Abstract
Objectives
To compare the lung and breast dose associated with three chest protocols: standard, organ-based tube current modulation (OBTCM) and fast-speed scanning; and to estimate the error associated with organ dose when modelling the longitudinal (z-) TCM versus the 3D-TCM in Monte Carlo simulations (MC) for these three protocols.
Method
Five adult and three paediatric cadavers with different BMI were scanned. The CTDIvol of the OBTCM and the fast-speed protocols were matched to the patient-specific CTDIvol of the standard protocol. Lung and breast doses were estimated using MC with both z- and 3D-TCM simulated and compared between protocols.
Results
The fast-speed scanning protocol delivered the highest doses. A slight reduction for breast dose (up to 5.1%) was observed for two of the three female cadavers with the OBTCM in comparison to the standard. For both adult and paediatric, the implementation of the z-TCM data only for organ dose estimation resulted in 10.0% accuracy for the standard and fast-speed protocols, while relative dose differences were up to 15.3% for the OBTCM protocol.
Conclusion
At identical CTDIvol values, the standard protocol delivered the lowest overall doses. Only for the OBTCM protocol is the 3D-TCM needed if an accurate (<10.0%) organ dosimetry is desired.
Key points
• The z-TCM information is sufficient for accurate dosimetry for standard protocols.
• The z-TCM information is sufficient for accurate dosimetry for fast-speed scanning protocols.
• For organ-based TCM schemes, the 3D-TCM information is necessary for accurate dosimetry.
• At identical CTDI vol, the fast-speed scanning protocol delivered the highest doses.
• Lung dose was higher in XCare than standard protocol at identical CTDI vol.
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