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Low Grade Glioma clinical trials

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NCT ID: NCT02358187 Recruiting - Low Grade Glioma Clinical Trials

A Vaccine Trial for Low Grade Gliomas

Start date: January 2015
Phase: Phase 2
Study type: Interventional

The study will assess the immunogenicity, safety and preliminary clinical efficacy of the glioma associated antigen (GAA)/tetanus toxoid (TT) peptide vaccine and poly-ICLC in HLA-A2+ children with unresectable low-grade gliomas that have received at least two chemotherapy/biologic regimens. Radiation therapy counts as one biologic regimen, but patients may not have received radiation to the index lesion within 1 year of enrollment.

NCT ID: NCT02286531 Completed - Low Grade Glioma Clinical Trials

Evaluation de O-(2-[18F]-Fluoroethyl)-L-Tyrosine, a New Tracer PET, in the Diagnosis of Low Grade Glioma

PET-FETII
Start date: June 2010
Phase: N/A
Study type: Interventional

Determine the overall discriminatory ability of FET PET in the diagnosis of glioma grade II (referring to the current diagnostic gold standard represented by the histopathology exam of a tumor sample).

NCT ID: NCT02197637 Completed - Low-Grade Glioma Clinical Trials

Phase II Trial of Oral Vinorelbine in Children With Recurrent or Progressive Unresectable Low-Grade Glioma

OVIMA-1210
Start date: May 2014
Phase: Phase 2
Study type: Interventional

The purpose of this study is to determine whether oral vinorelbine is effective in the treatment of children with progressive or recurrent unresectable low grade glioma.

NCT ID: NCT02186262 Completed - Malignant Glioma Clinical Trials

Rotating Frame Relaxation and Diffusion Weighted Imaging of Human Gliomas

RODIG
Start date: March 2014
Phase:
Study type: Observational

Grading of gliomas is of significant clinical importance since the prognosis as well as the treatment of choice are distinct in low-grade and high-grade gliomas. With standard MRI modalities, however, a reliable distinction is often impossible. Moreover, the gold standard for glioma grading by histopathology may also have limitations due to unrepresentative tumor samples. Therefore, more advanced MRI techniques are urgently needed that would have higher sensitivity and specificity in the definition of tumor type, grade and extent. Assessment of radiologic response for high-grade gliomas utilizes the updated RANO criteria 12 weeks after completion of chemoradiotherapy. However, there is an urgent need to identify nonresponding patients earlier, preferentially midtreatment in order to consider alternative treatment strategies. Imaging biomarkers, such as diffusion weighted MR imaging (DWI), have provided promising results in assessing early treatment response. Furthermore, a serum biomarker with diagnostic value could improve tumor follow-up and clinical management of gliomas. The aim of our study is to develop novel imaging protocols suitable for the magnetic resonance imaging (MRI) of glioma using advanced MRI techniques such as rotating frame imaging, novel DWI acquisition and post-processing methods We also study the correlation between advanced MRI parameters and histopathology of the tumor specimen. In addition, early treatment response is assessed with advanced MRI parameters at 3 week and 10 week after initiation of radiotherapy. Finally, our objective is to study the association between serum biomarkers and corresponding MRI with potential tumor progression.

NCT ID: NCT02023905 Terminated - Low Grade Glioma Clinical Trials

Everolimus With and Without Temozolomide in Adult Low Grade Glioma

Start date: March 19, 2014
Phase: Phase 2
Study type: Interventional

The purpose of this study is to find out what effects, good and/or bad, everolimus (RAD001, also known as Afinitor®) alone or with temozolomide has on the patient and the patient's low-grade glioma. Everolimus is being investigated as an anticancer agent based on its potential to prevent tumor cells from growing and multiplying. Specifically, there is a protein called mTOR that we think helps many tumors to grow, and everolimus blocks the effect of mTOR. Temozolomide is also an anticancer agent that prevents tumor cells from growing and multiplying.

