Asrowy, Sundari (2023) Pengembangan Fantom Antropomorfik Tiroid Untuk Diagnosa dan Terapi Dalam Aplikasi Kedokteran Nuklir. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Diagnosa dan terapi kedokteran nuklir membutuhkan proteksi radiasi, quality control (QC), dan dosimetri klinis dengan keakuratan tinggi untuk menghindari dampak negatif penggunaan radioaktif. Dalam penerapannya diperlukan jaminan kualitas pencitraan serta kalibrasi spektrometri gamma untuk studi dosimetri interna radionuklida. Sehingga diperlukan
fantom yang memiliki tingkat kemiripan tinggi dengan struktur jaringan manusia untuk menjamin kualitas citra. Tujuan tugas akhir ini membuat fantom tiroid dengan printer 3D dan mengetahui citra fantom. Model desain fantom dirancang menggunakan software Blender dan Solidwork. Fantom tiroid laki-laki dan wanita dewasa berhasil dibuat dengan bagian dalam berongga dan terdapat lubang pada setiap lobus sebagai tempat penginjeksian radiofarmaka untuk pencitraan kedokteran nuklir dengan kamera gamma. Radiofarmaka yang digunakan adalah Tc-99m yang dihasilkan dari generator Molibdenum. Radiofarmaka di ukur dosis terlebih dahulu menggunakan kalibrator dosis dan diinjeksikan kedalam fantom tiroid. Selanjutnya dilakukan proses scanning dibawah kamera gamma dengan jarak kolimator terhadap fantom sebesar 15 cm. Hasil penctitraan menunjukkan citra fantom tiroid laki-laki dan wanita dewasa berbentuk seperti kupu-kupu dan menyerupai organ tiroid yang sebenarnya serta ukuran citra fantom tiroid laki-laki dewasa sedikit lebih besar dari ukuran citra fantom tiroid wanita dewasa. Pada citra fantom juga menunjukkan radioisotop Tc-99m terdistribusi secara
seragam didalam fantom tiroid berdasarkan parameter skewness peta seleksi citra lobus yang mendekati 0.
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Nuclear medicine diagnosis and therapy require radiation protection, quality control (QC), and clinical dosimetry with high accuracy to avoid the negative effects of radioactive use. In its application, it is necessary to guarantee the quality of imaging and calibration of gamma
spectrometry for radionuclide internal dosimetry studies. So we need a phantom that has a high degree of similarity with the structure of human tissue to ensure image quality. This final project aims to make a thyroid phantom with a 3D printer and find the phantom image. The phantom design model was designed using Blender and Solidworks software. Thyroid phantoms of adult men and women were successfully made with a hollow interior and holes in each lobe as a place for radiopharmaceutical injection for nuclear medicine imaging with a gamma camera. The radiopharmaceutical used is Tc-99m which is produced from a Molybdenum generator. The radiopharmaceutical dose is measured first using a dose calibrator and injected into the thyroid phantom. Next, the scanning process is carried out under a gamma camera with a distance of 15 cm from the collimator to the phantom. The imaging results show that the thyroid phantom images of adult males and females are shaped like butterflies and resemble the actual thyroid organs, and the size of the thyroid phantom images of adult males is slightly larger than the size of the thyroid phantom images of adult females. The phantom image also shows that the Tc�99m radioisotope is uniformly distributed in the thyroid phantom based on the skewness parameter of the lobe image selection map, which is close to 0.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Nuclear Medicine, Phantom, Radiopharmaceuticals, Fantom, Kedokteran Nuklir, Radiofarmaka. |
| Subjects: | Q Science > QC Physics Q Science > QC Physics > QC795.5 Radioactivity and radioactive Instruments and apparatus (General) |
| Divisions: | Faculty of Science and Data Analytics (SCIENTICS) > Physics > 45201-(S1) Undergraduate Thesis |
| Depositing User: | Sundari Asrowy |
| Date Deposited: | 17 Jan 2024 08:32 |
| Last Modified: | 17 Jan 2024 08:32 |
| URI: | http://repository.its.ac.id/id/eprint/103370 |
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