(P153) Hypofractionated Radiation for Early Breast Cancer: What Are Reasonable Lung Dose Constraints in the Setting of 3-Dimensional Treatment Planning?

Publication
Article
OncologyOncology Vol 28 No 1S
Volume 28
Issue 1S

Our purpose is to review a series of hypofractionated plans to report our ipsilateral lung dose-volumes and corresponding lung included in the field at the central plane.

Michael Dominello, DO, Shauna Campbell, BS, Isaac Kaufman, MD, Amy Collins, BS, Erin McSpadden, MPH, Neha Amin, MD; Barbara Ann Karmanos Cancer Center, Detroit Medical Center, Wayne State University

Background: Hypofractionated radiation therapy (HFRT) is being increasingly utilized as a component of breast-conserving therapy for early-stage breast cancer. In the phase III European and Canadian trials investigating the use of HFRT, up to 3 cm of lung measured at the central plane was permitted in the treatment field and resulted in acceptable radiation pneumonitis rates of less than 1%. While these landmark HFRT studies did not report dose-volumes for organs at risk (OARs), an open Radiation Therapy Oncology Group (RTOG) protocol, RTOG 1005, offers ideal and acceptable dose-volume constraints for the ipsilateral lung. These constraints are routinely used at our institution while treatment planning for a hypofractionated course off protocol. Our purpose is to review a series of hypofractionated plans to report our ipsilateral lung dose-volumes and corresponding lung included in the field at the central plane.

Methods: Ten consecutive radiation plans used in the treatment of early-stage (American Joint Committee on Cancer [AJCC] 7th group stage I, II), right-sided breast cancer were reviewed. All patients included received whole-breast treatment to a total dose of 42.56 Gy in 2.66-Gy fractions with a 10-Gy sequential lumpectomy cavity boost. All patients were planned utilizing forward-planned field-in-field intensity modulation. Patients with left-sided breast cancer and patients treated in the prone position were excluded to most conservatively estimate lung dose-volumes. Percent of the ipsilateral lung receiving 20 Gy or more (V20), V10, and V5 were recorded. Ipsilateral lung included in the field at the central plane was recorded.

Results: All 10 plans that were reviewed met the acceptable target volume coverage recommendations and ipsilateral lung dose constraints as described by RTOG (V20 ≤ 20%, V10 ≤ 40%, and V5 ≤ 55%). Mean ipsilateral lung V20 was 9.7% (median 8.9%; range: 2.4%–19%). Mean ipsilateral lung V10 was 13.8% (median 13.0%; range: 4.7%–22.8%). Mean ipsilateral lung V5 was 23.7% (median 21.7%; range: 10.9%–31.6%). Mean ipsilateral lung included in the field at the central plane was 1.2 cm (median 1.1 cm; range: 0.1–2.7 cm).

Conclusions: The lung dose constraints as outlined in RTOG 1005 are achievable while still delivering adequate dose to the target volume. Given that all patients in our series had < 3 cm of lung included in the field at the central plane with a mean of just 1.2 cm, it is likely that the patients enrolled in the randomized controlled trials examining HFRT received similar or perhaps higher ipsilateral lung V20, V10, and V5 with acceptable pneumonitis rates. Until the results of RTOG 1005 are available, these data support the use of the RTOG-proposed dose-volumes-lung V20 ≤ 20%, V10 ≤ 40%, and V5 ≤ 55%-as conservative dose restraints during 3-dimensional treatment planning for HFRT.

Articles in this issue

(P113) Age and Marital Status Are Associated With Choice of Mastectomy in Patients Eligible for Breast Conservation Therapy
(P112) Single-Institution Experience With Intrabeam IORT for Treatment of Early-Stage Breast Cancer
(P110) Breast Cancer Before Age 40: Current Patterns in Clinical Presentation and Local Management
(P111) Accelerated Partial-Breast Irradiation With Multicatheter High-Dose-Rate Brachytherapy: Feasibility and Results in a Private Practice Cohort
(P115) Breast Cancer Laterality Does Not Influence Overall Survival in a Large Modern Cohort: Implications for Radiation-Related Cardiac Mortality
(P117) Anatomical Variations and Radiation Technique for Breast Cancer
(P116) Bilateral Immediate DIEP Reconstruction and Postmastectomy Radiotherapy: Experience at a Tertiary Care Institution
(P118) Metadherin Overexpression Is Associated With Improved Locoregional Control After Mastectomy
(P119) Effect of Economic Environment on Use of Postlumpectomy Radiation Therapy for Stage I Breast Cancer
(P120) Immediate Versus Delayed Reconstruction After Mastectomy in the United States Medicare Breast Cancer Patient
(P121) Trend in Age and Racial Disparities in the Receipt of Postlumpectomy Radiation Therapy for Stage I Breast Cancer: 2004–2009
(P122) Streamlining Referring Physicians Orders With ‘Reflex Testing’ Significantly Decreases Time to Resolution for Abnormal Screening Mammograms
(P123) National Trends in the Local Management of Early-Stage Paget Disease of the Breast
(P124) Effect of Inhomogeneity on Cardiac and Lung Dose in Partial-Breast Irradiation Using HDR Brachytherapy
(P125) Breast Cancer Outcomes With Anthracycline-Based Chemotherapy for Residual Disease Burden After Full-Dose Neoadjuvant Chemotherapy and Surgery Followed by Radiation Treatment
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