EVALUATION THE PERFORMANCE OF DOSE CALCULATION ALGORITHMS FOR HOMOGENEOUS AND HETEROGENEOUS PHANTOMS IN SBRT

Er, Kh. T. and Deiab, N. and Mahmoud, M. and ElDIB, A. and SHOSHA, M. (2015) EVALUATION THE PERFORMANCE OF DOSE CALCULATION ALGORITHMS FOR HOMOGENEOUS AND HETEROGENEOUS PHANTOMS IN SBRT. Al-Azhar Bulletin of Science, 26 (1). pp. 7-12. ISSN 1110-2535

[thumbnail of ABSB_Volume 26_Issue Issue 1-B_Pages 7-12.pdf] Text
ABSB_Volume 26_Issue Issue 1-B_Pages 7-12.pdf - Published Version

Download (449kB)

Abstract

Purpose: In Stereotactic body radiation therapy (SBRT), higher dose per fraction is delivered to patients and thus the need for an accurate dose computation is further elevated. So, the aim of this study is to evaluate the performance of the algorithms implemented in our treatment planning system.
Methods: In this study different phantoms were designed to model the lung with a small tumor volume of size that are usually encountered in SBRT. Solid water and cork slabs were used in constructing the phantom body. Perspex pieces of different diameters were created to be inserted in precut holes in the cork to simulate the tumor. The various dose calculation algorithms that are implemented in our CMS XIO planning system were then used for dose calculation inside the target.
Results: A significant discrepancies between maximum, minimum and mean dose for PTV was found between FFT Convolution, Fast superposition and superposition algorithms in dose calculation for the lung tumor. The FFT Convolution algorithms have higher calculated minimum dose than that predicted by the superposition and the fast superposition algorithm. A percentage difference up to 13.4% was obtained between the FFT Convolution and the superposition algorithm for the estimated maximum dose. Superposition and fast superposition showed little discrepancies for maximum, minimum and mean dose for the PTV.
Conclusion: It is very critical to address the accuracy of dose computation for SBRT as a significant dose overestimation can occur inside the target due to the heterogeneous geometries.

Item Type: Article
Subjects: STM One > Medical Science
Depositing User: Unnamed user with email support@stmone.org
Date Deposited: 07 Feb 2024 10:29
Last Modified: 10 May 2024 09:51
URI: http://publications.openuniversitystm.com/id/eprint/1650

Actions (login required)

View Item
View Item