This is a phase II, non-randomised study examining the safety of treating high risk centrally located non-small cell lung cancer (NSCLC) tumours and single pulmonary oligometastatic lesions using radiation therapy (RT), for patients whose disease is inoperable. The method of delivering the RT in this study is image guided stereotactic ablative radiation therapy (IG-SABR). This method involves using imaging to ensure the radiation is being delivered to the correct location within the body and using higher than normal doses per treatment (fraction) to treat the lung cancer (NSCLC)/oligometastatic lung lesion. This study aims to determine its safety by looking at the number and severity of side effects. This study will deliver 8 treatments/fractions of RT with 7.5 Gy delivered in each fraction. To be eligible for this study the initial treatment plan for the patient must be shown to not fulfil certain criteria relating to doses to the tumour and surrounding normal tissue. This study has its own study specific criteria which must be adhered to. Translational sub-studies (optional) are open to patients in participating centres only. Patients will have the option to consent to participating in both translational studies or to neither.
This study is a phase II non-randomised, multi-centre, single arm trial of image-guided (IG)-SABR for patients with high-risk centrally located T1-T4 lung tumours (NSCLC) or a single pulmonary oligometastatic lesions. Treatment will consist of IG-SABR using a total of 8 fractions of 7.5 Gy per fraction adhering to organ at risk dose-volume histogram constraints allowing a minimum dose coverage of 75% to 95% of the planning target volume (PTV) coverage, and a minimum dose of 87% to 99% of the gross tumour volume (GTV), using dose intensity modulation. The primary aim of the study is to determine the safety of the 8 x 7.5 Gy treatment regimen on the basis of the rate of ≥ Grade 3 treatment related toxicity using NCI CTCAE V5, in patients with medically inoperable early stage, ultracentrally located lung tumours. This is defined by central tumours which are not fulfilling the conservative hybrid DVCs of the LungTech (Adebahr et al., 2015), RTOG 0813 (Bezjak et al., 2015) studies and current UK consortium guidelines with full dose coverage, but which subsequently meet SOURCE DVC's with potentially reduced dose coverage. To remain in line with international practice, the SOURCE Lung protocol was amended to reduce near maximum dose constraints to 0.1cc for OARs (Diez et al. 2022). Toxicities occurring between start of treatment and one-year from the end of treatment, which are possibly, probably or definitely related to radiotherapy will be assessed. A total of 60 evaluable patients will be required for the study. The sample size was calculated using continuous monitoring for toxicity, up to one year post RT, using a Pocock-type boundary. Accrual will be halted if excessive numbers of ≥ Grade 3 TxR-AEs are seen. The regime will not be considered to be safe if \>25% of evaluable patients experience a ≥ Grade 3 treatment-related adverse event (TxR-AE) by the end of 1-year post-RT. This study will be considered adequately safe if ≤ 25% of evaluable patients experience ≥ Grade 3 TxR-AE by the end of 1 year post-RT. The enrolment period is expected to be 6 years. Toxicity assessments will be carried out weekly during radiotherapy (RT), at 2, 4 and 8-weeks post-treatment and at 3, 6, 9, 12, 18, 24 months post treatment and annually thereafter to 5 years post treatment. Translational Sub-Study 1 (Raman spectroscopic analysis) - Primary aim is to undertake biomarker discovery using label-free Raman spectroscopy coupled with multivariate statistical methods to identify spectral biomarkers that could: 1. Predict response based on individual radiation sensitivity 2. Monitor response based on individual radiation sensitivity Translational Sub-Study 2 (Proteomic analysis) - Primary aim is to use proteomic analysis of sequential blood samples before, during and after treatment to detect changes in protein expression profiles that may predict outcome and identify prognostic biochemical markers of early toxicity.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
68
Image-Guided Stereotactic Ablative Radiotherapy (IG-SABR) delivered in 8 fractions of 7.5 Gy. OAR constraints must be respected but a minimum dose coverage to 95% of the PTV will be allowed down to 75% and a minimum dose to 99% of the GTV allowed at 75%. Respiratory monitoring/active respiratory management will be used. Plans will be created and delivered using photon beams with energies between 6-10 MV.
Beacon Hospital
Dublin, Ireland
RECRUITINGSt Luke's Radiation Oncology Network (SLRON) at St Luke's Hospital and St James's Hospital
Dublin, Ireland
RECRUITINGThe rate of ≥ Grade 3 treatment-related toxicities occurring between start of treatment and one-year from the end of treatment using NCI CTCAE V5
The rates of ≥ Grade 3 treatment-related adverse events (TxR-AEs) will be calculated as the proportion of evaluable patients (along with the 95% CI) who have any \>= Grade 3 treatment-related adverse event occurring between the start of RT and one year post-RT, among the total evaluable patients. These rates will be reported (for applicable patients) by T stage (T1 versus T2 versus T3 versus T4 or combined T stages). The NCI Common Terminology Criteria for Adverse Events (CTCAE Version 5.0) for scoring the treatment-related adverse events will be used. The following will be reported at the time of primary endpoint analysis * Tabulation of all cases entered, and any patients excluded from the analysis with reasons for exclusion; * Distribution of important prognostic baseline and other pre-treatment variables; * Frequency and severity of adverse events; * Compliance rates of treatment delivery with respect to the protocol prescription
Time frame: From start of treatment to 1 year post treatment
Estimate time to locoregional recurrence/progression, locoregional recurrence-free survival (LRFS), disease-free survival (DFS) and metastasis-free survival rates / further metastasis-free survival rates (for patients with an oligometastatic lesion).
The Kaplan-Meier method will be used to estimate time to locoregional recurrence; the cumulative proportion surviving without local recurrence at 1- year, 3-years and 5-years; DFS; metastasis-free survival for patients with primary NSCLC; further metastasis-free survival for patients with an oligometastatic lesion. These efficacy endpoints will be expressed as median survival with 95% confidence interval.
Time frame: Up to 5 years post treatment
Estimates of 1-year, 3-year and 5-year overall survival rates
The Kaplan-Meier method will be used to estimate time the cumulative proportion surviving (overall survival) at 1-year, 3-years and 5-years. Overall survival will be measured from date of registration/ enrolment. Patients alive and free of event at the time of analysis and patients lost to follow-up will be censored at the last available assessment. The event for overall survival is a death due to any cause. The primary time-point of interest is 12 months.
Time frame: Up to 5 years post treatment
Prof. John Armstrong
CONTACT
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