Back to Search Start Over

Investigation of beam delivery time for synchrotron-based proton pencil beam scanning system with novel scanning mode.

Authors :
Liang, Xiaoying
Liu, Chunbo
Furutani, Keith M
Shen, Jiajian
Bues, Martin
Dougherty, Jingjing M
Li, Heng
Parisi, Alessio
Shrestha, Deepak K
Yaddanpudi, Sridhar
Beltran, Chris
Source :
Physics in Medicine & Biology; 9/6/2022, Vol. 67 Issue 17, p1-14, 14p
Publication Year :
2022

Abstract

Objective. To investigate synchrotron-based proton pencil beam scanning (PBS) beam delivery time (BDT) using novel continuous scanning mode. Approach. A BDT calculation model was developed for the Hitachi particle therapy system. The model was validated against the measured BDT of 36 representative clinical proton PBS plans with discrete spot scanning (DSS) in the current Hitachi proton therapy system. BDTs were calculated with the next generation using Mayo Clinic Florida system operating parameters for conventional DSS, and novel dose driven continuous scanning (DDCS). BDTs of DDCS with and without Break Spots were investigated. Main results. For DDCS without Break Spots, the use of Stop Ratio to control the transit dose largely reduced the beam intensity and consequently, severely prolonged the BDT. DDCS with Break Spots was able to maintain a sufficiently high beam intensity while controlling transit dose. In DDCS with Break Spots, tradeoffs were made between beam intensity and number of Break Spots. Therefore, BDT decreased with increased beam intensity but reached a plateau for beam intensity larger than 10 MU s<superscript>âˆ'1</superscript>. Averaging over all clinical plans, BDT was reduced by 10% for DDCS with Break Spots compared to DSS. Significance. DDCS with Break Spots reduced BDT. DDCS has the potential to further reduce BDT under the ideal scenario which requests both stable beam intensity extraction and accurately modelling the transit dose. Further investigation is warranted. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00319155
Volume :
67
Issue :
17
Database :
Complementary Index
Journal :
Physics in Medicine & Biology
Publication Type :
Academic Journal
Accession number :
158603475
Full Text :
https://doi.org/10.1088/1361-6560/ac8410