| Publication type: | Conference other |
| Type of review: | Peer review (abstract) |
| Title: | Using difference detail curves to assess image quality of low contrast abdominal CT scans |
| Authors: | Sommer, Christian Özden, Ismail Weyland, Mathias Duran, Carolina Lutters, Gerd Scheidegger, Stephan |
| et. al: | No |
| Conference details: | 3rd European Congress of Medical Physics (ECMP), virtual, 16 June - 31 December 2021 |
| Issue Date: | 16-Jun-2021 |
| Language: | English |
| Subjects: | Low contrast CT; CT image quality; Difference detail curve; CT phantom |
| Subject (DDC): | 510: Mathematics 616: Internal medicine and diseases |
| Abstract: | Purpose: The desire for dose- and image quality co-optimization in Computer Tomography (CT) scans presumes the ability to measure radiation exposure and image quality as realistically as possible, in phantoms or preferably in patients. In this realm of CT image quality, object detectability is a pivotal quantity, especially when iterative reconstruction algorithms are involved: Since these algorithms behave in a non-linear way, the total modulation transfer function (MTF) does not correspond to the product of the partial MTFs and thus the MTF is an inadequate figure of merit for image quality. In this work, we propose an alternative measurement method for assessing dose-related image-quality of CT scans based on the difference detail curve (DDC), and we showcase its use in a low contrast setting. Materials and Method: Our method is based on a phantom consisting of elliptical slices of different sizes into which contrast object modules can be inserted. These modules contain contrast objects based on (synthetic) resin mixtures with sucrose or sodium iodine. We provide mixing ratios to achieve a range of clinically relevant CT-numbers with these materials and verify contrast accuracy and energy dependency. We also describe a custom-made software used by up to 5 observers to evaluate image quality of 655 scans of the phantom acquired at 30 different clinical institutions and with 16 different CT scanner models from 4 manufacturers. For the scans, the tube voltage is set to 100 and 120 kV and the tube current is chosen such that the CTDIVol calculated by the machine is on a level in the clinically relevant range of 3 mGy to 20 mGy. Results: Phantom verification: The contrast objects meet the targeted CT-numbers accurately, the energy dependency is similar to that of water or soft tissue and no drift is observed over the course of a year. Image evaluation: The relationship between the contrast object size and the lowest contrast of that size seen by an observer is logarithmic. Inter-observer variability is a large contributor to the overall variability. A DDC reference catalogue (atlas) is created which allows the comparison of different clinical protocols and different CT manufacturers, types and software revisions. Conclusions: We demonstrate that assessment of CT image quality is feasible with our phantom and DDC method. The measurements on different sites and evaluated by multiple human observers show that the DDC is a useful tool for protocol optimization regarding dose and image quality. |
| URI: | https://digitalcollection.zhaw.ch/handle/11475/24601 |
| Fulltext version: | Published version |
| License (according to publishing contract): | Licence according to publishing contract |
| Departement: | School of Engineering |
| Organisational Unit: | Institute of Applied Mathematics and Physics (IAMP) |
| Appears in collections: | Publikationen School of Engineering |
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Sommer, C., Özden, I., Weyland, M., Duran, C., Lutters, G., & Scheidegger, S. (2021, June 16). Using difference detail curves to assess image quality of low contrast abdominal CT scans. 3rd European Congress of Medical Physics (ECMP), Virtual, 16 June - 31 December 2021.
Sommer, C. et al. (2021) ‘Using difference detail curves to assess image quality of low contrast abdominal CT scans’, in 3rd European Congress of Medical Physics (ECMP), virtual, 16 June - 31 December 2021.
C. Sommer, I. Özden, M. Weyland, C. Duran, G. Lutters, and S. Scheidegger, “Using difference detail curves to assess image quality of low contrast abdominal CT scans,” in 3rd European Congress of Medical Physics (ECMP), virtual, 16 June - 31 December 2021, Jun. 2021.
SOMMER, Christian, Ismail ÖZDEN, Mathias WEYLAND, Carolina DURAN, Gerd LUTTERS und Stephan SCHEIDEGGER, 2021. Using difference detail curves to assess image quality of low contrast abdominal CT scans. In: 3rd European Congress of Medical Physics (ECMP), virtual, 16 June - 31 December 2021. Conference presentation. 16 Juni 2021
Sommer, Christian, Ismail Özden, Mathias Weyland, Carolina Duran, Gerd Lutters, and Stephan Scheidegger. 2021. “Using Difference Detail Curves to Assess Image Quality of Low Contrast Abdominal CT Scans.” Conference presentation. In 3rd European Congress of Medical Physics (ECMP), Virtual, 16 June - 31 December 2021.
Sommer, Christian, et al. “Using Difference Detail Curves to Assess Image Quality of Low Contrast Abdominal CT Scans.” 3rd European Congress of Medical Physics (ECMP), Virtual, 16 June - 31 December 2021, 2021.
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