Major Adverse Cardiac Events After Radiation Therapy in Lung Cancer
DOI:
https://doi.org/10.18060/25761Abstract
Motivation:
Receiving radiation to the heart has been recognized as a risk factor for the development of major adverse cardiovascular events (MACEs) for many years. However, recent data suggests that radiation dosing to substructures of the heart serve as a better surrogate for evaluating the risk of developing a MACE than whole heart radiation dose. Recent papers suggest that dosing to the left anterior descending artery (LAD) can be used as a robust marker for cardiotoxicity risk; however, this association lacks corroborative data and is currently not incorporated into clinically routine care.
Problem:
In this paper we seek to investigate the relationship between radiation dose to the LAD and risk of developing a MACE in lung cancer patients treated with curative intent radiation.
Approach:
Chart review to confirm the presence of MACE events was performed in patients who were identified based on elevated troponin values to potentially have had a MACE after receiving their last dose of radiation therapy. Patients who had multiple courses of radiation therapy separated in time (>60 days) that received greater than 0.2 Gy whole heart dose during their subsequent courses before having a MACE were excluded. Selected patients were then stratified based on presence cardiovascular co-morbidities. Contours of patient’s LADs were made after patient selection, and will be verified by an expert (e.g., cardiologist or thoracic radiologist).
Results:
Dose to the LAD will be calculated and an assessment of the correlation between radiation dose and risk of having a MACE will be made. Analysis will assess the cardiac event rate at various times as well as time to MACE.
Implications:
This paper can help set a quantifiable standard with which radiation oncologists can use to minimize their patient’s risk of developing a MACE by minimizing radiation dosing to specific cardiac substructures while maintaining tumor coverage.
Downloads
Published
Issue
Section
License
Copyright (c) 2021 Ramsey Omari, Charles Curtis, Nichole Burket, Michael Weisman, Xiaofeng Chen, Tim Lautenschlaeger, MD
This work is licensed under a Creative Commons Attribution 4.0 International License.