Development of Movement Analysis Program and Its Feasibility Test in Streotactic Body Radiation Threrapy.
- Author:
Eunhyuk SHIN
1
;
Youngyih HAN
;
Hee Chul PARK
;
Jin Sung KIM
;
Jung Suk SHIN
;
Sang Gyu JU
;
Jihea LEE
;
Jong Ho AHN
;
Jaiki LEE
;
Doo Ho CHOI
Author Information
1. Department of Radiation Oncology, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. youngyih@skku.edu
- Publication Type:Original Article
- Keywords:
Stereotactic radiation therapy;
Respiratory gated radiation therapy;
Tumor motion during radiation therapy
- MeSH:
Humans;
Respiration;
Statistics as Topic
- From:Korean Journal of Medical Physics
2011;22(3):107-116
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Respiratory gated radiation therapy and stereotactic body radiation therapy require identical tumor motions during each treatment with the motion detected in treatment planning CT. Therefore, this study developed a tumor motion monitoring and analysis system during the treatments employing RPM data, gated setup OBI images and a data analysis software. A respiratory training and guiding program which improves the regularity of breathing was used to patients. The breathing signal was obtained by RPM and the recorded data in the 4D console was read after treatment. The setup OBI images obtained gated at 0% and 50% of breathing phases were used to detect the tumor motion range in crenio-caudal direction. By matching the RPM data recorded at the OBI imaging time, a factor which converts the RPM motion to the tumor motion was computed. RPM data was entered to the institute developed data analysis software and the maximum, minimum, average of the breathing motion as well as the standard deviation of motion amplitude and period was computed. The computed result is exported in an excel file. The conversion factor was applied to the analyzed data to estimate the tumor motion. The accuracy of the developed method was tested by using a moving phantom, and the efficacy was evaluated for 10 stereotactic body radiation therapy patients. For the sine wave motion of the phantom with 4 sec of period and 2 cm of peak-to-peak amplitude, the measurement was slightly larger (4.052 sec) and the amplitude was smaller (1.952 cm). For patient treatment, one patient was evaluated not to qualified to SBRT due to the usability of the breathing, and in one patient case, the treatment was changed to respiratory gated treatment due the larger motion range of the tumor than treatment planed motion. The developed method and data analysis program was useful to estimate the tumor motion during treatment.
