The impact of dose calculation algorithms on partial and whole breast radiation treatment plans

The impact of dose calculation algorithms on partial and whole breast radiation treatment plans

<p>Abstract</p> <p>Background</p> <p>This paper compares the calculated dose to target and normal tissues when using pencil beam (PBC), superposition/convolution (AAA) and Monte Carlo (MC) algorithms for whole breast (WBI) and accelerated partial breast irradiation (APB...

Full description

Bibliographic Details
Main Authors: Berrang Tanya, Zavgorodni Sergei, Basran Parminder S, Olivotto Ivo A, Beckham Wayne
Format: Article
Language:English
Published: BMC 2010-12-01
Series:Radiation Oncology
Online Access:http://www.ro-journal.com/content/5/1/120
id doaj-e55b109cd68a4fda8dcc811f25b734f6
record_format Article
spelling doaj-e55b109cd68a4fda8dcc811f25b734f62020-11-25T00:37:28ZengBMCRadiation Oncology1748-717X2010-12-015112010.1186/1748-717X-5-120The impact of dose calculation algorithms on partial and whole breast radiation treatment plansBerrang TanyaZavgorodni SergeiBasran Parminder SOlivotto Ivo ABeckham Wayne<p>Abstract</p> <p>Background</p> <p>This paper compares the calculated dose to target and normal tissues when using pencil beam (PBC), superposition/convolution (AAA) and Monte Carlo (MC) algorithms for whole breast (WBI) and accelerated partial breast irradiation (APBI) treatment plans.</p> <p>Methods</p> <p>Plans for 10 patients who met all dosimetry constraints on a prospective APBI protocol when using PBC calculations were recomputed with AAA and MC, keeping the monitor units and beam angles fixed. Similar calculations were performed for WBI plans on the same patients. Doses to target and normal tissue volumes were tested for significance using the paired Student's t-test.</p> <p>Results</p> <p>For WBI plans the average dose to target volumes when using PBC calculations was not significantly different than AAA calculations, the average PBC dose to the ipsilateral breast was 10.5% higher than the AAA calculations and the average MC dose to the ipsilateral breast was 11.8% lower than the PBC calculations. For ABPI plans there were no differences in dose to the planning target volume, ipsilateral breast, heart, ipsilateral lung, or contra-lateral lung. Although not significant, the maximum PBC dose to the contra-lateral breast was 1.9% higher than AAA and the PBC dose to the clinical target volume was 2.1% higher than AAA. When WBI technique is switched to APBI, there was significant reduction in dose to the ipsilateral breast when using PBC, a significant reduction in dose to the ipsilateral lung when using AAA, and a significant reduction in dose to the ipsilateral breast and lung and contra-lateral lung when using MC.</p> <p>Conclusions</p> <p>There is very good agreement between PBC, AAA and MC for all target and most normal tissues when treating with APBI and WBI and most of the differences in doses to target and normal tissues are not clinically significant. However, a commonly used dosimetry constraint, as recommended by the ASTRO consensus document for APBI, that no point in the contra-lateral breast volume should receive >3% of the prescribed dose needs to be relaxed to >5%.</p> http://www.ro-journal.com/content/5/1/120
collection DOAJ
language English
format Article
sources DOAJ
author Berrang Tanya
Zavgorodni Sergei
Basran Parminder S
Olivotto Ivo A
Beckham Wayne
spellingShingle Berrang Tanya
Zavgorodni Sergei
Basran Parminder S
Olivotto Ivo A
Beckham Wayne
The impact of dose calculation algorithms on partial and whole breast radiation treatment plans
Radiation Oncology
author_facet Berrang Tanya
Zavgorodni Sergei
Basran Parminder S
Olivotto Ivo A
Beckham Wayne
author_sort Berrang Tanya
title The impact of dose calculation algorithms on partial and whole breast radiation treatment plans
title_short The impact of dose calculation algorithms on partial and whole breast radiation treatment plans
title_full The impact of dose calculation algorithms on partial and whole breast radiation treatment plans
title_fullStr The impact of dose calculation algorithms on partial and whole breast radiation treatment plans
title_full_unstemmed The impact of dose calculation algorithms on partial and whole breast radiation treatment plans
title_sort impact of dose calculation algorithms on partial and whole breast radiation treatment plans
publisher BMC
series Radiation Oncology
issn 1748-717X
publishDate 2010-12-01
description <p>Abstract</p> <p>Background</p> <p>This paper compares the calculated dose to target and normal tissues when using pencil beam (PBC), superposition/convolution (AAA) and Monte Carlo (MC) algorithms for whole breast (WBI) and accelerated partial breast irradiation (APBI) treatment plans.</p> <p>Methods</p> <p>Plans for 10 patients who met all dosimetry constraints on a prospective APBI protocol when using PBC calculations were recomputed with AAA and MC, keeping the monitor units and beam angles fixed. Similar calculations were performed for WBI plans on the same patients. Doses to target and normal tissue volumes were tested for significance using the paired Student's t-test.</p> <p>Results</p> <p>For WBI plans the average dose to target volumes when using PBC calculations was not significantly different than AAA calculations, the average PBC dose to the ipsilateral breast was 10.5% higher than the AAA calculations and the average MC dose to the ipsilateral breast was 11.8% lower than the PBC calculations. For ABPI plans there were no differences in dose to the planning target volume, ipsilateral breast, heart, ipsilateral lung, or contra-lateral lung. Although not significant, the maximum PBC dose to the contra-lateral breast was 1.9% higher than AAA and the PBC dose to the clinical target volume was 2.1% higher than AAA. When WBI technique is switched to APBI, there was significant reduction in dose to the ipsilateral breast when using PBC, a significant reduction in dose to the ipsilateral lung when using AAA, and a significant reduction in dose to the ipsilateral breast and lung and contra-lateral lung when using MC.</p> <p>Conclusions</p> <p>There is very good agreement between PBC, AAA and MC for all target and most normal tissues when treating with APBI and WBI and most of the differences in doses to target and normal tissues are not clinically significant. However, a commonly used dosimetry constraint, as recommended by the ASTRO consensus document for APBI, that no point in the contra-lateral breast volume should receive >3% of the prescribed dose needs to be relaxed to >5%.</p>
url http://www.ro-journal.com/content/5/1/120
work_keys_str_mv AT berrangtanya theimpactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT zavgorodnisergei theimpactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT basranparminders theimpactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT olivottoivoa theimpactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT beckhamwayne theimpactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT berrangtanya impactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT zavgorodnisergei impactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT basranparminders impactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT olivottoivoa impactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
AT beckhamwayne impactofdosecalculationalgorithmsonpartialandwholebreastradiationtreatmentplans
_version_ 1725301233878564864

Similar Items