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85 active trials for Brain Tumor

A Longitudinal Assessment of Frailty in Young Adult Survivors of Childhood Cancer

Advances in cancer therapies have led to increasing numbers of adult survivors of pediatric malignancy. Unfortunately, treatment of childhood cancer continues to require agents designed to destroy malignant cell lines, and normal tissue is not always spared. While early treatment- related organ specific toxicities are not always apparent, many childhood cancer survivors report symptoms that interfere with daily life, including exercise induced shortness of breath, fatigue and reduced capacity to participate in physical activity. These symptoms may be a hallmark of premature aging, or frailty. Frailty is a phenotype most commonly described in older adults; it indicates persons who are highly vulnerable to adverse health outcomes. Frailty may help explain why nearly two thirds of childhood cancer survivors have at least one severe chronic health condition 30 years from diagnosis, why childhood cancer survivors are more likely than peers to be hospitalized for non-obstetrical reasons, and why they have mortality rates more than eight times higher than age-and-gender matched members of the general population. Frailty is a valuable construct because it can be distinguished from disability and co-morbidity, and is designed to capture pre-clinical states of physiologic vulnerability that identify individuals most at risk for adverse health outcomes. These investigators have recently presented data indicating that impaired fitness is present in survivors of childhood acute lymphoblastic leukemia, brain tumor and Hodgkin lymphoma. This is relevant because frailty, characterized by a cluster of five measurements of physical fitness, is predictive of chronic disease onset, frequent hospitalization, and eventually mortality in both the elderly and in persons with chronic conditions. Using a frailty phenotype as an early predictor of later chronic disease onset will allow identification of childhood and adolescent cancer survivors at greatest risk for adverse health. An early indicator of those at risk for adverse health will allow researchers to test, and clinicians to provide, specific interventions designed to remediate functional loss, and prevent or delay onset of chronic health conditions. The investigators goals include characterizing physical frailty over a five year time span in a population of young adult survivors of childhood cancer, as well as assessing the association between frailty and the increase in the number and severity of chronic health conditions.

Start: October 2014

Observational Trial of the Impact of Radiation Dose in Children With Brain and Skull Base Tumors.

This is a prospective, observational clinical trial investigating the morphological and volumetric changes in the brain following cranial Radiation Therapy in pediatric patients with brain or skull base tumors.

Start: March 2019

Phase I Study of a Dendritic Cell Vaccine for Patients With Either Newly Diagnosed or Recurrent Glioblastoma

The purpose of this study is to test the safety and effects of a special type of a cancer vaccine called a 'dendritic cell vaccine' in patients with either newly diagnosed or recurrent glioblastoma. The goal of this dendritic cell vaccine is to activate a patient's own immune system against their tumor. This study utilizes a patient's own immune-stimulating dendritic cells that are isolated in a procedure called leukapheresis. In a laboratory, these dendritic cells are treated in a way that is designed to promote an immune response against cancer stem cells. Then the dendritic cells are injected under the skin in a series of vaccinations, with the goal of activating an immune response against cancer stem cells in the tumor. To qualify for this study, patients must have very little to no residual tumor visible on a recent MRI. In addition to the vaccines, patients with newly diagnosed glioblastoma will receive standard temozolomide chemotherapy and radiation therapy. Patients with recurrent glioblastoma will not receive any treatment other than the vaccines as long as they are participating in this study, unless they were previously treated with bevacizumab, in which case they will be allowed to continue receiving bevacizumab.

Start: January 2014

Proton Craniospinal Irradiation With Bone Sparing to Decrease Growth Decrement From Radiation

This research study is studying proton radiation as a possible treatment for brain tumor that requires radiation. The radiation involved in this study is: -Proton Radiation

Start: January 2018

Pilot Study of Abemaciclib With Bevacizumab in Recurrent Glioblastoma Patients With Loss of CDKN2A/B or Gain or Amplification of CDK4/6

Describe the safety and adverse events associated with Abemaciclib 150 mg orally twice daily when administered with Bevacizumab 10 mg/kg intravenously every 2 weeks to recurrent GBM patients with specific tumor molecular aberrations

Start: December 2019

Multi-Parametric Quantitative MR Imaging in Evaluation of Brain Tumors

The purpose of the research study is to test new methods that could improve diagnosis and assessment of brain tumors. One of these methods is a new MR (magnetic resonance) imaging technique called magnetic resonance fingerprinting (MRF), which allows for rapidly scanning the patient and provides quantitative information on tumor tissue. The investigators will compare the data gathered from MR Fingerprinting with other imaging tests, clinical information, treatment details and biopsy results to evaluate the accuracy of this new technique.

