View clinical trials related to Neurofibroma.
Filter by:To examine the test-retest reliability (how stable the results are when the same participants, whose symptoms have remained stable, are assessed on 2 different occasions, 14 days apart) of the 10 meter walk test, the timed up and go test, the functional reach test and the grip dynamometry test in adults with neurofibromatosis 1 (NF1).
Neurofibromatosis 1 (NF1) is a multisystem disorders characterized by skin abnormalities, such as café-au-lait spots and neurofibromas, learning disabilities, skeletal anomalies and vascular complications. Experience learns that this disorder is a great burden for patients. NF1 is an autosomal dominant disorder with 50% risk of transmission. The penetrance is nearly 100%, but the expression varies greatly even within families, which makes it nearly impossible to predict severity in offspring. Preimplantation genetic diagnosis (PGD) is a reproductive option for couples at risk of transmitting NF1 to their offspring. We perform a retrospective and observational multicentric study in the Maastricht University Medical Center, the University Hospital of Brussel and Strasbourg University Hospital. Our specific (and first) goal is to evaluate the molecular aspects of PGD for NF1 in an international cohort of couples requesting PGD for NF1. About 50% of the patients with NF1 have a de novo mutation that can complicate development of a PGD test. Earlier studies from 1990 and 1992 have shown that de novo NF1 mutations usually occur on the paternal allele. We want to confirm these findings with collected data from our cohort. The high incidence of de novo mutations results in a higher chance of finding mosaicism in patients or their parents. As a result of this, it can become apparent during PGD test preparation that PGD treatment is no longer possible or indicated. The investigators will evaluate these aspects of PGD for NF1 in our cohort. They are also interested, as a second goal, in other aspects of PGD treatment for NF1, such as the success rate in thier cohort. They expect the success rate to be the same as for other autosomal dominant disorders
This is a two-staged, Phase 2/3, randomized, multi-center study to investigate the efficacy and safety of REC-2282 in patients with progressive NF2 mutated meningiomas.
The overall objective is to demonstrate safety and efficacy of HIFU treatment of cutaneous neurofibromas located close to the surface of the skin in patients with the genetic disease Neurofibromatosis Type 1. The study will use a new investigational equipment that has been specially developed for dermatological therapy. The study includes 20 patients in total distributed between the two centers, each having a minimum of 8 cutaneous neurofibromas eligible for treatment. All participants are adults (over 18 years) of both sexes. The new treatment method is based on focusing intensive ultrasound just below the skin surface. This creates a very fast localized heating in small and very well-defined volumes containing neurofibroma tissue. This heating destroys or weakens the tissue, and the body's natural processes will subsequently transport affected cells away through the lymphatic and vascular systems. During the healing-process, the rejected tissue is replaced by new skin cells that are not expected to be fibrous. The treatment is intended to be carried out without breaking the skin surface, and open wounds are therefore avoided. This is an essential advantage of the method compared to all existing therapies, which are based on physical removal of tumors through an open skin surface (e.g. surgery or laser therapy). Complications with risk of pain, infection and scarring will therefore be significantly reduced with the new proposed method. The treatment is carried out by sending focused ultrasound from the handpiece of the equipment into the target area with neurofibromas. The equipment is set to send doses of approximately 150 milliseconds (0.15 seconds). The skin area and HIFU doses can be followed on the system computer screen and will be placed side-by-side with approximately 1-2 millimeter spacing. To achieve good energy transfer from handpiece to skin, ordinary ultrasound gel is used. There are no other special pre-treatments or preparations for the process. HIFU treatment is expected to be less painful than other treatments used. The treatment is quick, and typically takes less than 1 minute for a each area the size of a typical neurofibroma.
This study is a Phase I clinical trial to evaluate the tolerability and pharmacokinetics of TQ-B3234 capsules in Chinese subjects associated with neurofibromatosis type I (neurofibroma and peripheral malignant neurilemmoma). Two study phases were designed, including (1) dose escalation and (2) cohort expansion. The purpose of this study was to evaluate the tolerance, pharmacokinetic characteristics, efficacy and safety of TQ-B3234 capsule, and to explore the therapeutic biomarkers related to this product.
This study in adolescent participants with NF1 who have inoperable PN is designed to evaluate the effect of a low fat meal on steady state selumetinib exposure; to assess the effect on GI tolerability when selumetinib is dosed under fed and fasted conditions; and potentially, to confirm an appropriate dosing recommendation of selumetinib with a low fat meal that maintains efficacy with acceptable safety. These results may support labelling statements with regard to posology and food.
This program is being offered on a patient by patient basis and will require company, Institutional Review Board/Independent Ethics Committee, and applicable competent authority approval.
AL2846 is a multi-target receptor tyrosine kinase inhibitor. The purpose of this study is to evaluate the safety and efficacy of AL2846 capsules in Chinese patients with type I neurofibromatosis (NF1) (neurofibromas and malignant peripheral nerve sheath tumors).
This is a randomized, double-blind, vehicle-controlled, parallel group dose response study evaluating the safety and effectiveness of 2 concentrations of NFX-179 Gel in subjects with cutaneous neurofibromas. At Visit 1, the investigator will identify 10 Target cNFs that fulfil the enrollment criteria. The Target cNFs must be located on the subject's face, anterior trunk, or upper extremities. Two Target cNFs must be on the face and 8 must be on the anterior trunk or upper extremities. The study medication will be applied topically QD to the Target cNFs for 182days (26 weeks). During the duration of the study subjects will be evaluated for safety and efficacy.
Intellectual impairment, particularly working memory deficits are a significant cause of morbidity in children with Neurofibromatosis type (NF1) with long-term implications on academic and occupational functioning. Whilst significant discoveries have been made in Nf1 animal models in trying to find treatments for these conditions, human translational studies have not been successful. This mechanistic experimental study will investigate the neural mechanisms underlying working memory deficits in NF1. In particular, we will investigate how individual differences in inhibitory neurotransmitter GABA relate to performance on working memory tests. Further, we will investigate the use of a novel, experimental intervention called transcranial Direct Current Stimulation (tDCS);known to modulate GABA. Using a randomized, crossover design in a cohort of 30 adolescents aged 11-17 years, we will apply real or sham tDCS to the dorsolateral prefrontal cortex (DLPFC). State-of-art real time imaging techniques such as Magnetic Resonance Spectroscopy (MRS) and task based functional MRI (fMRI) will be used to investigate the effect of tDCS on GABA concentration, changes in functional plasticity and working memory. We expect that results from this study will help elucidate the neural mechanisms underlying working memory deficits in people with NF1 and show biologic activity for a novel, low-cost intervention that can be used for cognitive remediation in NF1. This kind of focused mechanism trial method is a highly promising approach to understanding the complex neural system pathology in a multifactorial neurodevelopmental condition like NF1.