A Pilot Study of Response-Driven Adaptive Radiation Therapy for Patients With Locally Advanced Non-Small Cell Lung Cancer

Not Applicable

Completed

• Conditions: Carcinoma, Non-Small-Cell Lung
• Interventions: Radiation: Response-driven Adaptive Radiation Therapy; Drug: Carboplatin; Drug: Paclitaxel; Device: FDG-PET; Device: V/Q SPECT; Drug: Durvalumab

• Registration Number: NCT02492867
• Lead Sponsor: University of Michigan Rogel Cancer Center

Brief Summary

Successful treatment of lung cancer with radiation therapy requires that the physicians determine exactly where the tumor is in the patient's body and seek to limit any unnecessary radiation to normal parts of the body. This study is designed to apply functional imaging, Fluorodeoxyglucose-Positron Emission Tomography (FDG-PET) ("a PET scan") and Ventilation/Perfusion Single Photon Emission Computerized Tomography (V/Q SPECT) ("a perfusion scan"), before treatment and then again during treatment to see if this scanning helps predict how well the treatment works and how well the lung functions during treatment. FDG-PET is a modern technology that uses small amounts of a radioactive glucose (FDG) to make images of the whole body and areas of active cancer. V/Q SPECT is an image mapping tool that helps assess how well the lungs are working. A Computerized Tomography (CT) will also be performed along with both of these procedures to help the researchers see clearly where the cancer or the healthy lung is located.

The researchers are also doing blood and urine tests in this study to look for markers to see if this helps them determine the patient's risk of developing side effects from radiation to the lungs. The researchers hope by using these types of tests that they can have more information to help decrease the amount of toxicity patients have from this type of treatment. The researchers hope that this study will help them in the future to design radiation treatment plans that provide the best treatment for each individual patient.

Detailed Description

This is a pilot study to improve local tumor control while maintaining the same rate of treatment toxicity by adapting therapy to the uninvolved lung and esophagus while continuing to adapt therapy to the tumor for patients with Stage II/III NSCLC.

Lung cancer is the leading cause of cancer death in the United States and worldwide. In 2012, there were 226,160 new cases and 160,340 deaths related to lung cancer in the United States. Approximately, 80-85% of lung cancers are NSCLC (Non-small Cell Lung Cancer), and 40% of these are locally advanced (stage II/III) at diagnosis. The current standard of care for these patients is "one size fits all" RT (Radiation Therapy) with concurrent chemotherapy in uniform regimens. Even after concurrent chemoradiation, however, the five year overall survival was still about 15%; almost one half of the patients failed locally. At the same time, intensification of both radiotherapy and concurrent chemotherapy may result in excessive toxicity or incomplete treatment. Therefore, it is critical to tailor the treatment to each individual's sensitivity in combination with functional imaging guided response-driven treatment and biomarker guided individualized dose prescription, thus taking into consideration both the tumor and toxicity profile.

Evidence suggests that high-dose radiation has the potential to improve local-regional control and overall survival in patients treated with fractionated therapy with concurrent chemotherapy.

However, it is challenging to deliver high dose RT in the majority of patients with locally advanced NSCLC without exceeding doses to organs at risk and causing significant side effects.

Investigators hypothesized that they could develop safer and more effective therapy by adapting treatment to the individual patient's response. With respect to the tumor, investigators hypothesized, that they could improve outcome by redistributing dose to the more aggressive regions of the tumor, assessed using mid-treatment FDG-PET (Positron Emission Tomography) scanning. With respect to uninvolved organs, investigators need methods of estimating tolerable radiation doses for the individual patient rather than the population average. Such a strategy requires assessing both global and regional normal lung function and the technology to deliver dose in a manner that minimizes damage to functional lung and esophagus.

During-RT FDG-PET/CT potentially can provide important benefits to individual patients by intensifying dose to more resistent tumor, allowing early changes to alternative, more efficacious treatment or by avoiding the unnecessary toxicity related to ineffective therapy.

Patients will also undergo a during treatment V/Q SPECT (Single-photon Emission Computed Tomography) scan, as an adaptive plan based on during-treatment SPECT may further optimize PART (Personalized Adaptive Radiotherapy) to avoid high dose radiation to the well-functioning regions, and would thus decrease RILT (Radiation Induced Lung Toxicity).

The combination of pre- and during V/Q SPECT can classify the lung into different functional regions, and a strategy to give differential priority to the regions has been developed to minimize lung damage.

Investigators plan to continue to collect data on serum biomarkers to further refine their biophysical model with the ultimate goal of individualizing radiation dose prescription.

By identifying high risk patients and adjusting OAR (Organs at Risk) dose limits to the threshold of tolerance, investigators anticipate a significant reduction in the incidence of toxicity from UMCC 2007.123 (NCT01190527) without compromised tumor control by applying the model to optimize radiation planning.

Study Timeline

• Study First Submitted: 2015-06-30
• Study First Submitted QC: 2015-07-06
• Study First Posted: 2015-07-09
• Study Start: 2016-01-14
• Primary Completion: 2021-11-28
• Study Completion: 2022-04-21
• Status Verified: 2023-08
• Last Update Submitted: 2023-08-30
• Last Update Posted: 2023-08-31

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 49

Inclusion Criteria

• Patients must have FDG-avid and pathologically proven Stage IIA-IIIB non-small cell lung cancer.
• Patients must be considered unresectable or inoperable.
• Patients must be 18 years of age or older.
• Patients must have a Karnofsky performance (A measure general well-being and activities of daily life. Scores range between 0 and 100 where 100 represents normal and 0 represents death.) of score > or = to 70.
• Patients must have adequate organ and marrow function.
• Patient must be willing to use effective contraception if female with reproductive capability.
• Patients must be informed of the investigational nature of this study and given written informed consent in accordance with institutional and federal guidelines.

