View clinical trials related to Phantom Limb.
Filter by:The goal of the clinical investigation is to reduce phantom limb pain (PLP), painful condition affecting 70% of amputees, so as to improve these patients' quality of life.
The purpose of this study is to evaluate the feasibility and effectiveness of acupuncture for the treatment of phantom limb syndrome in lower limb amputees and pilot an acupuncture protocol. The study will be a comparative effectiveness study comparing acupuncture and standard care versus standard care alone and will be a randomised controlled trial using a mixed methods approach. The study hypothesis is a course of acupuncture will reduce the symptoms of phantom limb syndrome in lower limb amputees. The study will be based the Amputee Rehabilitation Unit, London. Twenty lower limb amputees with phantom limb syndrome will be randomly assigned to either receive usual care or usual care plus acupuncture. Acupuncture intervention will include 8 treatments over 4 weeks and treatment will involve using both body and auricular acupuncture points. Usual care will include physiotherapy, occupational therapy, pharmacological intervention and other interventions as deemed appropriate by clinical staff. An eleven point numerical rating scale will be the primary outcome measure in this study. Secondary outcome measures will include the Short Form McGill Pain Questionnaire 2, EQ-5D-5L, Hospital Anxiety and Depression Scale, Perceived Stress Scale, Insomnia Severity Index, Participant Global Impression of Change and information will also be obtained on rescue medication. A cheek swab will also be taken to explore potential subgroups of responders in relation to the genetic polymorphism of the glucocorticoid receptor. Outcomes will be recorded weekly for the duration of the study and one and three months post completion of the study. In order to identify protocol acceptability and acceptability of outcome measures five participants will be interviewed post completion of the study. Data will also inform feasibility such as recruitment rate, completion rate and reasons for dropout. Data from this study will guide the development of a full randomised controlled trial.
The purpose of this study is to determine if electrical stimulation (small levels of electricity) can safely and effectively reduce post-amputation pain. This study involves a device called the SPRINT System. The SPRINT System delivers mild electrical stimulation to nerves in the residual limb. The SPRINT System includes a small wire (called a "lead") that is placed through the skin in the upper leg. It also includes a device worn on the body that delivers stimulation (called the SPRINT Stimulator).
The objectives of this study are, to test the effectiveness of Valproic Acid (VPA) in the prevention of chronic neuropathic and post-amputation pain, as well as to further define the underlying inflammatory and epigenetic mechanisms that lead to the development of such chronic pain. HYPOTHESES AND QUESTIONS Hypothesis 1: The use of oral valproic acid in combination with regional anesthesia in surgical limb-injury patients will decrease the incidence of chronic nerve injury and post-amputation pain. Goal 1: In a blinded, randomized placebo-controlled, multi-center clinical trial, investigators will determine if oral VPA added to regional anesthesia and standard perioperative management will reduce the incidence of nerve injury and post-amputation pain when compared with regional anesthesia alone. Hypothesis 2: The transition from acute to chronic pain is mediated via epigenetic mechanisms (differential DNA methylation) in genes involved in nociception. Goal 2: Investigators will analyze the DNA methylation patterns of patients with different types of neuropathic and post-amputation pain and determine if they are altered by VPA.
