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multileaf collimator
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تکرار جستجوی کلیدواژه multileaf collimator در مقالات مجلات علمی
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IntroductionThis study investigates basic dosimetric properties of unflattened 6 MV photon beam shaped by multileaf collimator and compares them with those of flattened beams.Materials and MethodsMonte Carlo simulation model using BEAM code was developed for a 6MV photon beam based on Varian Clinic 600 unique performance linac operated with and without a flattening filter in beam line. Dosimetric features including lateral profiles, central axis depth dose, photon and electron spectra were calculated for flattened and unflattened cases, separately.ResultsAn increase in absolute depth dose with a factor of more than 2.4 was observed for unflattened beam which was dependent on depth. PDDs values were found to be lower for unflattened beam for all field sizes. Significant decrease in calculated mlc leakage was observed when the flattening filter was removed from the beam line. The total scatter factor, SCP was found to show less variation with field sizes for unflattened beam indicating a decrease in head scatter. The beam profiles for unflattened case are found to have lower relative dose value in comparison with flattened beam near the field edge, and it falls off faster with distance.ConclusionOur study showed that increase in the dose rate and lower peripheral dose could be considered as realistic advantages for unflattened 6MV photon beams.Keywords: Monte Carlo Simulation, Flattening Filter Free Beams, Multileaf Collimator
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BackgroundBefore treatment planning and dose delivery, quality assurance of multi-leaf collimator (MLC) has an important role in intensity-modulated radiation therapy (IMRT) due to the creation of multiple segments from optimization process.ObjectiveThe purpose of this study is to assess the quality control of MLC leaves using EBT3 Gafchromic films.Material and MethodsLeaf Position accuracy and leaf gap reproducibility were checked with Garden fence test. The garden fence test consists of 5 thin bands A) 0.2 Cm width spaced at 2 Cm intervals and B) 1 Cm width spaced at 1 Cm intervals. Each leaf accuracy was analyzed with measuring the full-width half-maximum (FWHM). Maximum and average leaf transmission were measured with gafchromic EBT3 films from Ashland for both 6 MV and 18 MV beams.ResultsLeaf positions were found to be in a range between 1.78 – 2.53 mm, instead of nominal 2 mm for the test A and between 9.09 – 10.36 mm, instead of nominal 10 mm for the test B. The Average radiation transmission of the MLC was noted 1.79% and 1.98% of the open 10x10 Cm2 field at isocenter for 6 MV and 18 MV beams, respectively. Maximum radiation transmission was noted 4.1% and 4.4% for 6 MV and 18 MV beams, respectively.ConclusionIn this study, application of gafchromic EBT3 films for the quality assurance of Euromechanics multileaf collimator was studied. Our results showed that the average leaf leakage and positional accuracy of this type of MLC were in the acceptance level based on the Protocols.Keywords: Multileaf Collimator, Mechanical Test, Garden Fence Test, Leaf Transmission, Leaf End Transmission
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IntroductionGeometric changes in the multileaf collimator (MLC) led to dosimetric considerations in intensity-modulated radiation therapy (IMRT) due to the number and size of the pixels in the intensity map, which are determined by the MLC leaf width. In this study, we evaluated the dosimetric effects of different MLC widths on physical dose distributions for IMRT plans.Materials And MethodsForty-two IMRT plans based on different MLC devices were generated and analyzed to study the effect of MLC width on plan quality.ResultsImprovements in IMRT plan quality using 0.4 cm leaf width in comparison with 1 cm leaf width were evaluated. The 0.4 cm leaf-based plans resulted in significantly higher Dmean, D98%, D95% , D5%, and V95 (58.86 Gy, 95.11%, 96.57%, 104%, and 97.92%, respectively) compared to the 1 cm leaf plans (58.66 Gy, 92.56%, 94.56%, 104.14%, and 95.72%, respectively). Conformation number (CN) for planning target volume in 0.4 cm leaf plans was significantly higher than the 1 cm leaf plans (0.74 vs. 0.67; PConclusionNo significant clinical differences were observed between the two plans for a serially functioning tissue, while the differences in mean doses were statistically significant for parallel functioning normal tissues.Keywords: Multileaf Collimator, Intensity, Modulated Radiation Therapy, Dose Distribution