Exclusion Criteria

• Patients with any component of small cell lung carcinoma
• Patients with evidence of a malignant pleural or pericardial effusion
• Prior radiotherapy to the thorax such that composite radiation would significantly overdose critical structures, either per estimation of the treating radiation oncologist or defined by failure to meet normal tissue tolerance constraints
• Patients cannot tolerate concurrent chemotherapy
• Pregnant women are excluded from this study because radiation has the potential for teratogenic or abortifacient effects.
• Prisoners are excluded for this study.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Response-driven Adaptive RT	Response-driven Adaptive Radiation Therapy	Patients will receive treatment 5 days per week, in once daily fractions, for 30 treatments with dose per fraction individually adapted over the final 9 treatments. Patients may also receive concurrent chemotherapy with Carboplatin and Paclitaxel. Patients may receive consolidation chemotherapy (carboplatin and paclitaxel) or immunotherapy (durvalumab) at the discretion of the medical oncologist.
Response-driven Adaptive RT	FDG-PET	Patients will receive treatment 5 days per week, in once daily fractions, for 30 treatments with dose per fraction individually adapted over the final 9 treatments. Patients may also receive concurrent chemotherapy with Carboplatin and Paclitaxel. Patients may receive consolidation chemotherapy (carboplatin and paclitaxel) or immunotherapy (durvalumab) at the discretion of the medical oncologist.
Response-driven Adaptive RT	V/Q SPECT	Patients will receive treatment 5 days per week, in once daily fractions, for 30 treatments with dose per fraction individually adapted over the final 9 treatments. Patients may also receive concurrent chemotherapy with Carboplatin and Paclitaxel. Patients may receive consolidation chemotherapy (carboplatin and paclitaxel) or immunotherapy (durvalumab) at the discretion of the medical oncologist.
Response-driven Adaptive RT	Carboplatin	Patients will receive treatment 5 days per week, in once daily fractions, for 30 treatments with dose per fraction individually adapted over the final 9 treatments. Patients may also receive concurrent chemotherapy with Carboplatin and Paclitaxel. Patients may receive consolidation chemotherapy (carboplatin and paclitaxel) or immunotherapy (durvalumab) at the discretion of the medical oncologist.
Response-driven Adaptive RT	Paclitaxel	Patients will receive treatment 5 days per week, in once daily fractions, for 30 treatments with dose per fraction individually adapted over the final 9 treatments. Patients may also receive concurrent chemotherapy with Carboplatin and Paclitaxel. Patients may receive consolidation chemotherapy (carboplatin and paclitaxel) or immunotherapy (durvalumab) at the discretion of the medical oncologist.
Response-driven Adaptive RT	Durvalumab	Patients will receive treatment 5 days per week, in once daily fractions, for 30 treatments with dose per fraction individually adapted over the final 9 treatments. Patients may also receive concurrent chemotherapy with Carboplatin and Paclitaxel. Patients may receive consolidation chemotherapy (carboplatin and paclitaxel) or immunotherapy (durvalumab) at the discretion of the medical oncologist.

Primary Outcome Measures

Name	Time	Method
The Number of Patients for Whom Treatment is Feasible.	6 weeks (30 treatments, 5 days per week)	To determine the feasibility of the proposed adaptive treatment strategy, we will look at the number of patients for whom treatment is feasible. Treatment is feasible if we are able to deliver the full treatment, using the image based spatial replanning and complete the cytokine assays in a short enough timeframe to adapt radiation dose.
The Number of Patients That Experience Grade 2 or Greater Esophageal Toxicity	Up to 3 months	Esophageal toxicities will be graded using CTCAE v4.0. These will include, but not be limited to esophagitis.
The Number of Patients That Experience Grade 2 or Greater Lung Toxicity	Up to 24 months	Lung toxicity will be graded using CTCAE v4.0. These will include, but not be limited to: cough, dyspnea, pneumonitis, radiation pneumonitis, and radiographic or clinical pulmonary fibrosis.
Comparison of Delivered Dose to Dose That Would Have Been Administered Using the Criteria Described in Protocol UMCC 2007.123 (NCT01190527)	6 weeks (30 treatments, 5 days per week)	Investigators will generate the treatment plan (and hence dose to PET avid region) each patient would have received if they had been treated on protocol UMCC 2007.123 (NCT01190527), which redistributed dose to the PET avid region but not through normal tissue. These dose values will then be compared to the doses actually given to assess for any mean differences.

Secondary Outcome Measures

Name	Time	Method
Time to Local Progression	Up to 60 months	Defined as the time from start of treatment to time of local/regional progression on PET, summarized with the Kaplan-Meier method.
Overall Survival Time	Up to 60 months	Defined as the time from start of treatment to death.

Trial Locations

Locations (2)

VA Ann Arbor Healthcare System; 🇺🇸 Ann Arbor, Michigan, United States

University of Michigan Cancer Center; 🇺🇸 Ann Arbor, Michigan, United States