A Phantom-based Investigation Into the Influence of Low Tube  Potential and Matrix Size on Radiation Dose and Image Quality  for a 128 Slice Abdominopelvic Ct Protocol

Nitika C Panakkal; Rajagopal Kadavigere; Suresh Sukumar; Ravishankar N

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A Phantom-based Investigation Into the Influence of Low Tube Potential and Matrix Size on Radiation Dose and Image Quality for a 128 Slice Abdominopelvic Ct Protocol

Author: Nitika C. Panakkal ¹ ; Rajagopal Kadavigere ² ; Suresh Sukumar ¹ ; Ravishankar N ³
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1. Department of Medical Imaging technology, Manipal College of Health Professions, Manipal Academy of Higher Education, Manipal, Karnataka, India
2. Department of Radio diagnosis and Medical Imaging, Kasturba Medical College, Manipal Academy of Higher Education, Manipal, Karnataka, India
3. Department of Biostatistics, Vallabhbhai Patel Chest Institute, University of Delhi, India
Publication Type:Journal Article
Keywords: Image matrix, Radiation dose, Image quality, Abdominopelvic CT, Dose length product (DLP)
From:Malaysian Journal of Medicine and Health Sciences 2022;18(No.2):14-19
CountryMalaysia
Language:English
Abstract: Introduction: Reducing radiation dose for CT examinations has been accompanied by an increase in image noise. Studies have highlighted the application of a higher matrix size for improving image quality when assessing the lungs. This study aims to evaluate the influence of a low kVp and higher matrix size on radiation dose and image quality for abdominopelvic CT. Methods: This experiment was done on a 32 cm body phantom and scanned using a 128 slice CT scanner. The study utilised various combinations of kVp settings (140, 120, 100, 80 & 70) and matrix sizes (1024, 768 & 512). The image obtained was analysed objectively and subjectively. For objective analysis, we calculated SNR, and CNR. For subjective analysis, two radiologists evaluated the image in a 3-point scoring scale. Results: The study reported an increase in SNR (0.8%) and CNR (46%) at 120 kVp when increasing the matrix size from 512 x 512 to 768 x 768. Similarly, there was an increase of 14.5 % and 56.4 % in CNR and SNR using 1024 matrix size. The DLP was reduced by 4.5%, 50% and 70.6 % using 100, 80 and 70 kVp respectively. However, there was no change in DLP with higher matrix sizes. Conclusion: The study reported a combination of 100 kVp and 768 matrix size resulted in an almost similar (↓0.9 %) SNR and improved CNR (↑46.4 %) compared to 120 kVp and 512 matrix size. Qualitative analysis also showed a similar image quality with decreased radiation dose for abdominopelvic CT.
Full text:11.2022my1232.pdf