View clinical trials related to Neurofibromatoses.
Filter by:Background: - Plexiform neurofibromas are tumors that grow in and around nerves. The only way to treat them is with surgery. Some of these tumors cannot be completely removed. The tumors may be too large, too numerous, or in a bad location for surgery. An experimental drug called AZD6244 hydrogen sulfate may be able to prevent the tumors from growing, slow down their growth, or shrink them. This drug has been tested in adults with cancer and in children with some types of brain cancer. This study will test how well this drug works with these types of tumors. Objectives: - To study the safety and effectiveness of AZD6244 hydrogen sulfate in children and young adults with plexiform neurofibromas that cannot be completely removed by surgery. Eligibility: - Children and young adults between 12 and 18 years of age who have plexiform neurofibromas that cannot be completely removed by surgery. Design: - Patients will be screened with a physical exam, medical history, blood tests, and imaging studies. - They will take the study drug twice a day with 8 ounces of water, every day for 28-day cycles of treatment. During study visits, participants will have blood and urine tests and physical exams. They will also have imaging studies to examine the tumor sizes and locations. They will answer questions about their health. They may have other tests as needed. - Participants will continue to receive the study drug as long as they have no severe side effects and the disease is not getting worse.
The purpose of the study is to determine if RAD001 treatment will shrink or slow the growth of the vestibular schwannoma(s) in Neurofibromatosis 2 (NF2) patients. Secondary objectives include determining if RAD001 treatment will improve hearing ability in NF2 patients. RAD001 is an oral drug that is approved by Food and Drug Administration (FDA) for other types of tumors, it is not approved by the FDA for treatment of NF2 related tumors.
The purpose of this study is to determine if a drug called sorafenib can shrink LGA tumors (low-grade astrocytomas) in children and adults. Previous research has given us a better understanding of this type of tumor by studying the genetic "make-up" of LGAs. From this research, the investigators found that a drug called sorafenib may stop the growth of tumor cells by blocking some of the molecules needed for cell growth and by blocking blood flow to the tumor. This trial is studying how well sorafenib works in treating patients with LGAs, and how the effects relate to the specific genetic "make-up" of your particular tumor. This testing of your tumor's genetic make-up is optional and requires available tumor tissue for testing. In summary, the aims of this study are: To see if sorafenib can shrink LGAs; how well sorafenib is tolerated in patients with LGAs; and, how the effects of sorafenib relate to the genetic make-up of individual LGAs (Optional Study)
The purpose of this Pilot Study is to determine if NF1 patients with plexiform neurofibromas treated with Tasgina® respond to therapy.
Background: - Neurofibromatosis type II (NF2) is associated with tumors of the nerves, brain, and spinal cord. Most people with NF2 develop vestibular schwannomas, or tumors on the hearing and balance nerves. As they grow, vestibular schwannomas can cause hearing loss and balance problems. If they grow very large they can cause more serious problems, such as seizures, loss of eyesight, weakness, speech problems, and problems with the sense of touch. More research is needed into NF2 because researchers do not completely understand why these tumors occur or what makes them grow over time. - Currently, tumor size is measured with magnetic resonance imaging (MRI) scans. However, MRI scans cannot predict how fast a tumor will grow. By using positron emission tomography (PET) scanning, researchers hope to be able to predict sudden growth spurts of tumors associated with NF2 and develop better treatment methods for this type of cancer. Objectives: - To use magnetic resonance imaging and positron emission tomography to better understand the growth of brain tumors in people with neurofibromatosis type II. Eligibility: - Individuals between 18 and 50 years of age who have been diagnosed with NF2 and have at least three untreated intracranial tumors. Design: - This study requires an initial set of outpatient visits to the NIH Clinical Center that will last 7 to 10 days. - Participants will have a physical and neurological examination and blood tests at the first visit. Participants will then have the following imaging studies to examine the tumors: - MRI scans of the brain - PET scans of the brain, combined with a computed tomography (CT) scan. The PET scans will be performed on separate days. Different contrast agents will be used for both scans, so researchers will inform participants if they need to fast or follow other procedures before having the scan. - After the initial imaging studies, participants will have additional MRI scans every 6 months for 2 years to track tumor growth.
