ESTRO 2023

Session Item

Saturday

May 13

15:15 - 16:15

Business Suite 1-2

Breast

Chair: , Poland

Session Code: 1440

Session Type: Poster Discussion

Track: Clinical

Variation in incidental dose to the axilla in patients treated with whole breast radiotherapy alone

Fiona Wilson, United Kingdom

Presentation Number: PD-0235

Abstract

Abstract Title:

Variation in incidental dose to the axilla in patients treated with whole breast radiotherapy alone

Authors:

Fiona Wilson^1,2, Tanwiwat Jaikuna³, Carmel Anandadas², David Azria⁴, Sara Gutierrez-Enriquez⁵, Dirk De Ruysscher⁶, Maarten Lambrecht⁷, Tiziana Rancati⁸, Tim Rattay⁹, Christopher Talbot⁹, Barry Rosenstein¹⁰, Elena Sperk¹¹, Ana Vega¹², Liv Veldeman¹³, Catharine West¹⁴, Adam Webb¹⁵, Jenny Chang-Claude¹⁶, Petra Seibold¹⁷, Eliana Vasquez-Osorio¹⁸, Marianne Aznar¹⁸

¹University of Manchester, Radiotherapy Related Research Group, Division Cancer Sciences , Manchester, United Kingdom; ²Christie NHS Foundation Trust, Clinical Oncology, Manchester, United Kingdom; ³University of Manchester, Radiotherapy Related Research Group, Division Cancer Sciences, Manchester, United Kingdom; ⁴Montpellier University, Radiation Oncology, Montpellier Cancer Institute, Montpellier, France; ⁵Vall d'Hebron Barcelona Hospital Campus, Hereditary Cancer Genetics Group , Barcelona, Spain; ⁶Maastricht University Medical Center, Radiation Oncology (Maastro Clinic), Maastricht, The Netherlands; ⁷Leuvens Kanker Instituut, Radiotherapy-oncology, Leuven, Belgium; ⁸Fondazione IRCCS Istituto Nazionale dei Tumori, Prostate Cancer Program, Milan, Italy; ⁹University of Leicester, Leicester Cancer Research Centre, Leicester, United Kingdom; ¹⁰Icahn School of Medicine at Mount Sinai, Radiation Oncology, Genetics and Genomic Sciences, New York, USA; ¹¹University of Heidelberg, Radiation Oncology, Mannheim, Germany; ¹²Hospital Clínico Universitario de Santiago, Fundacion Publica Galega Medicina Xenomica, Santiago de Compostela, Spain; ¹³Ghent University Hospital, Radiation Oncology, Ghent, Belgium; ¹⁴University of Manchester, Translational Radiobiology Group, Division of Cancer Sciences, Manchester, United Kingdom; ¹⁵University of Leicester, Genetics and Genome Biology, Leicester, United Kingdom; ¹⁶German Cancer Research Center (DKFZ), Division of Cancer Epidemiology, Heidelberg, Germany; ¹⁷German Cancer Research Center (DKFZ), Division of Cancer Epidemiology, Heidelberg, Germany; ¹⁸University of Manchester, Radiotherapy Related Research Group, Division of Cancer Sciences, Manchester, United Kingdom

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Purpose or Objective

Incidental dose to the axilla in breast only radiotherapy (RT) can vary significantly with patient positioning, body habitus and field placement. Although extent of axillary surgery is the major risk factor for lymphoedema and shoulder morbidity, the dose to the axillary lateral thoracic junction (ALTJ), in the superior-lateral axilla, has previously been identified as a potential organ at risk for lymphoedema (1) (Fig. 1A). We report on incidental doses to shoulder and axillary structures in a prospective multi-centre cohort of patients treated with breast-conserving surgery. We also present a novel method to evaluate dose to regions of interest which could facilitate validation of new subregions of interest for RT toxicity.

Material and Methods

Patients were selected from the REQUITE study (www.requite.eu) with the following criteria: full dose distribution available (primary + boost if delivered), supine position. Exclusion criteria were: prescribed axillary RT. To assess doses in this cohort, all individual CTs and dose distributions were non-rigidly deformed to a single reference patient (NiftyReg), focusing on the breast region and 5cm superior and inferior to the breast. On this reference patient, lymph node regions (according to ESTRO guidelines), ALTJ (according to (1)) and humeral head were contoured and agreed by 2 clinical oncologists. The global accuracy of image-registration was assessed using normalised correlation (NCC). Dosimetric parameters for each structure were calculated for each including D2%, D50%, D95% and D98%.

Results

171 patients were available for analysis, 114 treated to the whole breast (WB) and 57 treated to WB plus tumour bed simultaneous integrated boost (SIB) (Table 1). The global accuracy of image registration was excellent (NCC=0.9, ideal value 1). Doses to shoulder and axillary structures showed a large variation both within and between centres (Fig. 1B-D). In particular, for WB RT, D50% for level 1 was 46% (1.3-99.2%), WB plus SIB (46 (1.3-99.2) (Fig 1C). Similar variation was observed for internal mammary nodes and for other dose metrics (data not shown).

Conclusion

There is considerable variation between patients and between centres in the incidental dose to the axilla and the ALTJ region. This study highlights the necessity of investigating individual dose distributions when understanding the link between dose and toxicity in breast cancer patients. The proposed method demonstrates the feasibility of using deformable image registration techniques to facilitate efficient retrospective assessment and validation of newly identified regions of interest, without the need for resource-intensive contouring of hundreds of patients. Further work is planned in the full REQUITE cohort to identify anatomical subregions particularly sensitive to dose, and link this with late arm/shoulder toxicity.

References
1. Gross IJROBP 2019