View clinical trials related to Neuroma Amputation.
Filter by:Neuroma often occurs after major nerve damage or transection and can be diagnosed with pain at the tip of the stump, positive tinel, imaging (USG/MR). Various treatment methods are used for neuropathic pain, including pharmacological agents, intralesional steroid and local anesthetic injection, alcohol, phenol, radiofrequency or cryotherapy, ablation and surgical applications. Exercise (ROM and relaxation), TENS, biofeedback, hypnosis, acupuncture, psychotherapy, mirror therapy can be used in the treatment of neuropathic pain in amputees. In this study, the investigators aimed to examine the effectiveness of acupuncture on pain, neuroma size and functional status in individuals with lower extremity amputation with neuroma.
To assess changes in pain, physical function, and health-related quality of life in patients with post-amputation neuroma-associated residual limb pain after cooled radiofrequency ablation.
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.
Background: The formation of neuromas, a fusiform swelling of a nerve or nerve ending, is a well documented response to limb amputation. Likewise, Residual Limb Pain (RLP), pain felt from the remaining portion of the amputated limb, is common among amputees. Neuromas are found in more than 90% of lower extremity amputations, of which 30-50% are pain-generating for the patient . And while surgical techniques reveal the commonly held belief that neuroma formation is one of the causal drivers behind RLP, there has been no study to demonstrate that the two events - namely the magnitude of neuroma formation and the magnitude of pain experienced by amputees - are correlated. If this correlation, or lack thereof, were elucidated with the use of ultrasonography, this would provide the preliminary data which could lead to further studies in neuroma minimization and/or proliferation. Objective: This study seeks to use ultrasonography (US) to quantify the degree to which neuroma size and the nature of surrounding tissue correlate with the experience of RLP in trans-femoral amputees. Setting and Subjects: This study will enroll 30 trans-femoral amputees, male and female, who are over the age of 18. The study will take place in the OHSU Orthopaedic Outpatient Clinic, and OHSU Imaging Department. Intervention: None. This is an observational clinical study in which we will characterize the sciatic nerve/neuroma and surrounding tissue using ultrasound. Measurements: We will use US to measure the cross sectional area of the neuroma at its widest point and compare this to the cross section of the same neuron at the lesser trochanter. Furthermore, we will describe the morphology of the neuroma. To quantify the subject's pain experience we will utilize the Questionnaire for Persons with Transfemoral Amputation (Q-TFA), Trinity Amputation & Prosthetic Experience Scale (TAPES), Visual Analog Scale (VAS), and the Short Form 36 (SF-36). Analysis: The statistical analysis will employ a Pearson correlation coefficient and linear regression analysis.