Monte Carlo calculation of radiation dose in CT examinations using phantom and patient tomographic models

doi:10.1093/rpd/nch516

Radiation Protection Dosimetry 2005 114(1-3):364-368; doi:10.1093/rpd/nch516

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Monte Carlo calculation of radiation dose in CT examinations using phantom and patient tomographic models

M. Salvadó¹^,*, M. López¹^,2, J. J. Morant² and A. Calzado³

¹ Física Mèdica, Universitat Rovira i Virgili, 43201 Reus, Spain
² Servei de Protecció Radiològica, Universitat Rovira i Virgili, 43201 Reus, Spain
³ Física Médica, Departamento de Radiología, Universidad Complutense, 28040 Madrid, Spain

^* Corresponding author: marsal{at}urv.net

By using a voxel-based Monte Carlo simulation technique, wedeveloped and validated a method to calculate radiation-absorbeddose in the computed tomography (CT) examinations from the imagesof phantoms and patients. The ionising radiation transport wassimulated using the EGS4 code system. The geometry of the X-raybeam (focus-to-axis distance, field of view, collimation, andprimary and beam-shaper filtration) and the X-ray spectral distribution(HiSpeed LX/i) were included in the simulation. Each axial CTimage was reduced to a 256 x 256 matrix and stacked in a volume.The patient images were segmented before the simulation of radiationtransport by using four categories of materials, such as air,lung, muscle and bone. To test the voxel-based method, the valuesof the radiation dose derived from a simulated CT exposure werecalculated and compared with those obtained from the measurementsperformed within the dosimetry phantoms. To complete the scopeof the work, series of CT scans of the trunk of an anthropomorphicphantom and patients were simulated to calculate the averagedose in each 1-cm-wide transverse slice (ADS). The comparisonbetween the simulated and measured dose data for the CT indicesshowed a difference of <5% in all the cases. The estimatedmean values of ADS from the chest, abdomen and pelvis of theanthropomorphic phantom were $~$ 1.7–2 times the weightedCT dose index (CTDI_w) value, whereas the mean ADS values forthese anatomical areas were 1.3–2 times the CTDI_w of patients.The voxel-based simulation method provided a technique for estimatingthe individual patient doses in the CT examinations.

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