Using Xe MRI to Guide Radiation Therapy for Lung Cancer ((XeRTLC))

Despite the recent implementation of daily adaptation of image-guided radiation treatment using highly precise beam delivery technologies, significant acute and chronic lung toxicity is still reported in approximately 20% of lung cancer patients undergoing radiation therapy. Furthermore, subclinical loss of lung function is a concern for long term outcomes and quality of life. The purpose of this pilot study is to develop, implement and evaluate the efficacy of a new radiation therapy (RT) treatment planning paradigm that incorporates regional pulmonary functional imaging information to reduce radiation dose to healthy lung tissues.

The central hypothesis is that functional lung magnetic resonance imaging (MRI) using hyperpolarized xenon (Xe) will provide the means to visualize and quantify acute ventilation and gas exchange alterations during a standard course of RT treatment, and that modifying radiation treatment plans based on the combination of functional and anatomical MRI will result in improved outcomes for lung cancer patients in the short and long term. The rationale for the proposed research is that the implementation of functional imaging context into RT treatment planning is currently inhibited by a lack of access to routine MRI-guidance and a robust workflow to practically incorporate functional information into clinical treatment planning.

The study has the following Specific Aims: 1) Develop automated software tools to integrate functional Xe MRI into RT treatment planning software and establish a comprehensive clinical workflow to reduce radiation dose in highly-functioning regions of the lung, 2) Monitor the acute and chronic effects of RT on lung ventilation and gas exchange using Xe MRI and identify early functional imaging biomarkers of radiation induced lung injury, and 3) Compare outcomes and the post-treatment trajectory of pulmonary functional measurements between functional MRI-guided and standard RT cohorts to assess the potential efficacy of Xe MRI guided adaptive RT. The overall scientific objective is to develop a comprehensive workflow that enables functional lung sparing and monitoring of acute and chronic (6 months post RT) pulmonary functional injury in lung cancer patients.