Supriyanto A. Pawiro, Ph.D

supri_med

Supriyanto Pawiro lahir di Cilacap, Jawa Tengah. Beliau memperoleh gelar Sarjana dari Diponegoro University dan menerima gelar Master dari Universitas Indonesia mengambil jurusan Fisika Medis. Selanjutnya, beliau terlibat dalam Pelatihan Fisika Medis Klinis Fisika Radioterapi di Departemen Radioterapi, National Cancer Center of Singapore didanai oleh International Atomic Energy Agency (IAEA).

Ia meraih gelar doktor dalam bidang Fisika Medis di Pusat Fisika Medis dan Teknik BiomedisUniversitas Kedokteran Wina bekerja sama dengan Klinik Universitas Radioterapi dan Radiobiologi Universitas Kedokteran Wina/Allgemeines Krankenhaus der Stadt Wien (AKH), Sebelum kembali ke Indonesia, ia bekerja di Bagian Fisika Radiasi Medis, Divisi Kesehatan Manusia, IAEA sebagai magang.

Pengajaran:

Sarjana: Fisika Dasar, Fisika Radioterapi, Perencanaan Radioterapi, Pencitraan Resonansi Magnetik, Fisika Radiologi dan Dosimetri.

Program Pascasarjana : Perencanaan Radioterapi

Publikasi Pilihan
  1. D. Hardiansyah, A. Riana, P. Kletting, N. R. R. Zaid, M. Eiber, S. A. Pawiro, A. J. Beer and G. Glatting, A population-based method to determine the time-integrated activity in molecular radiotherapyEJNMMI Physics 8, 82 (2021).
  2. D. Hardiansyah, P. Kletting, N. J. Begum, M. Eiber, A. J. Beer, S. A. Pawiro, G. Glatting, Important pharmacokinetic parameters for individualization of 177Lu‐PSMA therapy: A global sensitivity analysis for a physiologically‐based pharmacokinetic modelFisika Medis 48, 556-568 (2021).
  3. P. Widodo, S. A. Pawiro, and I. P. Susila, Dosimetry for Intensity Modulated Radiotherapy (IMRT) Technique Using Ion Chamber Matrix (MatriXX-FFF) with Back Projection Method (Usual 6MV and 10MV)Journal of Physics: Conference Series 1505, 012015 (2020)
  4. F. Rosalina, N. Nasution, W. E. Wibowo, and S. A. Pawiro, The Impact of Corrected-MVCT Images to Dose Distribution on Adaptive Tomotherapy: Hepatocellular Carcinoma CaseJournal of Physics: Conference Series 1505, 012017 (2020)
  5. S. T. Tarigan, A. Nainggolan, M. Fadli, S. Liura, and S. A. Pawiro, Evaluation of Adaptive Planning of Lung Cases based on Cone Beam CT ImagesJournal of Physics: Conference Series 1505, 012020 (2020)
  6. W. Ardiatna, N. G. Pratiwi, S. A. Pawiro, K. T. Wigati, and D. S. Soejoko, Influence of Various Setup Parameters on Scattered Fraction in Interventional CardiologyJournal of Physics: Conference Series 1505, 012042 (2020)
  7. S. Suryaningsih, A. Nainggolan, M. Fadli, S. Liura, Fendinugroho, R. Tursinah, and S. A. Pawiro, The Characteristic of Profile and Depth Dose of Neutron Clinac iX 15 MVJournal of Physics: Conference Series 1505, 012027 (2020)
  8. I. Nistiyanti, A. M. Y. Putranto, F. Nugroho, A. Nainggolan, M. Fadli, S. Liura, R. Tursinah, and S. A. Pawiro, The Effect of Lung Tumors Target Movement on Neutron DoseJournal of Physics: Conference Series 1505, 012006 (2020)
  9. S. Wijanarko, A. Sudarmaji, and S. A. Pawiro, Calibration of mechanical systems of in-house dynamic thorax phantom for radiotherapy dosimetryJournal of Physics: Conference Series 1528, 012064 (2020)
  10. A. R. Fauzia, A. R. Setiadi, and S. A. Pawiro, Analysis of magnetic resonance image quality using an in-house phantom: Gamma knife applicationJournal of Physics: Conference Series 1528, 012013 (2020)
  11. I. N. Pranditayana, A. R. Setiadi, M. M. Ramadhan, D. Tandian, and S. A. Pawiro, Verification of dose distribution on the gamma knife perfexion radiosurgery using gafchromic EBT3 film: RANDO phantom studyJournal of Physics: Conference Series 1528, 012028 (2020)
  12. P. A. Pontoh, O. A. Firmansyah, A. R. Setiadi, D. Tandian, and S. A. Pawiro, Dose evaluation of organs at risk during treatment using gamma knife stereotactic radiosurgery (GKSRS): Phantom studyJournal of Physics: Conference Series 1528, 012014 (2020)
