View clinical trials related to Phantom Limb.
Filter by:Individuals with upper-limb amputation usually have intact nerves within the residual limb, and studies have demonstrated that electrical stimulation of those nerves can produce sensations that appear to emanate from the amputated limb. In this study, investigators will examine the sensations that are produced by electrical stimulation of these nerves at the location where they exit the spinal cord. Stimulation of the spinal cord is commonly used to treat intractable back and limb pain, and the procedure includes a test phase in which electrodes are temporarily placed under the skin near the spinal cord and removed at the end of testing. Similarly, in this study, electrodes will be placed near the spinal cord in the upper back and neck, and stimulation will be applied over the course of multiple testing sessions, lasting less than 30 days. The electrodes will be removed at the last day of testing. During each testing session, electrical stimulation will be applied through the electrodes and a series of tests will be performed to determine the types of sensations produced by stimulation. In addition to producing meaningful sensations with electrical stimulation, this study will also test the effect of stimulation on phantom limb sensations and phantom limb pain.
A growing body of literature indicates that up to 80% of amputees may have phantom limb pain (PLP). The first cause for limb loss is vascular disease. Usually, amputees who suffer from PLP are suboptimal treated. Therefore, many amputees are disabled by their chronic pain. The etiology and pathophysiology of PLP are poorly understood. Some studies suggest a somatosensory cortex reorganization. Transcutaneous Electrical Nerve Stimulation (TENS) is a analgesic technique. TENS apply a low voltage electrical current through the skin using surface electrodes in order to stimulate afferent nerve fibbers. Because of the lack of evidence to support any treatment for PLP, interest has turned to preventing it instead. The aim of this study is to assess if the early use of TENS in the immediately postoperative of major limb amputation due to peripheral vascular disease, should decrease the PLP incidence. TENS should interfere in the mechanism of PLP production to level of the pain fibers conduction.
Background: Phantom limb pain (PLP) develops in 50-80% of subjects who have a limb amputated. It is not well known what causes PLP to develop and the current treatments have been shown to be largely ineffective. Resent research, however, have indicated that cortical reorganizing occurring after amputation of the cortex areas related to the missing limb may be related to the development of PLP. Furthermore, the research indicated that by providing meaningful sensory input coming from the phantom limb the PLP may be alleviated and the cortical organization normalized. Aim: The CIP described in the current application, is part of a the EU-project "EPIONE", which aims to investigate if and how cortical normalization and PLP alleviation can be induced by providing phantom limb sensations (sensations which seems to originate from the missing limb) in hand amputated subjects. Method: In the current study, which will take place at Aalborg University Hospital (AUH), 2-4 hand amputated subjects experiencing severe PLP will implanted with interneural nerve electrodes in the arm stump for up to one year. Therapy will be evaluated in two stages, first during a standardized four week phase where the subject receives daily therapy. If the therapy is shown to be effective, therapy may be reinitiated during a second longer therapy phase. During the therapy sessions, selective nerve stimulation will be performed. The amputee will experience this as sensations (movement, touch, temperature, vibration etc.) originating from the phantom limb. While implanted, we will investigate how well we can induce these sensations and we will provide a stimulation therapy, which consist of stimulation activities which requires the subject to focus on the evoked sensations. Prior to, during a and following therapy a series of assessments (standardized across all EPIONE partners to enable comparison) will be conducted to relate therapy with PLP, cortical organization, the mental state etc. of the subject. Expected outcome: The stimulation therapy is expected to alleviate PLP and induce cortical normalization. The experience we gain might be used for deriving clinical guidelines on how to treat PLP.
Mirror therapy will consist of observing the unaffected limb reflected in a mirror positioned in the midline to block the view of the affected limb. All therapy sessions will be supervised by a physical therapist with the exception of weekends when the patients will continue therapy on an independent basis. In an effort to objectively demonstrate cortical reorganization associated with mirror therapy, patients can elect to participate in a functional MRI (fMRI) portion of the study. The fMRI would be evaluated prior to initiating the experimental or control therapy (Due to the sensitive timeline in this population and its effect on recruitment, we have amended the protocol to allow recruitment and enrollment to take place even if the timeline does not allow for the fMRI to be executed 2 weeks prior to amputation. Though this would be ideal, we will accept subjects that are only available for day before amputation scans), just before the operative procedure, at four weeks post-operation and then again at one year. All subjects will be evaluated at 4 weeks, 8 weeks (functional physical therapy (PT) tests only) 12 weeks, and 12 months postoperatively to determine 1) the incidence, severity and functional impact of phantom limb pain 2)the ability to meet various specialists' endpoints, to include participation in physical therapy, and 3) overall quality of life which the patients can describe subjectively. This therapy could have a dramatic impact on the long term prognosis of amputees whether due to trauma, metabolic conditions, tumor, or peripheral vascular disease. This protocol will include performing fMRIs on a cohort of healthy, active duty, age matched, male personnel to create reference data to compare the fMRI data of study participants.
With the far infrared ray applied to the 'phantom limbs' in amputees and the corresponding normal legs in healthy subjects, the sensation of (phantom) limb will be assessed for each subject using the techniques of fMRI and meridian response.
The aim of the study is the measurement of the short term effect of post surgical mirror therapy concerning pain intensity and frequency of patients with upper or lower amputation in comparison to standard occupational or physical therapy. The hypothesis is that patients in the intervention group (mirror therapy) suffer significantly less from phantom limb pain and pain attacks within a follow-up period of 4-8 weeks.
Almost everyone who has a traumatic limb amputated will experience a phantom limb - the vivid impression that the limb not only still is present, but also in many cases, painful. Preliminary data from study WRAMC WU# 05-71034, "Pilot study to assess the efficacy of mirror-box and mental visualization treatments on phantom limb pain" demonstrates that 4 weeks of mirror therapy is effective for treating phantom limb pain (PLP) and suggests that vision is a key component modulating PLP and may be the explanation for the efficacy of mirror therapy, as subjects view the reflected image of their intact limb while attempting to move the amputated, or phantom, limb. We propose conducting a study using functional magnetic resonance imaging (fMRI) to identify brain regions critical for the mirror effect and to study the relationship of visual activation to the sensation of phantom pain. Subjects will have an fMRI scan prior to starting therapy, 2 weeks after starting mirror therapy and again after 4 weeks of mirror therapy. Data will be gathered daily on the number of episodes of phantom limb pain, the average length of episodes, and the average intensity of pain.
The purpose of this study is to identify the best treatment sequence and combination of acupuncture points for the treatment of phantom limb or residual limb pain in the traumatic/surgical amputee.
The researchers propose to conduct a pilot study on the efficacy of mirror-box and mental visualization treatments on phantom limb pain. The trial will last for 4 months and during the first month, data will be gathered daily on the number of episodes of phantom limb pain, the average length of episodes, average intensity of pain, and worst intensity of pain. In addition, the rapidity of pain relief, the length of therapy needed to sustain long-lasting pain relief, and whether use of these two treatment methods during rehabilitation can provide sustained and/or permanent pain relief will be determined. Cognitive testing will also be performed to determine the effect of limb amputation on cognition and mood with results being compared to an on-going study of similar effects in patients with chronic (> 3 months) limb amputation. The inclusion of subjects with phantom limb pain in upper extremity amputations has recently been approved.