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Verification of Ir-192 near source dosimetry using GAFCHROMIC® film
1.R. Nath, H. Amols, C. Coffey, D. Duggan, S. Jani, Z. Li, M. Schell, C. G. Soares, J. Whiting, P. E. Cole, I. Crocker, and R. Schwartz, “Intravascular brachytherapy physics: Report of the AAPM Radiation Therapy Committee Task Group No. 60,” Med. Phys. 26, 119–152 (1999).
2.R. Nath, L. L. Anderson, G. Luxton, K. A. Weaver, J. F. Williamson, and A. S. Meigooni, “Dosimetry of interstitial brachytherapy sources: Recommendations of the AAPM Radiation Therapy Committee Task Group No. 43,” Med. Phys. 22, 209–234 (1995).
3.A. E. Ajani, H. S. Kim, and R. Waksman, “Clinical trials of vascular brachytherapy for in-stent restenosis: Update,” Cardiovasc. Radiat. Med. 2, 107–113 (2001).
4.D. Baltas, P. Karaiskos, P. Papgiannis, L. Sakelliou, E. Loeffler, and N. Zamboglou, “Beta versus gamma dosimetry close to Ir-192 brachytherapy sources,” Med. Phys. 28, 1875–1882 (2001).
5.N. C. Yang and R. Chan, “Beta particle and conversion electron effects on Ir-192 dosimetry in intravascular brachytherapy,” Med. Phys. 28, 1182 (2001).
6.N. S. Patel, S. T. Chiu-Tsao, J. A. Shih, H. S. Tsao, and L. B. Harrison, “Effect of conversion, Auger, and primary beta rays on the dose distribution of an Ir-192 seed/train used in intravascular brachytherapy,” Med. Phys. 28, 1182–1183 (2001).
7.R. Chan, C. G. Soares, and S. T. Chiu-Tsao, “GAFCHROMIC film dosimetry for Ir-192 seeds at distances close to the source,” Med. Phys. 24, 1019 (1997).
8.N. Reynaert, M. V. Eijkeren, Y. Taeymans, and H. Thierens, “Dosimetry of Ir-192 sources used for endovascular brachytherapy,” Phys. Med. Biol. 46, 499–516 (2001).
9.A. Niroomand-Rad, C. R. Blackwell, B. M. Coursey, K. P. Gall, J. M. Galvin, W. L. McLaughlin, A. S. Meigooni, R. Nath, J. E. Rodgers, and C. G. Soares, “Radiochromic film dosimetry: Recommendations of AAPM Radiation Therapy Committee Task Group 55,” Med. Phys. 25, 2093–2115 (1999).
10.D. M. Duggan, J. L. Lobdell, and M. C. Schell, “Radiochromic film dosimetry of a high dose rate beta source for intravascular brachytherapy,” Med. Phys. 26, 2461–2464 (1999).
11.N. V. Klassen, L. van der Zwan, and J. Cygler, “GAFCHROMIC MD-55: Investigated as a precision dosimeter,” Med. Phys. 24, 1924–1934 (1997).
12.J. F. Dempsey, D. A. Low, S. Mutic, J. Markman, A. S. Kirov, G. H. Nussbaum, and J. F. Williamson, “Validation of a precision radiochromic film dosimetry system for quantitative two-dimensional imaging of acute exposure dose distributions,” Med. Phys. 27, 2462–2475 (1996).
13.T. D. Bohm, D. W. Pearson, and R. K. Das, “Measurements and Monte Carlo calculations to determine the absolute detector response of radiochromic film for brachytherapy dosimetry,” Med. Phys. 28, 142–146 (2001).
14.R. Wang and X. A. Li, “A Monte Carlo calculation of dosimetric parameters of and SS sources for intravascular brachytherapy,” Med. Phys. 27, 2528–2535 (2000).
15.N. S. Patel, S. T. Chiu-Tsao, Y. Ho, T. Duckworth, J. A. Shih, H. S. Tsao, H. Quon, and L. B. Harrison, “High beta and electron dose from implications for ‘gamma’ intravascular brachytherapy,” Int. J. Radiat. Oncol., Biol., Phys. 54, 972–980 (2002).
16.G. M. Daskalov, E. Loffler, and J. F. Williamson, “Monte Carlo-aided dosimetry of a new high dose-rate brachytherapy source,” Med. Phys. 25, 2200–2208 (1998).
17.S. J. Ye, E. Ishmael, and J. J. Feldmeier, “Dosimetric characteristics of a linear array of γ or β-emitting seeds in intravascular irradiation: Monte Carlo studies for the AAPM TG-43/60 formalism,” Med. Phys. 30, 403–414 (2003).
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