  13. R. Rahmawati, W. E. Wibowo, and S. A. Pawiro, Point dose measurements for brachytherapy with a cylinder applicatorJournal of Physics: Conference Series 1442, 012018 (2020)
  14. N. G. Pratiwi, W. Ardiatna, S. A. Pawiro, K. T. Wigati, and D. S. Soejoko, The optimization of radiation protection to interventional cardiologistsJournal of Physics: Conference Series 1434, 012002 (2020)
  15. W. H. Round , S. Jafari, T. Kron, H. A. Azhari, S. Chhom, Y. Hu, G. F. Mauldon, K. Y. Cheung, T. Kuppusamy, S. A. Pawiro, L. E. Lubis, D. S. Soejoko, F. Haryanto, M. Endo, Y. Han, T. S. Suh, K. H. Ng, A. Luvsan-Ish, S. O. Maung, P. P. Chaurasia, S. M. A. Jafri, S. Farrukh, A. Peralta, H. J. Toh, S. Sarasanandarajah, A. C. Shiau, A. Krisanachinda, S. Suriyapee, S. Vinijsorn, T. C. Nguyen, Brief histories of medical physics in Asia-OceaniaAustralasian Physical & Engineering Sciences in Medicine 38, 381-398 (2015).
  16. Lukmanda Evan Lubis, Ika Bayuadi, Supriyanto Ardjo Pawiro, Kwan-Hoong Ng, Hilde Bosmans, Djarwani Soeharso Soejoko, Optimization of dose and image quality of paediatric cardiac catheterization procedurePhysica Medica 31, 659-668 (2015).
  17. Daniella Fabri, Valentina Zambrano, Amon Bhatia, Hugo Furtado, Helmar Bergmann, Markus Stock, Christoph Bloch, Carola Lütgendorf-Caucig, Supriyanto Pawiro, Dietmar Georg, Wolfgang Birkfellner, Michael Figl, A quantitative comparison of the performance of three deformable registration algorithms in radiotherapyZeitschrift für Medizinische Physik 23, 279-290 (2013).
  18. C. Gendrin,   H. Futado, C. Weber, C. Bloch, M. Figl, S.A. Pawiro, H. Bergmann, M. Stock, G. Ficthinger, D. Georg, W. Birkfellner. Monitoring tumor motion by real time 2D/3D registration during radiotherapy during radiotherapyRadiotherapy and Oncology 102(2): 274-280 (2012)
  19. J. Spoerk, C. Gendrin, C. Weber, M. Figl, S.A. Pawiro, H. Furtado, D. Fabri, C. Bloch, H. Bergmann, E. Groller, W. Birkfellner. High Performance GPU-based rendering for real-time, rigid 2D/3D-image registration and motion prediction in radiation oncology. Zeitschrift fuer Medizinische Physik 22 (1) : 13-20 (2012).
  20. H. Furtado, C. Gendrin, C. Bloch, J. Spoerk, S.A. Pawiro, C. Weber, M. Figl, M. Stock, D. Georg, H. Bergmann, W. Birkfellner, Real-time 2D/3D registration for tumor motion tracking during radiotherapy, Progress in Biomedical Optics and Imaging – Proceedings of SPIE 8314 , 831407 (2012).
  21. S.A. Pawiro, P. Markelj, F. Pernus, C. Gendrin, M. Figl, C. Weber, F. Kainberger, I Nöbauer-huhmann, H. Bergmeister, M. Stock, D. Georg, H. Bergmann, and W. Birkfellner. Validation for 2D/3D Registration, Part 1: A New Gold Standard Data Set, Medical Physics, 38(3), 1481 – 1490 (2011)
  22. C. Gendrin, P. Markelj, S.A. Pawiro, J. Spoerk, C. Bloch, C. Weber, M. Figl, H. Bergmann, W. Birkfellner, B. Likar, F. Pernus. Validation for 2D/3D Registration, Part 2: the comparison of intensity and gradient based merit function using a new gold standard data set. Medical Physics, 38 (3), 1491 – 1502 (2011)
  23. M. Figl, C. Bloch, C. Gendrin, C. Weber, S.A. Pawiro, J. Hummel, P. Markelj, F. Pernus, H. Bergmann, W. Birkfellner. An Efficient implementation of the rank correlation merit function for 2D/3D registration. Phys.Med.Biol. 55, N465-N471 (2010)
Datasets :
  1. Steininger PNeuner MBirkfellner WGendrin CMooslechner MBloch CPawiro SSedlmayer FDeutschmann H.An ITK-based Implementation of the Stochastic Rank Correlation (SRC) Metric. Insight Journal
  2. Steininger PNeuner MBirkfellner WGendrin CMooslechner MBloch CPawiro SSedlmayer FDeutschmann H. SourceCode4 Source MSVC2fix reserve fix.
  3. Steininger PNeuner MBirkfellner WGendrin CMooslechner MBloch CPawiro SSedlmayer FDeutschmann H.IJ 776 Data