Neurofibromatosis type 1 (NF1) is a frequent autosomal dominant disorder, caused by heterozygous mutations of the NF1 tumor suppressor gene (chr.17q11.2). One of the main clinical features is the development of benign and malignant tumors. The most common benign tumors in these patients are tumors of the peripheral nerve, named neurofibromas. Every NF1 patient has a life time risk of 8-13% to develop a malignant peripheral nerve sheath tumor (MPNST) starting from a pre-existing neurofibroma. MPNSTs lead to a bad prognosis for the patient, with an overall five-year survival of less than 25%. Complete resection is the standard treatment, but this is often difficult due to the size of the tumors and the location on important nerves, moreover the tumor is frequently metastatic at the time of diagnosis. For MPNSTs, like for other cancers, the extent and the spread of the disease at time of diagnosis is an important factor in determining treatment outcome. In this regard, the analysis of tumor derived cell-free circulating DNA in plasma of NF1 patients would open up the possibility to diagnose and monitor the development and progression of MPNSTs using a small blood sample. In cooperation with P. Schöffski (UZLeuven), we plan to collect blood samples from cancer patients to optimize the DNA extraction procedure starting from plasma samples. It is known that patients with cancer have a higher amount of free circulating DNA in plasma than individuals without cancer and therefore we want to optimize the DNA extraction procedure on plasma from patients with cancer. In the meantime, matching MPNST and plasma samples from NF1 patients will be collected and sent to us from the University of Eppendorf (Victor Mautner) to optimize the array CGH protocol for the detection of copy number changes in plasma DNA of NF1 patients with MPNSTs.
Neurofibromatosis type 1 (NF1) is a frequent, autosomal dominant disorder caused by heterozygous mutations (intragenic or microdeletion) of the NF1 tumor suppressor gene (chr.17q11.2). One of the clinical features is the development of benign and malignant tumors. The most common benign tumors in these patients are tumors of the peripheral nerve sheath, named neurofibromas (cutaneous, subcutaneous and plexiform). Every NF1 patient has a life time risk of 8 to 13% of developing a malignant peripheral nerve sheath tumor (MPNST) out of a pre-existing neurofibroma. In patients with a NF1 microdeletion (5% of NF1 patients), this risk is even twice as high compared to patients with an intragenic mutation. MPNSTs lead to a bad prognosis for the patient, with an overall five-year survival of less than 25%. To know more about the development and progression of these tumors, they will be screened by microarray comparative genome hybridization (Leuven) and full exome sequencing (Leuven). Further experiments will be done in cooperation (bidirectional) with the foreign labs of Victor Mautner (Germany), André Bernards (USA), Karen Cichowski (USA) and Yuan Zhu (USA). For all these experiments, we will make use of tumoral rest material removed from NF1 patients.
People who have neurofibromatosis type 2 (NF2) can have tumors that grow on the auditory nerves and cause hearing loss. These tumors are called vestibular schwannomas (VSs), or acoustic neuromas. People with NF2 can also get schwannomas in other parts of their body, as well as tumors called meningiomas and ependymomas. Because VSs can cause hearing loss, many people with NF2 will have treatment to preserve their hearing. This treatment usually involves surgery. Because surgery has risks and is not able to help everyone with VSs, other methods of treatment are being explored. One area of exploration is looking to see if there is a drug that can be taken that might prevent the VSs from growing larger and causing hearing loss or brainstem compression. This study is exploring whether a drug that is approved by the FDA and is currently used to treat other tumors might also work to treat VSs. Based on people who have taken this drug to treat VSs already, there is some reason to think that it might be helpful to certain people with NF2. People enrolled in this study will receive the drug one time every three weeks for one year by infusion. This study will follow subjects over the course of the year that the person is taking the drug and for six months after the drug is stopped. This study is recruiting people who have NF2 and are currently having symptoms of tinnitus, dizziness, and/or hearing loss from their VSs. If you have NF2 and are currently having symptoms caused by your VSs, you may be eligible to participate.
This is a second Pilot Study to determine the efficacy of Gleevec® in neurofibromatosis (NF1) patients with plexiform neurofibromas using new response assessment modalities with the secondary goals of assessing Gleevec toxicity, and characterizing markers of response. The rationale for this study arises from the response of human and murine NF1 cells to Gleevec® in vitro, the response of a NF1 patient treated with Gleevec® for airway compression by a plexiform neurofibroma with a dramatic response not previously seen in NF1 therapy, and the experience in 37 NF1 patients treated with Gleevec® in the initial pilot study. Gleevec will be dosed orally with a starting dose of 100 mg twice daily for patients with a BSA > 1.8 m2 or 55 mg/m2 twice daily for patients with BSA < 1.8 m2. For patients with a BSA > 1.8 m2 the dose will increase by increments of 100 mg bid every two weeks as tolerated up to a maximum dose of 400 mg bid. For patients with a BSA < 1.8 m2 the dose will increase by increments of 55 mg/m2 bid every two weeks as tolerated up to a maximum dose of 220 mg/m2 bid. Treatment will continue for 6 months with an option to continue for 24 months if the patient is deriving a clinical benefit.
RATIONALE: Monoclonal antibodies, such as bevacizumab, can block tumor growth in different ways. Some block the ability of tumor cells to grow and spread. Others find tumor cells and help kill them or carry tumor-killing substances to them. PURPOSE: This phase II trial is studying how well bevacizumab works in treating patients with recurrent or progression meningiomas.