Abstract

Physical dose assessment of prostate tumor and adjacent healthy tissues in ORNL, adult male (AM) and KTMAN-2 phantoms was performed using the Monte Carlo transport code. Two different spectra of MIT reactor (without and with lithium filter) were considered. To evaluate the effectiveness of this method in destroying cancer cells for different depths of the prostate, the prostates were moved three times with a distance of 3 cm towards the surface of the body. In addition, the effects of using a lithium filter with different thicknesses on the physical doses of the prostate and adjacent healthy tissues were investigated. It has been observed that decreasing the depth of the prostate increases the physical dose received by the tumor. When the prostate is placed at the maximum depth inside the body, the tissues located in the path of the beam receive the maximum amount of dose. However, the use of a lithium filter reduces damage to healthy tissues, so that when the prostate is near the surface of the body, the lithium filter increases the amount of dose delivered to tumors. In these conditions, the average energy of the penetration distance of epithermal neutrons and neutrons in tissues increases. By changing the location of the prostate gland inside the body, the physical doses of normal tissues did not change, but it was observed that increasing the thickness of the lithium filter significantly reduced the dose of normal tissues.

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