Erschienen in:
01.12.2015 | Neuro
Effects of radiation dose reduction in Volume Perfusion CT imaging of acute ischemic stroke
verfasst von:
Ahmed E. Othman, Carolin Brockmann, Zepa Yang, Changwon Kim, Saif Afat, Rastislav Pjontek, Omid Nikobashman, Marc A. Brockmann, Jong Hyo Kim, Martin Wiesmann
Erschienen in:
European Radiology
|
Ausgabe 12/2015
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Abstract
Purpose
To examine the influence of radiation dose reduction on image quality and sensitivity of Volume Perfusion CT (VPCT) maps regarding the detection of ischemic brain lesions.
Methods and materials
VPCT data of 20 patients with suspected ischemic stroke acquired at 80 kV and 180 mAs were included. Using realistic reduced-dose simulation, low-dose VPCT datasets with 144 mAs, 108 mAs, 72 mAs and 36 mAs (80 %, 60 %, 40 % and 20 % of the original levels) were generated, resulting in a total of 100 datasets. Perfusion maps were created and signal-to-noise-ratio (SNR) measurements were performed. Qualitative analyses were conducted by two blinded readers, who also assessed the presence/absence of ischemic lesions and scored CBV and CBF maps using a modified ASPECTS-score.
Results
SNR of all low-dose datasets were significantly lower than those of the original datasets (p < .05). All datasets down to 72 mAs (40 %) yielded sufficient image quality and high sensitivity with excellent inter-observer-agreements, whereas 36 mAs datasets (20 %) yielded poor image quality in 15 % of the cases with lower sensitivity and inter-observer-agreements.
Conclusion
Low-dose VPCT using decreased tube currents down to 72 mAs (40 % of original radiation dose) produces sufficient perfusion maps for the detection of ischemic brain lesions.
Key Points
• Perfusion CT is highly accurate for the detection of ischemic brain lesions
• Perfusion CT results in high radiation exposure, therefore low-dose protocols are required
• Reduction of tube current down to 72 mAs produces sufficient perfusion maps