ANALYSIS OF THE TONGUE-AND-GROOVE EFFECT ON VARIAN LINAC BASED ON MONTE CARLO SIMULATION
The multileaf collimator (MLC) is an important component in linear accelerator devices used in radiotherapy. The use of MLC in radiotherapy produces a dose decrease at the points where the MLC leaves meet. This dose reduction phenomenon is known as the tongue-and-groove effect. Thus, this study a...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83542 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The multileaf collimator (MLC) is an important component in linear accelerator
devices used in radiotherapy. The use of MLC in radiotherapy produces a dose
decrease at the points where the MLC leaves meet. This dose reduction
phenomenon is known as the tongue-and-groove effect. Thus, this study aims to
evaluate the radiotherapy dose distribution due to the tongue-and-groove effect on
the Varian Linac. This study was implemented through Monte Carlo simulations
performed using PRIMO software. The first stage simulation modeled the Varian
TrueBeam Linac head. The electron beam is a pencil beam with monoenergetic
characteristics with a value of 5.4 MeV and 10.8 MeV for 6 MV and 10 MV
variations, respectively. This stage uses 3 × 108 particles that generate a phase
space file for the next stage. The second simulation stage is the formation of a
radiation field using MLC Millenium 120 measuring 10 × 10 ????????2
and 20 ×
20 ????????2
. This stage uses 5 radiation field variations that are arranged to form 1, 3,
5, 7, and 9 dose reduction regions. Then, the third stage of simulation modeled a
water phantom with dimensions of 35 × 40 × 38 ????????3
. After the three steps are
completed, the resulting dose distribution data will be analyzed at ???? = ???????????????? .
Analysis of the x-axis profile (parallel to the direction of motion of the MLC) shows
that the leaf-end MLC geometry causes a 23% increase in dose at ???? = 0. While the
analysis of the y-axis profile (orthogonal to the direction of motion of the MLC)
shows that the interleaf MLC geometry causes a decrease in dose with varying
values in the range of 7-12% in certain areas according to the variation of the
radiation field used. Thus, this study provides insight into the tongue-and-groove
effect that causes inhomogeneity in radiotherapy dose distribution.
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