Start: February 2017

Study of Letrozole in Recurrent Gliomas

The purpose of this study is to determine the ability of letrozole to penetrate the blood brain barrier and concentrate in gliomas.

Start: May 2017

A Study of the Treatment of Recurrent Malignant Glioma With rQNestin34.5v.2

This research study is evaluating an investigational drug, an oncolytic virus called rQNestin34.5v.2. This research study is a Phase I clinical trial, which tests the safety of an investigational drug and also tries to define the appropriate dose of the investigational drug as a possible treatment for this diagnosis of recurrent or progressive brain tumor.

Start: July 2017

Evaluation of Preoperative Functional Magnetic Resonance Imaging (fMRI) in Patients With Brain Tumors

The purpose of this study is to test the accuracy of using an imaging technique called breath-holding functional magnetic resonance imaging (BH fMRI) in addition to the standard imaging test described above. This study will allow the researchers to find out whether using BH fMRI in combination with the standard approach is the same as, better, or worse than the standard approach used alone.

Start: August 2018

Safety and Feasibility of the Infinity Catheter for Radial Access

The main objective of this single arm study is to evaluate the safety and feasibility of the AXS Infinity LS (Stryker, Freemont, CA, USA) and AXS Infinity LS Plus (Stryker, Freemont, CA, USA) catheters during the transradial approach through a secondary use of the data collected during neurointerventional procedures. This includes evaluating the conversion rates to a transfemoral approach. A secondary aim of the study is to assess the radial artery occlusion rates post procedure.

Start: October 2020

FBY PET/CT in Patients With Brain Tumors

This study is an open-labeled phase II diagnostic clinical trial to explore the safety and clinical value of FBY in suspected adult brain tumor patients. The investigation regarding the clinical value of FBY includes 1) the metabolic characteristics of FBY in suspected malignant brain tumors; 2) role of FBY to differentiate tumor progression from pseudoprogression. A single dose of 0.10 mCi/kg FBY will be intravenously injected for PET examination. Quantitative features will be extracted to analysis the PET images. Cranial MRI (with contrast enhancement) will also performed as diagnostic comparison with FBY. For patient who took surgery after multiple examination, histopathology, molecular pathology and LAT-1 immunohistochemistry will also be obtained.

Start: May 2018

ESWT for Shoulder Pain in Patients With Brain Damage

This study aimed to investigate the efficacy and safety of extracorporeal shockwave therapy (ESWT) for upper extremity pain related to spasticity in patients with spinal cord injury.

Start: May 2020

The SAFE-Trial: Awake Craniotomy Versus Surgery Under General Anesthesia for Glioblastoma Patients.

The trial is designed as a multicenter randomized controlled study. 246 patients with presumed Glioblastoma Multiforme in eloquent areas on diagnostic MRI will be selected by the neurosurgeons according the eligibility criteria (see under). After written informed consent is obtained, the patient will be randomized for an awake craniotomy (AC) (+/-123 patients) or craniotomy under general anesthesia (GA) (+/-123 patients), with 1:1 allocation ratio. Under GA the amount of resection of the tumour has to be performed within safe margins as judged by the surgeon during surgery. The second group will be operated with an awake craniotomy procedure where the resection boundaries for motor or language functions will be identified by direct cortical and subcortical stimulation. After surgery, the diagnosis of GBM will have to be histologically confirmed. If GBM is not histologically confirmed, patients will be considered off-study and withdrawn from the study. These patients will be followed-up according to standard practice. Thereafter, patients will receive the standard treatment with concomitant Temozolomide and radiation therapy and standard follow up. Total duration of the study is 5 years. Patient inclusion is expected to take 4 years. Follow-up is 1 year after surgery. Statistical analysis, cost benefit analysis and article writing will take 3 months.

