STRONG Trial - Stem Cell Radiotherapy (ScRT) and Temozolomide for Newly Diagnosed High-grade Glioma (HGG): A Prospective, Phase I/II Trial
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Glioblastoma
- Sponsor
- Beth Israel Medical Center
- Enrollment
- 4
- Locations
- 1
- Primary Endpoint
- Progression-free Survival
- Status
- Terminated
- Last Updated
- 8 years ago
Overview
Brief Summary
There are preliminary studies that suggest that radiation therapy to areas of the brain containing cancer stem cells (in addition to the area where the tumor was surgically treated) may help patients with high-grade brain tumors live longer. The purpose of this study is to determine whether the addition of stem-cell radiation therapy to the standard chemoradiation will further improve the outcome. The investigators will collect information about the patient's clinical status, disease control, neurocognitive effects, and quality of life during follow-up in our department.
The purpose of the study is to improve the overall survival patients with newly diagnosed malignant brain tumors treated with stem cell radiation therapy and chemotherapy. The investigators will also measure how patients treated with this novel method of radiation therapy do over time in terms of disease control, potential neurocognitive side effects, overall function, and quality of life.
Detailed Description
Even after optimal standard treatment, the outcome for patients suffering from glioblastoma (GB) is currently dismal, and temozolomide adds a modest survival benefit at high monetary cost and is accompanied by considerable toxicity. A possible explanation for the failure of radiotherapy to cure GB is the observation that glioma cells migrate widely into healthy bilateral brain tissue from one or more foci of origin. These isolated cells are not detected by current radiological techniques or even imaging and therefore usually not included into the target volume during radiotherapy. In this present study the investigators would like to test the hypothesis that the dose prescribed to the normal tissue stem cell niche in the adult brain will influence the effectiveness of radiotherapy for patients suffering from HGG/GB as these niches may serve as a harbor for radioresistant glioma stem cells, which are the only cells in a HGG believed to able to repopulate a tumor. The hypothesis is based on previous reports showing that adult normal tissue stem cells reside in the lateral periventricular regions of the lateral ventricles and animal studies reporting that transformation of normal tissues stem cells but not differentiated cells lead to tumor formation. This unique anatomical pattern of the brain that clearly separates stem cell niches as a potential pool of cancer stem cell (CSC's) from differentiated tissue make this an ideal model system to study the impact of radiation dose given to these stem cell niches. Therefore, prospective, randomized clinical trials are needed to address the efficacy and toxicity of including the CSC-containing subventricular region as additional target volumes into treatment plans for patients suffering from HGG/GB. This intervention could dramatically improve the outcomes of patients suffering from progressive, relapsing disease despite our best efforts currently.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Patients with newly diagnosed with high grade glioma (grade 3 or 4) having completed surgery.
- •Patients must be ≥ 18 and ≤ 70 years of age;
- •WHO/ECOG Performance Status of 2 or less.
- •MRI of the brain as delineated above.
- •Patients must sign a study-specific informed consent prior to study entry.
Exclusion Criteria
- •Evidence of brainstem involvement on radiographs;
- •Evidence of oligodendroglioma histology.
- •Evidence of progressive disease at the time of study entry;
- •Evidence of extracranial distant metastatic disease;
- •Prior cranial irradiation;
- •Patients may not be entered on other studies that have progression free, disease free, or overall survival as a primary endpoint;
- •Patients with synchronous or prior malignancy, other than non-melanomatous skin cancer unless disease free greater than 3 years;
- •Pregnant women are ineligible as treatment involves unforeseeable risks to the participant and to the embryo or fetus; patients with childbearing potential must practice appropriate contraception.
Outcomes
Primary Outcomes
Progression-free Survival
Time Frame: 12 months
The progression-free survival of patients with newly diagnosed HGG treated with concurrent ScRT and temozolomide, followed by post-radiation temozolomide (and compare to historical controls).
Overall Survival
Time Frame: 12 months
The overall survival of patients with newly diagnosed high-grade glioma (HGG) treated with concurrent ScRT and temozolomide, followed by post-radiation temozolomide (and compare to historical controls).
Secondary Outcomes
- Number of Participants With Adverse Events as a Measure of Safety and Tolerability(36 months)
- Neurocognition(36 month)
- Quality of Life(36 months)