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Active clinical trials for "Brain Neoplasms"

Results 501-510 of 1541

Pilot Study of Vardenafil and Carboplatin in Patients With Gliomas and Brain Metastases

GliomaBrain Neoplasms1 more

This is a randomized pilot study to investigate the ability of a phosphodiesterase-V inhibitor (vardenafil) to increase the concentration of systemically delivered chemotherapy, carboplatin, in patients with recurrent malignant gliomas or metastatic brain cancer. This study will also determine the toxicity and tolerability of a phosphodiesterase-V inhibitor (vardenafil) in combination with intravenous carboplatin for patients with recurrent malignant gliomas or metastatic brain cancer.

Terminated15 enrollment criteria

Radiosurgery Plus NovoTTF-200A for Metastatic Small Cell Lung Cancer to the Brain

Brain MetastasesSmall Cell Lung Cancer

This study is a prospective single arm trial designed to study the safety and effectiveness of a medical device, NovoTTF-200A, used with stereotactic radiosurgery (SRS) in subjects with brain metastases from small cell lung cancer (SCLC).

Terminated24 enrollment criteria

High Dose Chemotherapy With Amifostine and Autologous Stem Cell Transplantation for High Risk Relapsed...

Solid TumorsBrain Tumors

This is a study of amifostine to determine how effective it is in the reduction of infection in a high dose chemotherapy regimen with autologous stem cell rescue in children with high risk, relapsed or refractory pediatric solid tumors.

Terminated19 enrollment criteria

Managing Distress in Malignant Brain Cancer

Cancer Metastatic to BrainBrain Metastases1 more

To identify potential adaptations of the managing cancer and living meaningfully (CALM) intervention that will be required for service members, Veterans, their beneficiaries, and civilian cancer metastasis to the brain (bMET) populations.

Active10 enrollment criteria

Brigatinib Before Brain Irradiation Trial (B3i Trial)

Brain MetastasesLung Cancer

This is a single arm phase II study of brigatinib alone for patients with brain metastases from anaplastic lymphoma kinase (ALK) positive non-small cell lung cancer (NSCLC), who have either not been treated previously with a tyrosine kinase inhibitor (TKI) targeting ALK or who have had prior exposure to crizotinib.

Terminated45 enrollment criteria

A Phase II Study of Dacomitinib in Progressive Brain Metastases

Brain Cancer

The purpose of this study is to determine the disease response, survival, and side effects of an experimental drug called dacomitinib in progressive brain metastases.

Terminated22 enrollment criteria

Study of Whole-brain Irradiation With Chloroquine for Brain Metastases

Brain Metastasis

Background and purposes:Chloroquine (CLQ), an antimalarial drug, has a lysosomatrophic effect associate with increase the sensibility of Radiation through leakage of hidroliticenzimes, increase of apoptosis, autophagy mediated by lysosomalhidrolases and increase of oxidative stress "in vitro". In this phase II study we evaluated the efficacy and safety as radiosensitizing of the Chloroquine plus concomitant 30 Gray (Gy) of Whole-brain irradiation (WBI)in patients with brain metastases (BM) from solid tumors.

Terminated7 enrollment criteria

Vorinostat and Concurrent Whole Brain Radiotherapy for Brain Metastasis

Brain Metastasis

Vorinostat is a potent and well tolerated HDAC inhibitor. It has been reported to enhance radiosensitivity of cancer cells. We hypothesize that the addition of vorinostat to WBRT may increase therapeutic efficacy for patients with brain metastases.

Terminated34 enrollment criteria

Study of Immunotoxin, MR1-1

Supratentorial Malignant Brain Tumor

Purpose of the study: Primary Objective: Determine the maximum tolerated dose (MTD) and dose limiting toxicity (DLT) of MR1-1KDEL when delivered intracerebrally by convection-enhanced delivery (CED) in patients with supratentorial malignant brain tumors. Secondary Objective: Document any radiographic responses associated with intracerebral CED of MR1-1KDEL. Hypothesis: The investigators believe that MR1-1KDEL will be an effective anti-tumor agent for patients with supratentorial malignant brain tumors when delivered by CED. Design & procedures: This protocol is designed primarily to determine the MTD and DLT of a novel, tumor-specific immunotoxin, MR1-1KDEL. MR1-1KDEL will be delivered intracerebrally by CED using 2 intracerebral catheters with at least one catheter placed within the enhancing portion of the tumor. 124I-labeled albumin will be co-infused with gadolinium and PET and MRI images will be obtained at the conclusion of the infusion to monitor volume of drug distribution and leakage into the CSF space. Based on preclinical toxicity studies, the starting total drug dose will be 0.5μg (500ng) which represents 1/20th of the MTD in rats. The infusion flow rate will be fixed at 0.5 mL/h from each of two to four catheters. A total of 144 mLs of drug solution will be delivered over 72 hours. MR1-1KDEL dose escalation will be accomplished by increasing drug concentration allowing flow rate and infusion volume to remain unchanged. Drug dose will be doubled in successive cohorts so long as DLTs are not observed as follows: 25 ng/mL (2.4 μg)(starting dose); 50ng/mL (4.8μg); 100 ng/mL (9.6μg); 200ng/mL (19.2μg); 400 ng/mL (38.4μg); 800 ng/mL (76.8μg); and 1600 ng/mL (153.6μg). At least 3 patients will be enrolled in each cohort. All patients in a given cohort will be observed for at least two weeks following infusion of the study drug before patients in the next cohort are treated. If no patients in a given cohort experience a DLT, the dose will be escalated in the next cohort. If 1 out of 3 patients in a given cohort experience DLT, 3 additional patients will be entered in that cohort. If 2 patients develop a DLT in any cohort of 3 or 6 patients, the previous dose will be declared the MTD. Patients will be followed at 1, 3, 6, 9, 12 month intervals for toxicity and adverse events, radiographic response, and survival. Patients will be off study when progressive disease is documented. Risk/benefit assessment: This is an experimental study and unforeseeable or unexpected risks may be involved.

Terminated14 enrollment criteria

Safety Study of Aminolevulinic Acid (ALA) to Enhance Visualization and Resection of Tumors of the...

Glioma

The prodrug, 5-Aminolevulinic acid (ALA), has been shown to lead to intracellular accumulation of fluorescent porphyrins in high grade malignant gliomas in the brain. On imaging, this accumulation of fluorescent porphyrins helps delineate tumor borders, resulting in the surgeon being better able to visualize and thus able to make a complete, or near-complete resection of the tumor.

Terminated11 enrollment criteria
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