Start: April 2019

[18F]Fluciclovine and [18F]FLT PET/CT Assessment of Primary High-Grade Brain Tumors

The hypothesis of this exploratory clinical trial in patients with high-grade a primary brain tumor who receive chemoradiation is that the PET imaging agents [18F]Fluciclovine and/or [18F]FLT will be a better predictor of tumor response than standard MRI based brain tumor response criteria. When used in conjunction, the two PET agents may be better able to predict tumor aggressiveness and thus overall survival than the use of individual-tracer PET biomarkers. This may eventually lead to improved assessment of response (including time to progression and overall survival) and differentiation of tumor recurrence/progression from treatment effect (pseudoprogression).

Start: March 2018

PET and MRI Imaging of Brain Tumors Using [18F]PARPi

This study is to collect data about how 18FPARPi can be used together with PET/positron emission tomography and MRI/magnetic resonance imaging scans to take pictures of brain cancer

Start: November 2019

Closed vs. Open Face Masks for Cranial Radiotherapy

The aim of the study is to evaluate whether open-face masks improve patient comfort/preference whilst maintaining immobilization performance as known for closed masks in patients undergoing whole or partial cranial radiotherapy.

Start: December 2019

Illness Management and Parental Adjustment to Cancer Treatment

The purpose of this study is to test the efficacy of a clinic-based intervention designed to reduce illness uncertainty for parents of children who have been recently diagnosed with cancer.

Start: November 2015

Efficacy and Safety of NaviFUS System add-on Bevacizumab (BEV) in Recurrent GBM Patients

This is a prospective, single-arm, two stages, open-label, pilot study to investigate the efficacy and safety of FUS add-on bevacizumab (BEV) in rGBM patients. The BEV is the best physician's choice of standard of care for rGBM after prior radiotherapy and temozolomide chemotherapy in the LinKou Chang Gung Memorial Hospital. Eligible patients will be enrolled through the process of informed consent.

Start: July 2020

Super-selective Intra-arterial Repeated Infusion of Cetuximab for the Treatment of Newly Diagnosed Glioblastoma

Primary brain cancer kills up to 10,000 Americans a year. These brain tumors are typically treated by surgery, radiation therapy and chemotherapy, either individually or in combination. Present therapies are inadequate, as evidenced by the low 5-year survival rate for brain cancer patients, with median survival at approximately 12 months. Glioma is the most common form of primary brain cancer, afflicting approximately 7,000 patients in the United States each year. These highly malignant cancers remain a significant unmet clinical need in oncology. GBM often has a high expression EFGR (Epidermal Growth Factor Receptor) which is blocked by Cetuximab (CTX). The investigators have recently completed a separate Phase I clinical trial using superselective intra-arterial cerebral infusion (SIACI) of CTX after blood brain barrier disruption (BBBD) for recurrent GBM (Chakraborty et al, in revision, Journal of Neurooncology). The investigators found that intra-arterial infusion of CTX is well tolerated with few adverse effects. The investigators hypothesize that in patients with newly diagnosed GBM, repeated SIACI of this drug after BBBD will be safe and efficacious for our patients when combined with standard chemoradiation (STUPP protocol). This trial will be a non-randomized open label Phase I/II clinical trial. In addition to standard chemotherapy and radiation therapy (STUPP protocol) the patient will be given CTX intra-arterially after BBBD for a total of three doses at approximately post surgery days 30, 120 and 210.

Start: June 2016

Super Selective Intra-arterial Repeated Infusion of Cetuximab (Erbitux) With Reirradiation for Treatment of Relapsed/Refractory GBM, AA, and AOA

Primary brain tumors are typically treated by surgery, radiation therapy and chemotherapy, either individually or in combination. Present therapies are inadequate, as evidenced by the low 5-year survival rate for brain cancer patients, with median survival at approximately 12 months. Glioma is the most common form of primary brain cancer, afflicting approximately 7,000 patients in the United States each year. These highly malignant cancers remain a significant unmet clinical need in oncology. GBM often has a high expression of EFGR (Epidermal Growth Factor Receptor), which is associated with poor prognosis. Several methods of inhibiting this receptor have been tested, including monoclonal antibodies, vaccines, and tyrosine kinase inhibitors. The investigators hypothesize that in patients with recurring GBM, intracranial superselective intra-arterial infusion of Cetuximab (CTX), at a dose of 250mg/m2 in conjunction with hypofractionated radiation, will be safe and efficacious and prevent tumor progression in patients with recurrent, residual GBM.

Start: May 2016