Ex) Article Title, Author, Keywords
Ex) Article Title, Author, Keywords
Korean Journal of Medical Physics 2009; 20(4): 260-268
Published online December 25, 2009
Copyright © Korean Society of Medical Physics.
Hun-Joo Shin*¶, Young-Nam Kang†, Jisun Jang‡¶, Jae-Hyuk Seo*¶, Ji-Young Jung§, Byung-Ock Choi†, Ihl-Bohng Choi*, Dong-Joon Lee∥, Soo-Il Kwon¶
신헌주*¶ㆍ강영남†ㆍ장지선‡¶ㆍ서재혁*¶ㆍ정지영§ㆍ최병옥†ㆍ최일봉*ㆍ이동준∥ㆍ권수일¶
In this study, we estimated inhomogeneity correction factor in small field. And, we evaluated accuracy of treatment planning and measurement data which applied inhomogeneity correction factor or not. We developed the Inhomogeneity Correction Phantom (ICP) for insertion of inhomogeneity materials. The inhomogeneity materials were 12 types in each different electron density. This phantom is able to adapt the EBT film and 0.125 cc ion chamber for measurement of dose distribution and point dose. We evaluated comparison of planning and measurement data using ICP. When we applied to inhomogeneity correction factor or not, the average difference was 1.63% and 10.05% in each plan and film measurement data. And, the average difference of dose distribution was 10.09% in each measurement film. And the average difference of point dose was 0.43% and 2.09% in each plan and measurement data. In conclusion, if we did not apply the inhomogeneity correction factor in small field, it shows more great difference in measurement data. The planning system using this study shows good result for correction of inhomogeneity materials. In radiosurgery using small field, we should be correct the inhomogeneity correction factor, more exactly.
KeywordsInhomogeneity Correction Factor, Small field dosimetry, SRS, CyberKnife
pISSN 2508-4445
eISSN 2508-4453
Formerly ISSN 1226-5829
Frequency: Quarterly