Uji Klirens dan Uji Pirogenitas sebagai Bagian dari Penentuan Mutu Biologi Sediaan 90Y-EDTMP
VOLUME 8, NOMOR 2, AGUSTUS 2018
Articles
August 28, 2018
August 28, 2018
October 16, 2018
October 16, 2018
Downloads
1.
Sulaiman S, Aguswarini S, Karyadi K, Chairuman C, Setiawan G, HG A, Subur M. Uji Klirens dan Uji Pirogenitas sebagai Bagian dari Penentuan Mutu Biologi Sediaan 90Y-EDTMP. jki [Internet]. 2018 Oct. 16 [cited 2026 Apr. 20];8(2):118-24. Available from: https://jkefarind.com/index.php/jki/article/view/352
Downloads
Download data is not yet available.
1. Sohaib M, Ahmad M, Jehangir M, Perveen A. Ethylene diamine tetramethylene phosphonic acid labeled with various beta(-)-emitting radiometals: labeling optimization and animal biodistribution. Cancer Biotherapy and. Radiopharmaceutical. 2011;26(2):159–64.
2. Chakravarty R, Pandey U, Manolkar RB, Dash A, Venkatesh M, Pillai MRA. Development of an electrochemical 90Sr-90Y generator for separation of 90Y suitable for targeted therapy. Nuclear Medicine and Biology. 2008;35(2):245–53.
3. Petrovic D, Nikolic N, Stankovic D, Djokic D. Electrochemical separation of 90-Yttrium in the electrochemical 90Sr/90Y generator and its use for radiolabelling of DOTA-conjugated somatostatin analog [DOTA0, Tyr3] octreotate. Nuclear Technology & Radiation Protection. 2012;27(3):260–8.
4. Sulaiman, Aguswarini S, Karyadi, Chairuman, Setiawan G, Subur M, et al. Uji biodistribusi senyawa 90Y-sitrat dan 90Y-EDTMP yang ditandai dengan 90Y hasil elusi dari generator 90Sr/90Y. Prosiding Pertemuan Ilmiah Tahunan Perhimpunan Kedokteran Nuklir Indonesia (PKNI), Perhimpunan Kedokteran dan Biologi Nuklir Indonesia (PKBNI), dan Pusat Teknologi Radioisotop dan Radiofarmaka (PTRR); 2015. p. 1–8.
5. Pandey U, Kameswaran M, Subramanian S, Chakrafarty R, Sarma HD, Samuel G, et al. Development of Radiopharmaceuticals Based on 188Re and 90Y for Radionuclide Therapy at Barc. In IAEA radioisotopes and radiopharmaceuticals series, no. 5. Yttrium-90 and Rhenium-188 radiopharmaceuticals for radionuclide therapy; 2015; Vienna, Austria. IAEA; 2015. p. 82–106.
6. Sulaiman, Aguswarini S, Karyadi, Chairuman, Setiawan G, Subur M, et al. Optimasi penggunaan HCl sebagai larutan pengelusi. Urania. 2015;21(2):87–94.
7. Ramli M, Hidayat B, Aguswarini S, Karyadi, Ardiyatno CN, Subur M., et al. Preclinical study of 177Lu-DOTA-trastuzumab: a potential radiopharmaceutical for therapy of breast cancer postive HER-2. Jurnal Ilmu Kefarmasian Indonesia. 2013;11(2): 116-22.
8. Khalid M, Bokhari TH, Ahmad M, Bhatti HN, Iqbal M, Ghaffar A, et al. Evaluation of carrier added and no carrier added 90Y-EDTMP as bone seeking therapeutic radiopharmaceutical. Pakistan Journal of Pharmaceutical Sciences. 2014;27(4):813–8.
9. Riccabona G. Dosimetry in Radionuclide Therapy. In: Therapeutic applications of radiopharmaceuticals, IAEA-TECDOC- 1228; 1999 Jan 18-22; Hyderabad, India. Vienna, Austria: IAEA; 2001
10. Hardi A, Rista S, Mutalib A, Sugiharto Y, Dini R, Aguswarini S. Preparasi, biodistribusi dan clearance senyawa pengkontras MRI Gd-DTPA-PAMAM G4-NIMOTUZUMAB melalui simulasi menggunakan 153Gd-DTPA-PAMAM G4-NIMOTUZUMAB. Seminar Nasional VI SDM Teknologi Nuklir; 2010 November 18; Yogyakarta, Indonesia.
