1. Clinical experience with 3-dimensional surface matching-based deep inspiration breath hold for left-sided breast cancer radiation therapy
- Author
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Sha Chang, Zijie Xu, Traci Leach, X Tang, Timothy M. Zagar, Lawrence B. Marks, Gregg Tracton, David V. Fried, Longzhen Zhang, Ellen L. Jones, and Eric Bair
- Subjects
medicine.medical_specialty ,medicine.medical_treatment ,Breast Neoplasms ,Left sided ,Surface matching ,Breath Holding ,Breast cancer ,Port (medical) ,Imaging, Three-Dimensional ,medicine ,Humans ,Radiology, Nuclear Medicine and imaging ,Lung ,Deep inspiration breath-hold ,business.industry ,Radiotherapy Planning, Computer-Assisted ,Reproducibility of Results ,medicine.disease ,Surgery ,Radiation therapy ,Oncology ,Inhalation ,Digitally reconstructed radiographs ,Female ,Tomography ,Nuclear medicine ,business ,Tomography, X-Ray Computed - Abstract
Purpose Three-dimensional (3D) surface matching is a novel method to administer deep inspiration breath-hold (DIBH) radiation therapy for left-sided breast cancer to reduce cardiac exposure. We analyzed port (x-ray) films to assess patient setup accuracy and treatment times to assess the practical workflow of this system. Methods and materials The data from 50 left-sided breast cancer patients treated with DIBH were studied. AlignRT (London, UK) was used. The distance between the field edge and the anterior pericardial shadow as seen on the routine port films (d PORT ), and the corresponding distance seen on the digitally reconstructed radiographs (DRR) from the planning (d DRR ) were compared as a quantitative measure of setup accuracy. Variations of d PORT – d DRR over the treatment course were assessed. In a subset of 21 patients treated with tangential beams alone, the daily treatment durations were analyzed to assess the practical workflow of this system. Results Considering all 50 patients, the mean absolute systematic uncertainty between d PORT and d DRR was 0.20 cm (range, 0 to 1.22 cm), the mean systematic uncertainty was −0.07 cm (range, −1.22 to 0.67 cm), and their mean random uncertainty was 0.19 cm (range, 0 to 0.84 cm). There was no significant change in d PORT – d DRR during the course of treatment. The mean patient treatment duration for the 21 patients studied was 11 minutes 48 seconds. On intrapatient assessments, 15/21 had nonsignificant trends toward reduced treatment durations during their course of therapy. On interpatient comparisons, the mean treatment times declined as we gained more experience with this technique. Conclusions The DIBH patient setup appears to provide a fairly reproducible degree of cardiac sparing with random uncertainties of ≈ 0.2 cm. The treatment durations are clinically acceptable and appear not to change significantly over time on an intrapatient basis, and to improve over time on an interpatient basis.
- Published
- 2013