SU‐GG‐T‐08: Is a Volume‐Based HDR Brachytherapy Optimization Algorithm Comparable to a Classic Line‐Based One?: Toward Tumor‐Volume Adaptive Brachytherapy for Cervical Cancer By 3T MRI Guidance

Y Kim; J Modrick; J Bayouth; E Pennington; S Bhatia; G Jacobson

doi:10.1118/1.2961758

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SU‐GG‐T‐08: Is a Volume‐Based HDR Brachytherapy Optimization Algorithm Comparable to a Classic Line‐Based One?: Toward Tumor‐Volume Adaptive Brachytherapy for Cervical Cancer By 3T MRI Guidance

Conference proceeding

Peer reviewed

SU‐GG‐T‐08: Is a Volume‐Based HDR Brachytherapy Optimization Algorithm Comparable to a Classic Line‐Based One?: Toward Tumor‐Volume Adaptive Brachytherapy for Cervical Cancer By 3T MRI Guidance

Y Kim, J Modrick, J Bayouth, E Pennington, S Bhatia and G Jacobson

Medical Physics, Vol.35(6), pp.2727-2728

06/2008

DOI: 10.1118/1.2961758

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Abstract

Purpose: Verify a volume‐based optimization algorithm against a classic line‐based one for intracavitary high‐dose‐rate (HDR) brachytherapy (BT) treatment planning for cervical cancer. Method and Materials: This retrospective study reviewed ten randomly selected tandem and ovoids plans. To investigate the dose‐behavior induced by different algorithms, no variations in T&O applicator geometry and imaging dataset were made. Three metrics were employed: 1) the total reference air kerma (TRAK), 2) the volume enclosed by the 100% prescription dose (VOL100%Rx) (both based on ICRU Report 38), and 3) the dose to Point H. Conventional HDR plans (BrachyVision™, Varian, version 6.1) were regenerated and reoptimized by the optimization algorithm capable of incorporating a volume‐based optimization (version 6.5). To optimize dwell times, both are based on Nelder‐Mead Simplex method. However, a volume‐based plan optimizes dwell times to give the desired dose to volumetric structures along with reference lines by utilizing a group of points in a structure, while a conventional algorithm affords solely reference lines. Results: A volume‐based algorithm was found to be comparable to a classic one in terms of three metrics described above. The ratio of TRAK values (i.e. a volume‐based algorithm over a classic), VOL100%Rx, and Point H doses showed on average 1.01 (std dev ± 0.01), 1.03 (std dev ± 0.07), and 0.99 (std dev ± 0.02), respectively. To obtain an identical HDR plan was limited. However, we found a volume‐based optimization algorithm generates a plan comparable to a classic line‐based one which is relatively simple and robust. The plan generated by a volume‐based optimization algorithm also affords the ABS recommendations for BT for cervical cancer. Conclusion: A high‐dose‐rate brachytherapy plan utilizing a volume‐based optimization algorithm was comparable to a classic one. Hence, a volume‐based optimization is available to be implemented for a tumor‐volume adaptive brachytherapy.

Details

Title: Subtitle: SU‐GG‐T‐08: Is a Volume‐Based HDR Brachytherapy Optimization Algorithm Comparable to a Classic Line‐Based One?: Toward Tumor‐Volume Adaptive Brachytherapy for Cervical Cancer By 3T MRI Guidance
Creators: Y Kim - University of Iowa
J Modrick - University of Iowa
J Bayouth - University of Iowa
E Pennington - University of Iowa
S Bhatia - University of Iowa
G Jacobson - Roy J. and Lucille A. Carver College of Medicine
Resource Type: Conference proceeding
Publication Details: Medical Physics, Vol.35(6), pp.2727-2728
DOI: 10.1118/1.2961758
ISSN: 0094-2405
eISSN: 2473-4209
Number of pages: 2
Date published: 06/2008
Academic Unit: Radiation Oncology
Record Identifier: 9984313081602771

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