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European Radiology

Erschienen in:

01.09.2006 | Physics

Properties of the prototype 256-row (cone beam) CT scanner

verfasst von: Shinichiro Mori, Masahiro Endo, Takayuki Obata, Takanori Tsunoo, Kandatsu Susumu, Shuji Tanada

Erschienen in: European Radiology | Ausgabe 9/2006

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Abstract

We evaluated Feldkamp artifacts, which are specific to cone-beam computed tomography (CT), in phantom and clinical studies using the 256-multidetector-row CT (256MDCT), and compared the reconstruction accuracy of axial and helical scans. Image noise, slice sensitivity profile (SSP) and artifacts with the 256MDCT were evaluated using a phantom, and the results were compared to those of a 64MDCT. We also examined chest and abdomen scans produced with the 256MDCT in volunteers. For the axial scan, Feldkamp artifacts were visualized as high-frequency streak-like artifacts that are oriented horizontally at the edge of the scan region in the phantom study. Similar results were obtained with the volunteers in soft-tissue regions near either bony structures or air pockets. Feldkamp artifacts with the 256MDCT can lead to misdiagnosis if not correctly identified and minimized via helical scanning. Image noise was less for axial than helical scans, while SSP was better with helical than axial scans. Feldkamp artifacts observed in the 256MDCT images, however, did not generally affect the interpretation of images. The 256MDCT promises more accurate diagnosis, and will provide volumetric cine images of wider cranio-caudal coverage, enabling new applications of CT.

Endo M, Mori S, Tsunoo T, Kandatsu S, Tanada S, Aradate H, Saito Y, Miyazaki H, Satoh K, Matsushita S, Kusakabe M (2003) Development and performance evaluation of the first model of 4D CT-scanner. IEEE Trans Nucl Sci 50:1667–1671CrossRef

Mori S, Endo M, Tsunoo T, Kandatsu S, Tanada S, Aradate H, Saito Y, Miyazaki H, Satoh K, Matsushita S, Kusakabe M (2004) Physical performance evaluation of a 256-slice CT-scanner for four-dimensional imaging. Med Phys 31(6):1348–1356CrossRefPubMed

Mori S, Endo M, Obata T, Murase K, Fujiwara H, Susumu K, Tanada S (2005) Clinical potentials of the prototype 256-detector row CT-scanner. Acad Radiol 12(2):148–154PubMedCrossRef

Mori S, Obata T, Kishimoto R, Kato H, Murase K, Fujiwara H, Kandatsu S, Tanada S, Tsujii H, Endo M (2005) Clinical potentials for dynamic contrast-enhanced hepatic volumetric cine imaging with the prototype 256-MDCT scanner. Am J Roentgenol 185(1):253–256

Kondo C, Mori S, Endo M, Kusakabe K, Suzuki N, Hattori A, Kusakabe M (2005) Real-time volumetric imaging of human heart without electrocardiographic gating by 256-detector row computed tomography: initial experience. J Comput Assist Tomogr 29(5):694–698CrossRefPubMed

Mori S, Kondo C, Suzuki N, Yamashita H, Hattori A, Kusakabe M, Endo M (2005) Volumetric cine imaging for cardiovascular circulation using prototype 256-detector row computed tomography scanner (4-dimensional computed tomography): a preliminary study with a porcine model. J Comput Assist Tomogr 29(1):26–30PubMedCrossRef

Mori S, Obata T, Nakajima N, Ichihara N, Endo M (2005) Volumetric perfusion CT using prototype 256-detector row CT scanner: preliminary study with healthy porcine model. Am J Neuroradiol 26(10):2536–2541PubMed

Mori S, Endo M, Tsunoo T, Kandatsu S, Tanada S, Funabashi N, Suzuki M (2004) Performance evaluation of the first model 4D CT. Proc 5th Japan-France Workshop Radiobiol Med Imaging 5:153–158

Suzuki M, Funabashi N, Mori S, Tanada S, Endo M, Moriya H (2004) Four-dimensional kinematics of the knee evaluated by high-speed cone beam computed tomography. Radiology SSC23 04:367

10.

Mori S, Endo M, Kohno R, Minohara S, Kenya M, Fujiwara H (2005) Respiratory gated segment reconstruction algorithm for radiation treatment planning using 256-detector row CT-scanner during free breathing. Proc SPIE 5368:711–721CrossRef

11.

Feldkamp LA, Davis LC, Kress JW (1984) Practical cone-beam algorithm. J Opt Soc Am 1:612–619CrossRef

12.

Grangeat P (1991) Mathematical framework of cone-beam 3D reconstruction via the first derivative of the Radon transform. Mathematical methods in tomography, lecture notes in mathematics. Springer, Berlin Heidelberg New York

13.

Kudo H, Saito T (2002) Three-dimensional helical-scan computed tomography using cone-beam projections. Syst Comput Jpn 23:75–82CrossRef

14.

Smith B (1985) Image reconstruction methods. IEEE Trans Medical Imaging 4:14–25CrossRef

15.

Tuy H (1983) An inversion fomula for cone-beam reconstruction. SIAM J Math 43:546–552CrossRef

16.

Saito Y, Aradate H, Igarashi K, Ide H (2001) Large area 2-dimensional detector for real-time 3-dimensional CT (4D CT). Proc SPIE 4320:775–782CrossRef

17.

Mori S, Endo M, Nishizawa K, Tsunoo T, Aoyama T, Fujiwara H, Murase K (2005) Enlarged longitudinal dose profiles in cone-beam CT and the need for modified dosimetry. Med Phys 32:1061–1069CrossRefPubMed

18.

Hein I, Taguchi K, Silver MD, Kazama M, Mori I (2003) Feldkamp-based cone-beam reconstruction for gantry-tilted helical multislice CT. Med Phys 30(12):3233–3242PubMedCrossRef

19.

Kachelriess M, Knaup M, Kalender WA (2004) Extended parallel backprojection for standard three-dimensional and phase-correlated four-dimensional axial and spiral cone-beam CT with arbitrary pitch, arbitrary cone-angle, and 100% dose usage. Med Phys 31(6):1623–1641CrossRefPubMed

20.

Flohr T, Stierstorfer K, Bruder H, Simon J, Polacin A, Schaller S (2003) Image reconstruction and image quality evaluation for a 16-slice CT scanner. Med Phys 30(5):832–845CrossRefPubMed

21.

Gies M, Kalender WA, Wolf H, Suess C (1999) Dose reduction in CT by anatomically adapted tube current modulation. I. Simulation studies. Med Phys 26(11):2235–2247CrossRefPubMed

22.

Kalender WA, Wolf H, Suess C (1999) Dose reduction in CT by anatomically adapted tube current modulation. II. Phantom measurements. Med Phys 26(11):2248–2253PubMedCrossRef

Titel: Properties of the prototype 256-row (cone beam) CT scanner
verfasst von: Shinichiro Mori
Masahiro Endo
Takayuki Obata
Takanori Tsunoo
Kandatsu Susumu
Shuji Tanada
Publikationsdatum: 01.09.2006
Verlag: Springer-Verlag
Erschienen in: European Radiology / Ausgabe 9/2006
Print ISSN: 0938-7994
Elektronische ISSN: 1432-1084
DOI: https://doi.org/10.1007/s00330-006-0213-6

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