Phantom Limb Pain (PLP) is a neuropathic chronic syndrome, characterized by a painful sensation in a body part that has been amputated. The incidence of phantom limb pain is between 50-80% of all amputees, however, additional risk factors as psychological trauma, blood loss, and infection increases its incidence after a traumatic amputation in landmine victims. Satisfactory management is often difficult to achieve and different clinical trials with medical and surgical measures have yielded unsatisfactory results. The response rate with pharmacologic treatment is around 30% using conventional medication as opiates and N-methyl-D-aspartate (NMDA) receptor antagonists, which is not significantly different from response rates with placebo. Recent case series have shown that repetitive Transcranial Magnetic Stimulation (rTMS) of the motor cortex can display an effectiveness that goes from 52% to 88% in the treatment of some refractory neurogenic pain cases which is quite superior to conventional management. However, the use of this type of treatment has not been studied in patients with phantom limb pain secondary to landmine injuries. The main objective of this trial is to evaluate the efficacy and safety of rTMS in the treatment of phantom limb pain in landmine victims. A double blind randomized placebo-controlled clinical trial, including 54 landmine victims with PLP will be performed. At the time of enrollment, a complete medical evaluation will be performed and those patients who meet the inclusion criteria will be randomly assigned to one of two groups, to receive rTMS in series of 20 trains of 6 s in duration (54-s intertrain interval) at a stimulation rate of 10 Hz (1200 pulses) and an intensity of 90% rest motor threshold using an "active" coil or a "sham" coil. Sessions will be administered 5 days a week (Monday to Friday) during two consecutive weeks. The stimulation will be directed to the primary motor cortex contralateral to the amputated limb. Response will be evaluated by measuring the pain intensity at baseline and after each session using a visual analog scale. These measurements will be repeated 2 weeks after the end of the treatment scheme, in order to determine the duration of the analgesic effect of rTMS
When a limb is traumatically severed, pain perceived in the part of the body that no longer exists often develops. This is called "phantom limb" pain, and is different from "stump" pain, which is pain within the part of the limb that remains intact. Unfortunately, phantom pain resolves in only 16% of people, with the rest experiencing this pain for the remainder of the lives. There is currently no reliable treatment for phantom limb pain. The exact reason that phantom limb pain occurs is unclear, but when a nerve is cut-as happens with a traumatic amputation-changes occur in the brain and spinal cord that actually worsen with increasing phantom pain. These abnormal changes may often be corrected by putting local anesthetic-termed a "peripheral nerve block"-on the injured nerve, keeping any "bad signals" from reaching the brain, with resolution of the phantom limb pain. However, when the nerve block ends after a few hours, the phantom pain returns. But, this demonstrates that the brain abnormalities-and phantom pain-that occur with an amputation may be dependent upon the "bad" signals being sent from the injured nerve(s), suggesting that a very long peripheral nerve block-lasting many days rather than hours-may permanently reverse the abnormal changes in the brain, and provide lasting relief from phantom pain. Until recently, extending a peripheral nerve block beyond 16 hours was unrealistic. However, a treatment option called a "continuous peripheral nerve block" is now available. This technique involves the placement of a tiny tube-smaller than a piece of spaghetti-through the skin and next to the nerves supplying the amputated limb. The tiny tube may be placed with minimal discomfort in about 15 minutes. Numbing medicine called local anesthetic is then infused through the tube, blocking any signals that the injured nerve sends to the spinal cord and brain. Using a small, portable infusion pump, this prolonged nerve block may be provided in individuals' own homes. The ultimate objective of the proposed research study is to determine if a 6-day continuous peripheral nerve block provided at home is an effective treatment for persistent phantom limb pain following a traumatic limb amputation. The primary hypothesis (what the researchers predict) is that phantom limb pain intensity will be significantly decreased 4 weeks following treatment with a 6-day continuous peripheral nerve block.
The goal of this study is to determine if pre-operative placement of the continuous peripheral nerve block by an anesthesiologist using ultrasound technology is more effective than a continuous peripheral nerve block placed during the surgery by a surgeon for patients undergoing a limb amputation
The purpose of this study is to determine if observing a virtual arm decreases phantom limb pain (PLP) in upper extremity amputees.
Phantom limb pain (pain originating from where an amputated limb once was) is a common occurrence after lower extremity amputations, with some sources noting incidence to be as high as 60-80% six months after surgery. This pain can eventually subside, however, cases have been reported of incidence 10 years after surgery. This pain is not only physically detrimental, but can also be psychologically detrimental after a difficult to accept change in the body. Prior studies have been performed using regional anesthetic techniques (including spinals and epidurals) and different medications to attempt to reduce the incidence of phantom limb pain, however, the data have been mostly inconclusive. Of interest, prior studies have not addressed peripheral nerve blocks, a method of anesthesia/analgesia more commonly employed for amputations recently. The purpose of our retrospective study is to look at the incidence of phantom limb pain at our institution over a two year period to determine if peripheral nerve blocks result in a significantly reduced incidence compared to other techniques (spinal, epidural, general anesthesia only). In addition, there is little data on relation of reason for amputation and presence of preoperative neuropathy and incidence of phantom pain. As secondary endpoints, the investigators wish to investigate if certain reasons for amputation (trauma, peripheral vascular disease, diabetes, and others) and/or neuropathy lead to a higher incidence of phantom limb pain. The results of this study could impact future management of patients who are to receive amputations and may lead to further prospective studies on the topics involved.
The goals of the study are to determine whether self-delivered, home-based mirror therapy decreases the frequency and intensity of phantom limb pain and improves mood and physical function in persons with phantom limb pain. The investigators hypothesize that self-delivered home-based mirror therapy will significantly decrease phantom pain intensity, will improve mood, and will improve function at one-month follow-up.