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Active clinical trials for "Brain Neoplasms"

Results 961-970 of 1541

Erlotinib and Temozolomide in Treating Young Patients With Recurrent or Refractory Solid Tumors...

Previously Treated Childhood RhabdomyosarcomaRecurrent Childhood Brain Tumor10 more

This phase I trial is studying the side effects and best dose of erlotinib when given with temozolomide in treating young patients with recurrent or refractory solid tumors. Erlotinib may stop the growth of tumor cells by blocking the enzymes necessary for their growth. Drugs used in chemotherapy, such as temozolomide, work in different ways to stop tumor cells from dividing so they stop growing or die. Giving erlotinib with temozolomide may kill more tumor cells.

Completed59 enrollment criteria

XERECEPT® (hCRF) for Patients Requiring Dexamethasone to Treat Edema Associated With Brain Tumors...

Brain EdemaBrain Tumor

The purpose of this study is to compare the safety and efficacy of XERECEPT® to dexamethasone (Decadron) a common treatment for symptoms of brain swelling (edema). This study is specifically aimed at patients who require chronic high doses of dexamethasone to manage symptoms.

Completed22 enrollment criteria

Gene Therapy in Treating Patients With Recurrent or Progressive Brain Tumors

Brain and Central Nervous System Tumors

RATIONALE: Inserting the gene for p53 into a person's brain cells may improve the body's ability to fight cancer. PURPOSE: Phase I trial to study the effectiveness of p53 gene therapy with SCH-58500 in treating patients who have recurrent, or progressive glioblastoma multiforme, anaplastic astrocytoma, or anaplastic mixed glioma that can be removed during surgery.

Completed3 enrollment criteria

Gene Therapy for the Treatment of Brain Tumors

Brain NeoplasmNeoplasm Metastasis

Malignant brain tumors are responsible for a significant amount of deaths in children and adults. Even with advances in surgery, radiation therapy, and chemotherapy, many patients diagnosed with a malignant brain tumor survive only months to weeks. In an attempt to improve the prognosis for these patients, researchers have developed a new approach to brain tumor therapy. This approach makes use of DNA technology to transfer genes sensitive to therapy into the cells of the tumor. Infections with the herpes simplex virus can cause cold sores in the area of the mouth. A drug called ganciclovir (Cytovene) can kill the virus. Ganciclovir is effective because the herpes virus contains a gene (Herpes-Thymidine Kinase TK gene) that is sensitive to the drug. Researchers have been able to separate this gene from the virus. Using DNA technology, researchers hope to transfer and implant the TK gene into tumor cells making them sensitive to ganciclovir. In theory, giving patients ganciclovir will kill all tumor cells that have the TK gene incorporated into them.

Completed3 enrollment criteria

Two-Part Study to Evaluate the Safety and Efficacy of Image Guided Surgery Using Indocyanine Green...

Brain TumorPrimary2 more

Primary malignant and non-malignant brain tumors account for an estimated 21.42 cases per 100,000 for a total count of 343,175 incident tumors based on worldwide population estimates [1]. These entities result in variable but disappointing rates of survival, particularly for primary brain tumors (5-year survival rates: anaplastic astrocytoma 27%; glioblastoma multiforme 5%) [2, 3]. Metastatic brain tumors outnumber primary brain tumors (estimates as high as 10:1) as they affect approximately 25% of patients diagnosed with cancer [4-6]. In terms of brain tumor surgery, the extent of surgical resection-a factor that is greatly impacted by a Neurosurgeon's ability to visualize these tumors-is directly associated with patient outcomes and survival [7-9]. Although spinal cord tumors are lower in terms of their incidence [10], data correlating extent-of-resection to outcomes and survival have been demonstrated in patients with intramedullary tumors [11]. Using systemically delivered compounds with a high sensitivity of detection by near-infrared (NIR) fluorescence, it would be possible for us to improve surgical resection thus minimizing chances of recurrence and improving survival. Simply, if the tumor cells will "glow" during surgery, the surgeons are more likely to identify tumor margins and residual disease, and are, therefore more likely to perform a superior cancer operation. By ensuring a negative margin through NIR imagery, it would make it possible to decrease the rates of recurrence and thus improve overall survival. This concept of intraoperative molecular imaging requires two innovations: (i) a fluorescent contrast agent that can be injected systemically into the subject and that selectively accumulates in the tumor tissues, and (ii) an imaging system that can detect and quantify the contrast agent in the tumor tissues.[12, 13] Subjects undergo intraoperative imaging, receiving an injection of indocyanine green and then undergoing intraoperative imaging of the surgery site with a NIR imaging system. The imaging devices allow the operating field to be observed in real-time.

