S. Febriana scite author profile

The application of nanomaterials in the treatment of various types of diseases continues to increase, including the use of silver nanoparticles (AgNPs). However, there still limitation in terms of the research on labelling AgNPs using radioactive compound such as 131I. The aim of this study is to carry out a method on 131I radiolabelling of AgNPs by using Iodogen as an iodination reagent. The radiolabelled 131I-AgNPs were then purified by using Sephadex-25 column chromatography with 0,05 M phosphate buffer solution as mobile phase for the first purification and HEPES solution for the second purification. The radiochemical purity of radiolabelled 131I-AgNPs was then determined by using autoradiography scanner. 131I-AgNPs with a purity 94,5±0,2121% were obtained after the purification. Stability test of the 131I-AgNPs was carried out by determining the radiochemical purity of the 131I-AgNPs on the first day until the fifth day of storage in the room temperature and refrigerator. The best stability of the 131I-AgNPs after purification resulted in radiochemical purity >90% until the fourth day and <90% on the fifth and subsequent days in both storages. This result shows that storage in the refrigerator can be a better choice rather than in the room temperature.

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Deteksi Karakteristik Peluruhan Radionuklida Medis 99Mo Untuk Memperoleh 99mTc Menggunakan Spektrometer Gamma dengan Sumber Standar Cair Campuran 133Ba dan 152Eu

Mawar

Astuti

Febriana

2020

J. Fis. Indones.

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Technetium-99m (99mTc) is a subsidiary of metastable 99Mo with a half-life of 6 hours. The relatively short half-life, causing 99mTc widely used for diagnostic purposes in nuclear medicine, especially in bone scanning for a faster decay. This research aims to determine the optimal time to product formation of 99mTc until elution profiles have detected 99Mo energy. The instrument used is the 99Mo/99mTc generator with standard sources 133Ba and 152Eu liquid mixture. The results obtained showed that 99mTc radioisotope production is still good until the third day elution 99Mo, whereas in the fourth to ninth day 99Mo energy detected on the decline, so that the activity of the 99mTc resulting product cannot be used for diagnosis.

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S. Febriana

Validation of Simple Uv-Vis Spectrophotometry Method Based on Ich Q2 (R1) Guideline for the Analysis of Sodium Hypochlorite Using Rhodamine B

Surface modification of acid-functionalized mesoporous gamma-alumina for non-fission 99Mo/99mTc generator

Iodogen Method on Iodine-131 (¹³¹I) Radiolabelling of Silver Nanoparticle (AgNPs) as a New Agent of Molecular Imaging

Deteksi Karakteristik Peluruhan Radionuklida Medis 99Mo Untuk Memperoleh 99mTc Menggunakan Spektrometer Gamma dengan Sumber Standar Cair Campuran 133Ba dan 152Eu

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S. Febriana

Validation of Simple Uv-Vis Spectrophotometry Method Based on Ich Q2 (R1) Guideline for the Analysis of Sodium Hypochlorite Using Rhodamine B

Surface modification of acid-functionalized mesoporous gamma-alumina for non-fission 99Mo/99mTc generator

Iodogen Method on Iodine-131 (131I) Radiolabelling of Silver Nanoparticle (AgNPs) as a New Agent of Molecular Imaging

Deteksi Karakteristik Peluruhan Radionuklida Medis 99Mo Untuk Memperoleh 99mTc Menggunakan Spektrometer Gamma dengan Sumber Standar Cair Campuran 133Ba dan 152Eu

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Iodogen Method on Iodine-131 (¹³¹I) Radiolabelling of Silver Nanoparticle (AgNPs) as a New Agent of Molecular Imaging