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مقدمهسیستم مولتی لیف کولیماتور از جمله سیستمهای شکل دهنده میدان تابش در پرتو درمانی تطابقی است. به کارگیری این سیستم منجر به صرفه جویی در زمان درمان، افزایش دقت در انطباق میدانهای تابش از دید منبع تابش با سطح مقطع حجم هدف و کاهش اشتباهات احتمالی تکنسینهای بخشهای پرتو درمانی می شود. هدف از انجام این تحقیق طراحی و ساخت بخش مکانیکی سیستم مولتی لیف کولیماتور است.مواد و روش هااجزاء تشکیل دهنده این سیستم عبارتند از: صفحه پایه، 52 عدد تیغه، حامل تیغه ها (2 عدد)، پایه نگهدارنده پیچهای حرکتی (2 عدد) و پیچ حرکتی از نوع رزوه مثلثی (52 عدد). تیغه ها به صورت دو به دو مقابل یکدیگر قرار گرفته اند. بنابراین شکل دهی میدان تابش توسط دو گروه 26 تایی از تیغه ها انجام می گیرد. به منظور افزایش محدوده حرکتی تیغه ها در ایجاد شکل میدان تابش کاملا نامتقارن، سیستم به گونه ای طراحی گردیده است که هر گروه از تیغه ها بر روی حامل جداگانه ای قرار دارد. اجزای تشکیل دهنده این سیستم از طریق روش های ماشین کاری ساخته شدند. این سیستم از قابلیت نصب و جداسازی در سیستمهای شتابدهنده خطی موجود برخوردار است. تیغه ها از جنس آلومینیوم ساخته شدند. ابعاد تیغه ها برابر 50×5×200 میلیمتر می باشند.نتایجوزن کل اجزا تشکیل دهنده این سیستم در حدود 37 کیلوگرم است. پهنای این تیغه ها در ایزوسنتر یک سیستم شتابدهنده واریان می تواند در حدود 10 میلیمتر باشد. حرکت تیغه ها توسط پیچهای رزوه مثلثی انجام می شود. حرکت این گونه پیچها به وجود اندکی لقی محوری نیازمند است که باعث کاهش دقت مکانی تیغه ها تا حدود 4/1 میلیمتر خواهد شد.بحث و نتیجه گیریمولتی لیف کولیماتور مشهد با طراحی و شکل موجود تقریبا 37 کیلوگرم وزن دارد. ولی اگر تیغه های آلومینیومی آن بوسیله تیغه های تنگستن جایگزین شون وزن کلی سیستم ممکن است از حد تحمل شتابدهنده بیشتر شود. بنابراین به منظور کاهش وزن آن باید تغییراتی در آن ایجاد شود. به منظور افزایش دقت مکانی تیغه ها، بهتر است بجای پیچ های رزوه مثلثی از پیچ های ساچمه ای و اولر کیج استفاده شود.
کلید واژگان: سیستم مولتی لیف کولیماتور، نمونه آزمایشی، بخش مکانیکی، طراحی و ساختIntroductionMultileaf collimator (MLC) is state of the art among the radiation field shaping systems for conformal radiotherapy techniques. Some advantages of this system are as follow: reduction of treatment time, higher precision in conforming the radiation field to the projection of the target volume and lowering the chance of errors made by technologists. The purpose of this research was to design and construct the mechanical section of a prototype MLC.Material And MethodsThe MLC consists of a base plate, 52 leaves, 2 leaf carriages, 2 nuts and 52 triangular thread screws. The leaves are arranged in two opposing banks each containing 26 leaves. The carriages are used to extend the movement of the leaves. The components of the MLC are fabricated by machining processes. The MLC is designed to be mounted on the conventional linear accelerators as an add-on accessory. The leaves were made of aluminum. The dimensions of the leaves are 5 x 200 x 50 mm.ResultThe collimator system weighs approximately 37kg excluding the leaves. The projected width of each leaf on the isocenter of a Varian linear accelerator is 10 mm. The movement of the leaves is accomplished by using the triangular thread screws. The screws required to have a low axial backlash which in turn results in lower precision positioning of the leaves. The positioning accuracy of each leaf is approximately 1.4 mm. Discussion andConclusionMashhad MLC system, in it’s present form and design weighs 37 kg. but if Aluminum blades are replaced by tungsten ones then the over all weights of MLC may exceed the weight limit a linac may hold. Therefore futher modifications are required to reduce the MLC total weight. It is desirable to use ball screws and roller cages instead of triangular thread screws to achive a higher positioning pereision of the blades.Keywords: Multileaf Collimator, Design, Fabrication, Mechanical part
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