Contour maps of normalised scattered radiation doses at different eye heights positions in an angiography room based on multiple linear regression model
Background: The phantom study produced contour maps to educate angiography staff on the distributions of scattered radiation to their eyes. Methodology: The scattered radiation came from an upper-body PBY-31 phantom (Kyoto Kagaku) exposed to percutaneous transhepatic biliary drainage technical fa...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
Institute for Health Management (IHM), Ministry of Health Malaysia
2024
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| Subjects: | |
| Online Access: | http://irep.iium.edu.my/110314/1/110314_Contour%20maps%20of%20normalised%20scattered%20radiation.pdf http://irep.iium.edu.my/110314/ https://myjms.mohe.gov.my/index.php/johm/article/view/25343 |
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| Summary: | Background: The phantom study produced contour maps to educate angiography staff on the
distributions of scattered radiation to their eyes.
Methodology: The scattered radiation came from an upper-body PBY-31 phantom (Kyoto
Kagaku) exposed to percutaneous transhepatic biliary drainage technical factors. A total of 48
nanoDots™ (Landauer Inc.) were placed on the paper tubes, corresponding to six positions and
eight heights (from 135 cm to 170 cm, with 5 cm increments) of the angiography staff’s eyes from
the scattered source. The studied projection and positions were posteroanterior (PA), 25° right anterior oblique (RAO), and 25° left anterior oblique (LAO). The measured doses (mGy) were normalised to the respective dose area product for each exposure (mGym2). The normalised
doses (mGy/mGym2) were then transformed to their common logarithmic (log10) form and
analysed using a multiple linear regression model. After the analysis, the back transformation
was performed, and the contour maps of the results were produced.
Results: Linear relationships were observed between log10 normalised scattered radiation
doses with eye heights and positions for all projections [F (6,137) = 56.96, p< .001 (PA), F
(6,137) = 299.94, p< .001 (25° RAO), F (6,137) = 333.953, p< .001 (25° LAO)]. An increase of
5 cm heights reduced normalised doses by 15.9%, 16.8%, and 6.7% in PA, 25° RAO, and 25°
LAO, respectively. In PA projection, 155 cm and above eye heights received lower scattered doses for all positions. Meanwhile, in 25° RAO, the flat panel detector (FD) shielded
the position right next to the irradiated area. However, this position received higher scattered
radiation doses in 25° LAO.
Conclusion: The contour maps differed for each projection, and the distribution of scattered
radiation in an angiography room was affected by the shielding of the FD. |
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