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Your search keyword '"Diyona, Fiqi"' showing total 14 results
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14 results on '"Diyona, Fiqi"'

1. A prospect of verification on volumetric modulated arc therapy (VMAT) technique: SHANE phantom.

Author

Ulya, Syarifatul, Ryangga, Dea, Suharsono, Suharsono, Diyona, Fiqi, Fadli, Muhamad, Budiantari, Caecilia Tuti, Hidayati, Nur Rahmah, and Prasetio, Heru

Subjects
VOLUMETRIC-modulated arc therapy, INHOMOGENEOUS materials, COMPUTED tomography, RADIOTHERAPY
Abstract

In Indonesia, approximately 40 percent of radiotherapy patient treatment uses advanced radiation treatment technologies. These technologies have improved the quality of radiation treatment, especially in head and neck cases, for that reason the research aims to analyze the verification methods using SHANE Phantom to improve the accuracy and precision of dose delivery to radiotherapy patients. This study used a CT image of the SHANE Phantom from the IAEA project in the dosimetry audit program which included delineation of the target and OAR. The method of this study evaluated end-to-end test treatment radiation for Volumetric Arc Therapy (VMAT) technique, starting from the pre-treatment planning which cover the output factor (OF) and profile and picket fence test on MLC, and then continuing the treatment planning evaluate the result of the target and OAR. In the end, the post-treatment planning is by doing QA plan which uses the IBA MatrixFFF and Octavious 4D phantom. The parameter agreement of gamma index analysis is 3%/3 mm and 10% threshold. For the profile dose evaluation, the highest difference is 0.2 cm in the cross-plane of Eclipse. The evaluation of the treatment planning for SHANE phantom result in the target using eclipse are 66 Gy (D98%), 66.7 Gy (D95%), 70.6 Gy (D50%), and 72.5 Gy (D2%) while in Monaco, the difference is only 1–2 Gy for PTV. It is because the Monte Carlo algorithm account for inhomogeneous medium and considering scatter. Furthermore, the dose constraint in all of the OAR is lower than the IAEA recommendation, with the assessment using the maximum or mean doses depending on the organs. Meanwhile, the gamma index measurement is 96.1% (Monaco) on Octavius and 98.7% (Eclipse 1) on matrixFFF. It can be drawn that SHANE Phantom can be implemented for the evaluation of the VMAT technique. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Dosimetric Characterization of 3D Printed Bolus with Polylactic Acid (PLA) in Breast Cancer External Beam Radiotherapy.

Author

Yuliandari, Annisa, Oktamuliani, Sri, Harmadi, and Diyona, Fiqi

Subjects
BOLUS radiotherapy, POLYLACTIC acid, ELECTRON density, EXTERNAL beam radiotherapy, SPECIFIC gravity, BREAST
Abstract

Introduction: In this study, 3-Dimention (3D) polylactic acid (PLA) bolus were characterized as human tissue equivalent and specially designed for use in electron radiotherapy of breast cancer. Material and Methods: This study uses the main material PLA with variations in the infill percentage when printing, which is (20, 40, 60, 80, and 100) %. Dosimetric characterization included measuring the value of Relative Electron Density (RED) and measuring the absorbed dose using LINAC 15 MeV, which was tested using a breast mannequin and compared with a commercial bolus at Andalas University Hospital. Results: The results showed that the 3D bolus made of PLA provided uniformity in terms of thickness so that every part of the body surface covered by the bolus would get an even dose. 3D bolus made of PLA in all variations in the infill percentage had a RED value equivalent to human tissue. They can help ensure that the bolus does not significantly change the radiation dose distribution, achieving optimal treatment outcomes. However, a bolus with an infill percentage of 20% has a RED value closest to the breast RED, which is 0.99 and can absorb radiation of 1.98 Gy more optimally compared to a commercial bolus that can absorb 1.97 Gy from 2 Gy doses given. Conclusion: The 3D bolus made of PLA can be an effective alternative for treating breast cancer using electron radiotherapy [ABSTRACT FROM AUTHOR]

Published
2024
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14. ANALISIS PENGARUH SUDUT PENYINARAN TERHADAP DOSIS PERMUKAAN FANTOM BERKAS RADIASI GAMMA Co-60 PADA PESAWAT RADIOTERAPI

Author

DIYONA, FIQI

Subjects
U Military Science (General)
Abstract

Telah dilakukan pengukuran dan perhitungan pengaruh sudut penyinaran terhadap dosis radiasi permukaan fantom dengan menggunakan thermoluminescence-dosemeter-100 (TLD-100). Penelitian dilaksanakan di instalasi radioterapi RSUP DR. M. Djamil Padang menggunakan pesawat terapi Co-60. Teknik penyinaran dengan kondisi SSD 80 cm dan luas lapangan (10 x 10) cm. Faktor kalibrasi TLD-100 adalah 0,022 cGy/nC. Penelitian dilakukan dengan memvariasikan variasi sudut penyinaran dari 0° hingga 170°. Nilai dosis radiasi permukaan fantom berkisar antara 70,415 cGy hingga 102,341 cGy. Hasil perhitungan menunjukkan dosis radiasi pada permukaan fantom tidak linear terhadap kenaikan sudut penyinaran. Untuk hasil evaluasi sudut penyinaran yang sering digunakan untuk terapi pasien adalah sudut 0°. Sudut penyinaran tidak memberikan efek kesembuhan pada pasien terapi kecuali untuk melindungi organ kritis disekitar kanker. Kata kunci: dosis radiasi permukaan, TLD-100, faktor kalibrasi, sudut penyinaran

Published
2016

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