A Randomised Phase II Study of Two Regimens of Palliative Chemoradiation Therapy in the Management of Locally Advanced Non Small Cell Lung Cancer
Overview
- Phase
- Phase 2
- Intervention
- High Dose Radiotherapy
- Conditions
- Non Small Cell Lung Carcinoma
- Sponsor
- Trans Tasman Radiation Oncology Group
- Enrollment
- 82
- Locations
- 8
- Primary Endpoint
- Toxicity of both treatments
- Status
- Completed
- Last Updated
- 11 years ago
Overview
Brief Summary
The study compares 2 different methods of combined chemotherapy and radiotherapy for the treatment of localised lung cancer in patients not suitable for surgery.
Hypothesis(es) to be tested:
- Vinorelbine + cisplatin + high-dose palliative radiotherapy is superior to gemcitabine + high dose palliative radiotherapy in terms of efficacy in a multi-institutional setting
- Vinorelbine + cisplatin + high-dose palliative radiotherapy is superior to gemcitabine + high dose palliative radiotherapy in terms of feasibility in a multi-institutional setting
- Vinorelbine + cisplatin + high-dose palliative radiotherapy has a favourable toxicity profile relative to gemcitabine + high-dose palliative radiotherapy
Detailed Description
A third of patients with non-small cell lung cancer (NSCLC) present with Stage IIIA or IIIB disease, which is not amenable to curative resection. Single modality local therapy, either surgery or radiation, only cures a fraction of such patients. Radical radiation is not feasible for all patients with unresectable Stage IIIA or IIIB non-small cell lung cancer, based upon the extent of the loco-regional disease or the medical state of the patient. Patients of good performance status receiving protracted high-dose palliative radiotherapy do obtain a survival benefit from this therapy. Studies have shown a survival advantage by adding chemotherapy to radical radiation therapy: but studies in the high-dose palliative radiotherapy setting are lacking. Two regimens of concurrent chemotherapy with high-dose palliative radiotherapy have been developed locally, with established MTDs. These 2 regimens do warrant a comparative assessment in a phase II trial, prior to a phase III trial against high dose palliative radiation alone (36Gy/12#/5). This is a randomised phase II trial comprising of 2 arms for randomization as follows: Arm A:External beam radiation, 40 Gy/20#/5 per week, Plus concurrent Vinorelbine, IV, 25mg/m2, days 1, 8, 22 and + Cisplatin 20mg/m2, IV, weekly Arm B:External beam radiation, 30 Gy/15#/5 per week, Plus concurrentGemcitabine, 200mg (flat dose) IV days 1, 8, 15 An equal number of patients will be randomised to each arm. The randomisation will be carried out by the Princess Alexandra Trial Centre. Patients will be assessed at baseline, weekly during treatment, and then at 3 weeks, 6 weeks and 12 weeks post treatment then 3 monthly thereafter.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Histologically or cytologically proven non-small cell lung cancer.
- •Planned high dose palliative radiation therapy for locoregional control. Examples include patients with:
- •Stage I - IIIB disease with
- •disease technically unsuitable for radical therapy, or · weight loss in excess of 10%, or
- •concurrent medical illness
- •Patients found to have a locally advanced thoracic disease suitable for radical therapy but on work up are found to have a FDG-PET only solitary metastasis.
- •All potential patients, prior to registration, must be reviewed at a multidisciplinary lung oncology meeting attended by medical oncologists, radiation oncologists and radiologists.
- •No prior radiotherapy or chemotherapy for non-small cell lung cancer.
- •ECOG performance status 0,
- •Adequate hepatic, bone marrow and renal function.
Exclusion Criteria
- •Patient unable to receive all therapy as an outpatient.
- •Significant medical conditions which in the opinion of the investigator would compromise the planned delivery of the chemotherapy and radiotherapy or which may be potentially exacerbated by these modalities.
- •History of any other cancer (except non-melanoma skin cancer or carcinoma in situ of the cervix) unless in complete remission and off all therapy for that cancer for at least 5 years.
- •Receiving treatment with another investigational agent.
Arms & Interventions
A
Vinorelbine + cisplatin + high-dose palliative radiotherapy
Intervention: High Dose Radiotherapy
A
Vinorelbine + cisplatin + high-dose palliative radiotherapy
Intervention: Vinorelbine
A
Vinorelbine + cisplatin + high-dose palliative radiotherapy
Intervention: Cisplatin
B
Gemcitabine + high-dose palliative radiotherapy
Intervention: Gemcitabine
B
Gemcitabine + high-dose palliative radiotherapy
Intervention: High Dose Radiotherapy
Outcomes
Primary Outcomes
Toxicity of both treatments
Time Frame: Final analysis will occur when all have a minimum 1 year follow-up after randomisation. Approx 3 years after start of trial.
Objective response rate (RECIST criteria)
Time Frame: Final analysis will occur when all have a minimum 1 year follow-up after randomisation. Approx 3 years after start of trial.
Symptomatic response rate
Time Frame: Final analysis will occur when all have a minimum 1 year follow-up after randomisation. Approx 3 years after start of trial.
The feasibility (i.e. % of patients who cannot complete the planned RT dose or who require a break for toxicity) and problems encountered with protocol compliance in the setting of a multi-institutional TROG study.
Time Frame: Final analysis will occur when all have a minimum 1 year follow-up after randomisation. Approx 3 years after start of trial.
Secondary Outcomes
- Progression-free survival(Final analysis will occur when all have a minimum 1 year follow-up after randomisation. Approx 3 years after start of trial.)
- QOL as assessed by FACT-L version 4.(Final analysis will occur when all have a minimum 1 year follow-up after randomisation. Approx 3 years after start of trial.)