NCT ID: NCT01837862 Recruiting - Clinical trials for Glioblastoma Multiforme

A Phase I Study of Mebendazole for the Treatment of Pediatric Gliomas

Start date: October 22, 2013
Phase: Phase 1/Phase 2
Study type: Interventional

This is a study to determine the safety and efficacy of the drug, mebendazole, when used in combination with standard chemotherapy drugs for the treatment of pediatric brain tumors. Mebendazole is a drug used to treat infections with intestinal parasites and has a long track record of safety in humans. Recently, it was discovered that mebendazole may be effective in treating cancer as well, in particular brain tumors. Studies using both cell cultures and mouse models demonstrated that mebendazole was effective in decreasing the growth of brain tumor cells. This study focuses on the treatment of a category of brain tumors called gliomas. Low-grade gliomas are tumors arising from the glial cells of the central nervous system and are characterized by slower, less aggressive growth than that of high-grade gliomas. Some low-grade gliomas have a more aggressive biology and an increased likelihood of resistance or recurrence. Low-grade gliomas are often able to be treated by observation alone if they receive a total surgical resection. However, tumors which are only partially resected and continue to grow or cause symptoms, or those which recur following total resection require additional treatment, such as chemotherapy. Due to their more aggressive nature, pilomyxoid astrocytomas, even when totally resected, will often be treated with chemotherapy. The current first-line treatment at our institution for these low-grade gliomas involves a three-drug chemotherapy regimen of vincristine, carboplatin, and temozolomide. However, based on our data from our own historical controls, over 50% of patients with pilomyxoid astrocytomas will continue to have disease progression while on this treatment. We believe that mebendazole in combination with vincristine, carboplatin, and temozolomide may provide an additional therapeutic benefit with increased progression-free and overall survival for low-grade glioma patients, particularly for those with pilomyxoid astrocytomas. High grade gliomas are more aggressive tumors with poor prognoses. The standard therapy is radiation therapy. A variety of adjuvant chemotherapeutic combinations have been used, but with disappointing results. For high-grade gliomas this study will add mebendazole to the established combination of bevacizumab and irinotecan to determine this combinations safety and efficacy

NCT ID: NCT01497860 Completed - Low-grade Glioma Clinical Trials

Vinorelbine for Children With Progressive or Recurrent Low-grade Gliomas

Start date: July 2011
Phase: Phase 2
Study type: Interventional

The purpose of this study is to investigate whether weekly Vinorelbine treatment can shrink or slow the growth of pediatric low-grade gliomas that have either returned or are continuing to grow. Vinorelbine is a semi-synthetic vinca alkaloid that has recently generated interest in patients with pediatric low-grade glioma. It has been specifically synthesized to broaden its therapeutic spectrum and decrease the neurotoxicity associated with related agents.

NCT ID: NCT01452854 Terminated - Low Grade Glioma Clinical Trials

Ovarian Aging in Low Grade Glioma (LGG) Treated With Temozolomide

OVA-LGG
Start date: October 2011
Phase:
Study type: Observational

The purpose of this study is to look at how a chemotherapy treatment (Temozolomide, also called Temodar) affects the process of ovarian aging which is measured by a decline in ovarian follicle count, in patients with Low Grade Glioma (LGG). It is important to know if different patient factors and Temozolomide influence the rate of ovarian aging in women with LGG who have good long-term survival rates. This will allow better counseling about the effects of this particular chemotherapy agent on fertility in women.

NCT ID: NCT01386450 Recruiting - Low Grade Glioma Clinical Trials

AZD6244 in Children With Low-Grade Gliomas

Start date: June 2011
Phase: Phase 1/Phase 2
Study type: Interventional

Background: - AZD6244 is an experimental drug designed to prevent tumor growth and shrink existing tumors. It has been studied in adults with cancer, but it has not been studied in children with cancer. Researchers want to see if AZD6244 is a safe and effective treatment for older children and young adults who have gliomas (brain tumors) that have not responded to standard treatments. Objectives: - To test the safety and effectiveness of AZD6244 in older children and young adults who have gliomas that have not responded to standard treatments. Eligibility: - People between 12 and 21 years of age who have gliomas that have not responded to standard treatments. Design: - Participants will be screened with a medical history and physical exam. They will also have blood tests and tumor imaging studies. Those in the study may also have their spinal fluid tested to see whether the cancer has spread to other parts of the nervous system. - Participants will take AZD6244 as a capsule. It must be swallowed whole on an empty stomach twice a day for 28 days. Those in the study will have up to 13 cycles (4 weeks each) of treatment (1 year). - Participants will keep a diary to record doses taken and any side effects of the treatment. - Participants will have frequent blood tests and imaging studies.

NCT ID: NCT01358058 Active, not recruiting - Low Grade Glioma Clinical Trials

Proton Radiation Therapy for Gliomas

Start date: May 2011
Phase: N/A
Study type: Interventional

In this research study the investigators are looking at a type of radiation called proton radiation. Proton radiation has been shown to deliver virtually no radiation beyond the area of the tumor, sparing surrounding normal tissue from exposure. This may reduce side effects that patients would normally experience with conventional radiation therapy. In this research study the investigators are looking to determine if proton radiation with a reduced field size will be as effective in controlling tumor growth as photon therapy, while reducing the treatment-related side effects observed in patients with brain tumors.