CT arthrography: in vitro evaluation of single and dual energy for optimization of technique

The purpose of this study was to optimize CT arthrography technique and determine if dual energy CT (DECT) can provide any benefit over single energy CT (SECT). Iodinated contrast attenuation at different concentrations was measured using DECT and SECT at different beam energies (140, 120, and 80 kV...

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Bibliographic Details
Published in:Skeletal radiology 2010-10, Vol.39 (10), p.1025-1031
Main Authors: Subhas, Naveen, Freire, Maxime, Primak, Andrew N., Polster, Joshua M., Recht, Michael P., Davros, William J., Winalski, Carl S.
Format: Article
Language:English
Subjects:
Animals
Arthrography - methods
Biological and medical sciences
Cadaver
Cattle
Contrast Media
Femur Neck - diagnostic imaging
Humans
Image Processing, Computer-Assisted - methods
Imaging
In Vitro Techniques
Investigative techniques, diagnostic techniques (general aspects)
Iohexol - analogs & derivatives
Knee Joint - diagnostic imaging
Medical sciences
Medicine
Medicine & Public Health
Nuclear Medicine
Observer Variation
Orthopedics
Osteoarticular system. Muscles
Pathology
Phantoms, Imaging
Radiodiagnosis. Nmr imagery. Nmr spectrometry
Radiographic Image Enhancement - methods
Radiology
Tomography, X-Ray Computed - methods
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Summary:The purpose of this study was to optimize CT arthrography technique and determine if dual energy CT (DECT) can provide any benefit over single energy CT (SECT). Iodinated contrast attenuation at different concentrations was measured using DECT and SECT at different beam energies (140, 120, and 80 kVp). Dose and noise were measured on phantoms at different tube currents. Three bovine femoral condyles with artificially created cartilage defects were scanned with dose-equivalent protocols. Contrast-to-noise ratio (CNR) between cartilage and iodine was measured, and the appearance of cartilage defects was graded by two readers. DECT scans were post-processed for iodine quantification. The beam energy 80 kVp had the highest iodine signal, 50% greater than DECT, 75% greater than 120 kVp, and 100% greater than 140 kVp. Noise was nearly identical for all techniques when dose was matched. The 80 kVp level had the highest CNR, 25% higher than 120 kVp and DECT, and 33% greater than 140 kVp. The 80 kVp technique was also preferred by both readers. DECT iodine quantification was significantly limited by the post-processing application, noise, and beam hardening. In this in-vitro study, the SECT 80 kVp CT arthrography technique was superior to currently performed 120 and 140 kVP SECT techniques and DECT.
ISSN:0364-2348
1432-2161
DOI:10.1007/s00256-010-0932-2