI: 10.1016/j.ijcard.2006.07.104

Abstract Purpose A prototype 256-slice cone beam computed tomography (CT) provides complete volumetric data within a single gantry rotation (1 s/rotation) with 0.5 mm slice-thickness. Materials and Methods Calcified phantoms (200–400 HU) were attached to the balloon of a pulsating phantom and moved at a rate of 5–90/min. Acquisition was performed during one to-and-fro motion at each pulsation rate without electrocardiogram (ECG)-gating. Each period was divided into 10 phases, and compared to conventional multislice CT scanning without ECG-gating. Results At 5–20/min, the configuration of calcified phantoms continued to the through-plane without gaps. At 60/min, duplicated calcified phantoms at end-systole and end-diastole were observed without motion. At 90/min, motion could be observed without gaps but was more blurred, and total calcified volume, Agatston scores, mean and max CT values of three phantoms were almost equal compared with those at static state. However, at 60/min, total calcified volume, scores, mean and max CT values of three phantoms were decreased to 64%, 37%, 80% and 56%, respectively, compared with those at static state. In multislice CT, even at lower rates, there were gaps in the through-plane. At 60/min, total calcified volume, scores, mean and max CT values of three phantoms were decreased to only 8%, 3%, 79% and 53%, respectively, compared with static state. Conclusion This new prototype's unique character (synchrony) enables the acquisition of pulsating objects. These can be acquired without gaps in the through-plane even in the absence of ECG-gating. However, its present temporal resolution only permits accurate quantitative evaluation of calcium up to 20/min.