11. Parasuraman S. Toxicological screening. Journal of Pharmacology & Pharmacotherapeutics. 2011;2(2):74–9.
12. International Pharmacopoeia. 5th ed. Geneva: World Health Organization; 2015.
13. Ranjbar H, Samani AB, Beiki D, Arani SS, Maragheh MG. Evaluation of 153 Sm /177 Lu-EDTMP mixture in wild-type rodents as a novel combined palliative treatment of bone pain agent. Journal of Radioanalytical and Nuclear Chemistry. 2015;303:71–9.
14. Samani AB, Maragheh MG, Jalilian AR, Meftahi M, Arani SS, Moradkhani S. Production, quality control and biological evaluation of Sm-EDTMP in wild-type rodents. Iranian Journal of Nuclear Medicine. 2009;17(2):12–9.
2. Chakravarty R, Pandey U, Manolkar RB, Dash A, Venkatesh M, Pillai MRA. Development of an electrochemical 90Sr-90Y generator for separation of 90Y suitable for targeted therapy. Nuclear Medicine and Biology. 2008;35(2):245–53.
3. Petrovic D, Nikolic N, Stankovic D, Djokic D. Electrochemical separation of 90-Yttrium in the electrochemical 90Sr/90Y generator and its use for radiolabelling of DOTA-conjugated somatostatin analog [DOTA0, Tyr3] octreotate. Nuclear Technology & Radiation Protection. 2012;27(3):260–8.
4. Sulaiman, Aguswarini S, Karyadi, Chairuman, Setiawan G, Subur M, et al. Uji biodistribusi senyawa 90Y-sitrat dan 90Y-EDTMP yang ditandai dengan 90Y hasil elusi dari generator 90Sr/90Y. Prosiding Pertemuan Ilmiah Tahunan Perhimpunan Kedokteran Nuklir Indonesia (PKNI), Perhimpunan Kedokteran dan Biologi Nuklir Indonesia (PKBNI), dan Pusat Teknologi Radioisotop dan Radiofarmaka (PTRR); 2015. p. 1–8.
5. Pandey U, Kameswaran M, Subramanian S, Chakrafarty R, Sarma HD, Samuel G, et al. Development of Radiopharmaceuticals Based on 188Re and 90Y for Radionuclide Therapy at Barc. In IAEA radioisotopes and radiopharmaceuticals series, no. 5. Yttrium-90 and Rhenium-188 radiopharmaceuticals for radionuclide therapy; 2015; Vienna, Austria. IAEA; 2015. p. 82–106.
6. Sulaiman, Aguswarini S, Karyadi, Chairuman, Setiawan G, Subur M, et al. Optimasi penggunaan HCl sebagai larutan pengelusi. Urania. 2015;21(2):87–94.
7. Ramli M, Hidayat B, Aguswarini S, Karyadi, Ardiyatno CN, Subur M., et al. Preclinical study of 177Lu-DOTA-trastuzumab: a potential radiopharmaceutical for therapy of breast cancer postive HER-2. Jurnal Ilmu Kefarmasian Indonesia. 2013;11(2): 116-22.
8. Khalid M, Bokhari TH, Ahmad M, Bhatti HN, Iqbal M, Ghaffar A, et al. Evaluation of carrier added and no carrier added 90Y-EDTMP as bone seeking therapeutic radiopharmaceutical. Pakistan Journal of Pharmaceutical Sciences. 2014;27(4):813–8.
9. Riccabona G. Dosimetry in Radionuclide Therapy. In: Therapeutic applications of radiopharmaceuticals, IAEA-TECDOC- 1228; 1999 Jan 18-22; Hyderabad, India. Vienna, Austria: IAEA; 2001
10. Hardi A, Rista S, Mutalib A, Sugiharto Y, Dini R, Aguswarini S. Preparasi, biodistribusi dan clearance senyawa pengkontras MRI Gd-DTPA-PAMAM G4-NIMOTUZUMAB melalui simulasi menggunakan 153Gd-DTPA-PAMAM G4-NIMOTUZUMAB. Seminar Nasional VI SDM Teknologi Nuklir; 2010 November 18; Yogyakarta, Indonesia.
11. Parasuraman S. Toxicological screening. Journal of Pharmacology & Pharmacotherapeutics. 2011;2(2):74–9.
12. International Pharmacopoeia. 5th ed. Geneva: World Health Organization; 2015.
13. Ranjbar H, Samani AB, Beiki D, Arani SS, Maragheh MG. Evaluation of 153 Sm /177 Lu-EDTMP mixture in wild-type rodents as a novel combined palliative treatment of bone pain agent. Journal of Radioanalytical and Nuclear Chemistry. 2015;303:71–9.
14. Samani AB, Maragheh MG, Jalilian AR, Meftahi M, Arani SS, Moradkhani S. Production, quality control and biological evaluation of Sm-EDTMP in wild-type rodents. Iranian Journal of Nuclear Medicine. 2009;17(2):12–9.
