View clinical trials related to Neuroma.
Filter by:Subjects are being asked to participate in this study because they have an arm or leg amputation and have developed pain related to a neuroma (an ongoing localized pain related to a cut nerve ending). The investigators are studying how targeted reinnervation (TR) helps to both treat neuroma pain and to have increased prosthetic control. This surgery connects these cut nerve endings to nerves going into nearby nonfunctional muscles. This surgery was developed to allow amputees to have better prosthesis control. By chance, neuroma pain improved significantly with TR. The investigators, therefore, are conducting this clinical trial. The investigators will ask all participants to fill out a questionnaire both before and after surgery. This will help us understand how a neuroma affects the quality of life of amputee will allow us to understand how to best improve neuroma pain and prosthesis control. In order to confirm the presence and location of the neuroma before surgery, a magnetic resonance image (MRI) will be performed. Taking these pictures requires subjects to lie still for a short period of time but does not involve any invasive procedures.
The goal of this project is to determine whether subjects who have undergone labyrinthectomy or a translabyrinthine surgical approach as the treatment for vestibular schwannoma or Meniere's disease benefit from cochlear implantation on speech perception and localization tasks. If the auditory nerve is able to transmit this signal effectively, then these two populations may be able to utilize the combination of electric (in the affected ear) and acoustic (in the non-affected ear) information for improved speech perception in noise and localization as reportedly experienced in other unilateral sensorineural hearing loss populations.
Background Subanesthetics concentrations of lidocaine are able to produce a differential block of the ectopic discharges, but not propagation of impulses, suppressing differentially the associated neuropathic pain symptoms. The aim of this study was to investigate the differences between the analgesic effects of lidocaine 0.5% and a control group of lidocaine 0.1% on several neuroma related pain modalities. Methods Sixteen patients with neuropathic pain due to painful neuromas caused by nerve injury participated in this randomized, double-blind experiment. The patterns of sensory changes were compared before and after injection of 1 ml lidocaine 0.5% and 0.1% close to the neuroma, the sessions being 1-2 weeks apart. Spontaneous and evoked pains were assessed using a visual analogue scale (VAS), quantitative and qualitative sensory testing.
Study 4975-MN-202 is a double-blind, placebo-controlled, parallel group, single-injection study in which subjects will be randomized to receive three doses of CNTX-4975 or placebo injected into the intermetatarsal space around a Morton's neuroma. The injection of study medication will be administered by ultrasound-guided needle placement following ankle block anesthesia. The study staff will telephone subjects at Week 1 postinjection and subjects will return to the clinic postinjection at Weeks 2, 4, 8, and 12 for study assessments.
Subjects are being asked to participate in this study because they have an arm or leg amputation and have developed pain related to a neuroma (an ongoing localized pain related to a cut nerve ending). We are studying two different types of surgery to treat the neuroma pain. Today there are many surgical options reported which often means that there is no one best treatment. The surgery that shows the best success so far, involves cutting out the scarred nerve ending (neuroma) and burying the freshly cut nerve ending in a nearby muscle. Recently, a new surgery has been developed called targeted reinnervation (TR). This surgery connects these cut nerve endings to nerves going into nearby nonfunctional muscles. This surgery was developed to allow amputees to have better prosthesis control. By chance, neuroma pain improved significantly with TR. We, therefore, are conducting this clinical trial to evaluate which of these two surgeries best treats neuroma pain. We will ask all participants to fill out a questionnaire both before and after surgery. This will help us understand how a neuroma affects the quality of life of amputees and will allow us to understand which surgery leads to the best improvement in neuroma pain. In order to confirm the presence and location of the neuroma before surgery, a magnetic resonance image (MRI) will be performed. Taking these pictures requires subjects to lie still for a short period of time but does not involve any invasive procedures. After surgery, the MRI will be done again, this time to see if the nerve shows signs of scarring.
Neuroma excision and digital nerve reconstruction remain the best option for the treatment of Painful Digital Neuroma (PDN). When the distal nerve end is preserved, conventional nonvascularized nerve grafting is the primary option to bridge the defect. The investigators hypothesize the pedicled nerve flap taken from the dorsal branch of the homolateral digital nerve is better than conventional methods for reconstruction of the digital nerve defect after painful neuroma resection. This study reports treatment of painful digital neuroma using a pedicled nerve flap taken from the dorsal branch of homolateral digital nerve. From May 2007 to March 2010, the patients had previous nerve injuries with or without nerve repair. The mechanisms of injury include sharp cut, avulsion and crush. The defects were between the middle of the distal phalanx and the palmar digital crease.
The purpose of this study is to see how Post Amputation Pain (PAP) affects the body and brain by using sensory testing (such as pinprick testing), taking pictures of your brain (using a functional magnetic resonance imaging (fMRI) machine) and biomedical interventions (such as an injection of pain medicine). All medicines and the fMRI machine used during this study are FDA approved. The investigators hope that by learning the causes of PAP, the investigators can help future amputees.
To characterize the phenotype in patients with Morton's neuroma and to explore the effect of local administration of Xylocaine (lidocaine)
The investigators study is to investigate safety and efficacy of performing a planned incomplete removal of large acoustic neuroma tumors to decrease surgical morbidity and yet avoid tumor recurrence by post-operative radiation therapy.
Tumors can grow on the auditory nerves and can cause hearing loss. A common type of tumor that does this is a vestibular schwannoma (VS), or acoustic neuroma. These tumors are not cancerous. Most often, people have only one VS. Occasionally, people have more than one VS and may have a condition called neurofibromatosis type 2 (NF2). Because VS can cause hearing loss, many people with VS will have treatment to preserve their hearing. This treatment usually involves surgery or radiation therapy. There are risks to these procedures, and sometimes they do not work to prevent hearing loss. Because surgery and radiation have risks and are not able to help everyone with VS, 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 VS from growing larger and causing hearing loss, and might possibly even cause the VS to shrink in size. This study is exploring whether a drug that is approved by the FDA and is currently used to treat breast cancer might also work to treat VS. This study will measure the amount of drug that travels from the bloodstream and arrives at the tumor. This drug is safe and has few side effects. If this drug is shown to reach the tumor, it might be used in the future to treat VS without needing surgery or radiation. This study is recruiting people who are having surgery for VS. If you are going to have surgery to treat a VS, you may be eligible to participate.