Comparison between two methods for estimation of Equilibrium Dose in MSCT procedures
DOI:
https://doi.org/10.15392/bjrs.v10i2A.1793Keywords:
CTDI100, Equilibrium Dose, Computed TomographyAbstract
The CTDI100 underestimates the dose indicator due the scattering beyond the scanning length of 100mm of the measurement. A proposed method to obtain the dose (including the “tail” of the dose distribution) is a measurement on a large phantom to estimate the dose indicator on an ideal infinitum large phantom (equilibrium dose). As the scanning length increases, the dose indicator grows asymptotically. Measuremente previously obteined with three tied phantoms of PMMA were adopted in the present work. It includes a set of length measured for different combinations of protocols of voltage, pitch, diameter and axis of measurement. Using an empirically characterized function of the experimental data, two methods to estimate the equilibrium dose were evaluated. One method is manipulating algebraically of the function, and another is the use of Levenberg-Marquardt least-squares. The comparative evaluation of both methods demonstrate that in higher values of the pitch results in a higher difference of both methods. The results demonstrate a good compatibility of the methods for the estimation of the quantity Deq. However, the results for alfa and Leq are significantly different when both methods are considered.
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AAPM - American Association of Physicists in Medicine. The Measurement, Reporting, and Management of Radiation Dose in CT. AAPM Report No. 96, Task Group 23. College Park, MD: AAPM, 2008.
DIXON, R. L., The Physics of CT Dosimetry: CTDI and Beyond, 1rd ed., Boca Raton: CRC Press, 2019. p. 5-11. DOI: https://doi.org/10.1201/9780429023330-1
BOONE, J. M. Trouble with CTDI100, Med Phys, v. 34(4), p. 1364-71, 2007. DOI: https://doi.org/10.1118/1.2713240
AAPM - American Association of Physicists in Medicine. Comprehensive Methodology for the Evaluation of Radiation Dose in X-Ray Computed Tomography. Report No. 111, Task Group 111. College Park, MD: AAPM, 2010.
GONZALES, A. H. L. Simulation and validation of dose profiles and their use to estimate dosimetric quantities for Computed Tomography. 2019. PhD thesis - Physics Institute, Universidade de São Paulo, São Paulo, 2019.
AAPM - American Association of Physicists in Medicine. The Design and Use of the ICRU/AAPM CT Radiation Dosimetry Phantom: An Implementation of AAPM Report 111. AAPM Report No. 200, Task Group 200. Alexandria, VA: AAPM, 2010.
COSTA, P. R., NERSISSIAN, D. Y., UMISEDO, N. K., GONZALES, A. H. L., FERNÁNDEZ- VAREA, J. M. A. comprehensive Monte Carlo study of CT dose metrics proposed by the AAPM Reports 111 and 200. Med Phys, 1–18, 2021. DOI: https://doi.org/10.1002/mp.15306
DIXON, R. L., BALLARD, A. C. Experimental validation of a versatile system of CT dosimetry using a conventional ion chamber: Beyond CTDI 100, Med Phys, v. 34(8), p. 3399-413, 2007. DOI: https://doi.org/10.1118/1.2757084
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