Evaluation of absorbed dose in monkey and mouse using 18F-FDG PET and CT density information |
Kim, Wook
(Division of RI-convergence Research, Korea Institute of Radiological and Medical Sciences)
Lee, Yong Jin (Division of RI-convergence Research, Korea Institute of Radiological and Medical Sciences) Park, Yong Sung (Division of RI-convergence Research, Korea Institute of Radiological and Medical Sciences) Cho, Doo-Wan (Jeonbuk Department of Inhalation Research, Korea Institute of Toxicology, KRICT) Lee, Hong-Soo (Jeonbuk Department of Inhalation Research, Korea Institute of Toxicology, KRICT) Han, Su-Cheol (Jeonbuk Department of Inhalation Research, Korea Institute of Toxicology, KRICT) Kang, Joo Hyun (Division of RI-convergence Research, Korea Institute of Radiological and Medical Sciences) Woo, Sang-Keun (Division of RI-convergence Research, Korea Institute of Radiological and Medical Sciences) |
1 | Zanzonico PB. Internal Radionuclide Radiation Dosimetry: A Review of Basic Concepts and Recent. J Nucl Med 2000; 41: 297-308. |
2 | Sgouros G, Frey E, Wahl R, He B, Prideaux A, Hobbs R. Three-dimensional imaging-based radiobiological dosimetry. In Seminars in nuclear medicine WB Saunders 2008; 38: 321-334. |
3 | Stabin MG. MIRDOSE: personal computer software for internal dose assessment in nuclear medicine. Journal of Nuclear Medicine 1996; 37: 538-546. |
4 | Snyder WS, Ford MR, Warner GG, Watson SB. S absorbed dose per unit cumulated activity for selected radionuclides and organs. MIRD pamphlet 1975; 11: 5-257. |
5 | Stabin MG, Tagesson M, Thomas SR, Ljungberg M, Strand SE. Radiation dosimetry in nuclear medicine. Applied Radiation and Isotopes 1999; 50: 73-87. DOI |
6 | Sgouros G, Kolbert KS, Sheikh A, Pentlow KS, Mun EF, Barth A, Robin RJ, Larson SM. Patient-specific dosimetry for 131I thyroid cancer therapy using 124I PET and 3-dimensional-internal dosimetry (3D-ID) software. Journal of Nuclear Medicine 2004; 45: 1366-1372. |
7 | Rogers DWO. Fifty years of Monte Carlo simulations for medical physicsThis paper is dedicated to W Ralph Nelson and to the memory of Martin J Berger, two men who have left indelible marks on the field of Monte Carlo simulation of electron-photon transport. Physics in medicine and biology 2006; 51: 287-301. DOI |
8 | Hendricks JS, Briesmeister JF. Recent MCNP developments. IEEE transactions on nuclear science 1992; 39: 1035-1040. DOI |
9 | Furhang EE, Chui CS, Kolbert KS, Larson SM, Sgouros G. Implementation of a Monte Carlo dosimetry method for patient-specific internal emitter therapy. Medical physics 1997; 24: 1163-1172. DOI |
10 | Clairand I, Ricard M, Gouriou J, Di Paola M, Aubert B. DOSE3D: EGS4 Monte Carlo code-based software for internal radionuclide dosimetry. The Journal of Nuclear Medicine 1999; 40: 1517-1523. |
11 | Park YS, Lee YJ, Kim W, Ji YH, Kim KB, Kang JH, Lim SM, Woo SK. Image-based Absorbed Dosimetry of Radioisotope. Prog Med Phys 2016; 27: 86-91. DOI |
12 |
Huang SY, Bolch WE, Lee C, Van Brocklin HF, Pampaloni MH, Hawkins RA, Sznewajs A, Dubois SG, Matthay KK, Seo Y. Patient-specific dosimetry using pretherapy [ |
13 | Stabin MG, Yoriyaz H. Photon specific absorbed fractions calculated in the trunk of an adult male voxel-based phantom. Health physics 2002; 82: 21-44. DOI |
14 | Bardies, M. Patient-specific dosimetry in molecular radiotherapy: Why and how. Physica Medica 2016; 32: 192-193. |
![]() |