Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din
Worldwide, the number of Computed Tomography (CT) examinations performed is increasing. An initiative was issued by the Food and Drug Administration (FDA) in 2010 to reduce unnecessary radiation exposure from CT imaging. This study aims to evaluate the effect of low tube voltage on radiation dose an...
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my-uitm-ir.597212022-05-17T06:20:26Z Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din 2021-01 Nik Din, Nik Norhasrina Magnetic resonance imaging Worldwide, the number of Computed Tomography (CT) examinations performed is increasing. An initiative was issued by the Food and Drug Administration (FDA) in 2010 to reduce unnecessary radiation exposure from CT imaging. This study aims to evaluate the effect of low tube voltage on radiation dose and image quality using CTDI phantom. The CTDI phantom was scanned with dual-energy CT at 80 kV and 120 kV with the tube current from 150 mAs to 350 mAs. Pitch value was 1.0 while the slice thickness was 1 mm and 5 mm. Results showed that the signal to noise ratio (SNR) values increased when mAs increased. The 5 mm slice thickness showed higher SNR value compared to 1 mm slice thickness. As the tube voltage and tube current increased, the amount of dose absorbed also increased as the current is proportional to a photon flux. Though, the optimal image quality still can be achieved with the reduction of voltage and current to 80 kVp and 300 mAs as well due to reducing unnecessary radiation. However, the radiation dose in pediatric head Computed Tomography examination was reported that decreasing tube voltage in CT examination could reduce the dose to patients significantly. A head phantom was scanned with dual-energy CT at 80 kV and 120 kV. The tube current was set using automatic exposure control mode and manual setting. The pitch was adjusted to 1.4, 1.45 and 1.5 while the slice thickness was set at 5 mm. The dose was measured based on the CT Dose Index (CTDI). Results from this study have shown that the image noise increases substantially with low tube voltage. The dose increases up to 17.19 mGy when the CT tube voltage increases to 120 kV. With the reduction of tube voltage from 120 kV to 80 kV, the radiation dose can be reduced by 12.1% to 15.1% without degradation of contrast-to-noise ratio. 2021-01 Thesis https://ir.uitm.edu.my/id/eprint/59721/ https://ir.uitm.edu.my/id/eprint/59721/1/59721.pdf text en public masters Universiti Teknologi MARA Faculty of Applied Sciences Abdul Rahman, Ahmad Taufek (Assoc. Prof. Dr.) Rafidah Zainon (Dr.) |
| institution |
Universiti Teknologi MARA |
| collection |
UiTM Institutional Repository |
| language |
English |
| advisor |
Abdul Rahman, Ahmad Taufek (Assoc. Prof. Dr.) Rafidah Zainon (Dr.) |
| topic |
Magnetic resonance imaging |
| spellingShingle |
Magnetic resonance imaging Nik Din, Nik Norhasrina Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din |
| description |
Worldwide, the number of Computed Tomography (CT) examinations performed is increasing. An initiative was issued by the Food and Drug Administration (FDA) in 2010 to reduce unnecessary radiation exposure from CT imaging. This study aims to evaluate the effect of low tube voltage on radiation dose and image quality using CTDI phantom. The CTDI phantom was scanned with dual-energy CT at 80 kV and 120 kV with the tube current from 150 mAs to 350 mAs. Pitch value was 1.0 while the slice thickness was 1 mm and 5 mm. Results showed that the signal to noise ratio (SNR) values increased when mAs increased. The 5 mm slice thickness showed higher SNR value compared to 1 mm slice thickness. As the tube voltage and tube current increased, the amount of dose absorbed also increased as the current is proportional to a photon flux. Though, the optimal image quality still can be achieved with the reduction of voltage and current to 80 kVp and 300 mAs as well due to reducing unnecessary radiation. However, the radiation dose in pediatric head Computed Tomography examination was reported that decreasing tube voltage in CT examination could reduce the dose to patients significantly. A head phantom was scanned with dual-energy CT at 80 kV and 120 kV. The tube current was set using automatic exposure control mode and manual setting. The pitch was adjusted to 1.4, 1.45 and 1.5 while the slice thickness was set at 5 mm. The dose was measured based on the CT Dose Index (CTDI). Results from this study have shown that the image noise increases substantially with low tube voltage. The dose increases up to 17.19 mGy when the CT tube voltage increases to 120 kV. With the reduction of tube voltage from 120 kV to 80 kV, the radiation dose can be reduced by 12.1% to 15.1% without degradation of contrast-to-noise ratio. |
| format |
Thesis |
| qualification_level |
Master's degree |
| author |
Nik Din, Nik Norhasrina |
| author_facet |
Nik Din, Nik Norhasrina |
| author_sort |
Nik Din, Nik Norhasrina |
| title |
Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din |
| title_short |
Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din |
| title_full |
Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din |
| title_fullStr |
Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din |
| title_full_unstemmed |
Evaluation of radiation dose and image quality of CT imaging for different phantom sizes / Nik Norhasrina Nik Din |
| title_sort |
evaluation of radiation dose and image quality of ct imaging for different phantom sizes / nik norhasrina nik din |
| granting_institution |
Universiti Teknologi MARA |
| granting_department |
Faculty of Applied Sciences |
| publishDate |
2021 |
| url |
https://ir.uitm.edu.my/id/eprint/59721/1/59721.pdf |
| _version_ |
1783735050473308160 |