Completed12 enrollment criteria

Understanding Communication in Healthcare to Achieve Trust (U-CHAT)

Brain TumorsSolid Tumor

Honest, clear, and empathetic communication between pediatric oncologists (POs) and parents of children with cancer (POCCs) is imperative to facilitating therapeutic alliance and ensuring that medical management aligns with the families' goals of care. Communication is particularly important during conversations about disease reevaluation, which often necessitate parental decision-making in the context of emotional distress. POs employ a spectrum of communication styles and strategies during challenging conversations, and there is no consensus regarding linguistic or thematic metrics for high quality communication of upsetting information. In order to better understand how POs communicate difficult information to POCCs, the investigators propose a pilot study designed to accomplish the following primary aim: Primary Objective: To identify recurrent verbal and nonverbal (e.g. the use of pauses/silence) communication techniques employed by POs in the delivery of difficult prognostic information to POCCs through content analysis of audio-recorded conversations between POs and parents of children with high risk cancer at the time of disease reevaluation. The study expects to enroll up to: 80 patient participants, 80 parents, and 15 primary pediatric oncologists (total = 175). Non-primary oncologist members of the clinical care team, extended family members, or friends of the family may also participate, if they choose to do so.

Active19 enrollment criteria

Brain Metastases in Norway - A Prospective Cohort Study

Brain Metastases

The overall aim and primary outcome of this study will be a descriptive analysis of the current treatment practice of BM in Norway. Specifically, it may give answers to the following research questions: What is the true incidence of BM in Norway? How are patients with BM treated at present? Do treatments differ between hospitals? How do treatments impact quality of life of the patients? Which factors (treatment, tumor and host variables) can explain disease control, survival, symptom relief, and general functions? How can BM staging be improved?

Active9 enrollment criteria

Improved Therapy Response Assessment in Metastatic Brain Tumors

Brain Metastases

TREATMENT is an observational study addressing the need for knowledge and adequate diagnostic biomarkers in the response assessment of patients with brain metastasis. Reliable response assessment will be highly relevant in the coming years given the introduction of next-generation cancer drugs, including immunotherapy. This project uses advanced Magnetic Resonance Imaging (MRI) and Vessel Architecture Imaging (VAI) to better understand the response to traditional stereotactic radiosurgery (SRS) and immunotherapy. Secondary objectives include: In patients with brain metastases, use advanced MRI and Vessel Architectural Imaging methods to reveal parameters of traditional, immunotherapeutic, and anti-angiogenic therapy response. In patients with brain metastases, use advanced MRI and Vessel Architectural Imaging methods to compare results with traditional biomarkers. Use existing infrastructure at Oslo University Hospital to standardize therapy monitoring. In patients with brain metastases, use advanced MRI and Vessel Architectural Imaging methods to separate real tumor progression from treatment-induced pseudoprogression or radionecrosis In patients with brain metastases, use advanced MRI and Vessel Architectural Imaging methods to assess whether anti-angiogenic drugs improve delivery of chemotherapy.

Active21 enrollment criteria

IDO2 Genetic Status Informs the Neoadjuvant Efficacy of Chloroquine (CQ) in Brain Metastasis Radiotherapy...

Brain Metastasis

This research is being done to determine if a short course of Chloroquine (five weeks) before, during and after whole brain radiation therapy (WBRT) will improve the overall survival of subjects being treated for brain metastases.

Completed12 enrollment criteria

Bevacizumab and Irinotecan for Patients With Primary Brain Tumors and Progression After Standard...

Brain NeoplasmsGlioma

Irinotecan has demonstrated activity in malignant gliomas in multiple phase II studies. The activity is limited, with an approximately 15 % response rate and a progression-free survival of 3-5 months. Given the synergy between irinotecan and bevacizumab in colorectal cancer, and the high-level expression of vascular endothelial growth factor on malignant gliomas, one would expect synergy between bevacizumab and irinotecan against gliomas. Recent data form a small study of 32 patients from Duke University have achieved a response rate of 62% in patients with malignant gliomas. Most included patients had glioblastomas, but this regimen may also have activity in more rare primary malignant brain tumors. The investigators therefore plan to include other primary malignant brain tumors in this study, and the clinical activity will be correlated with biomarkers and PET results of metabolic activity and blood flow. This may result in information that can be used to individualize therapy in the future.

Completed38 enrollment criteria
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