Electrical Stimulation for the Treatment of Post-Amputation Pain Using the SPRINT System
Post-Amputation PainPhantom Limb Pain1 moreThe 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).
Virtual Reality for Phantom Limb Pain
Phantom Limb PainThis study will develop a virtual reality-based treatment for phantom limb pain among Veterans and test it against the most established behavioral therapy for phantom limb pain, mirror therapy.
Massage Therapy for Phantom Limb Pain: Feasibility and Pilot Study
Phantom Limb PainMassage therapy is a treatment self-reported by those with phantom limb pain (PLP) as moderately to extremely effective, but no research to date has been specifically designed to examine such efficacy or effectiveness in this regard. The investigators propose that massage therapy can affect PLP by applying treatment to the corresponding intact limb for amputees. Theoretical underpinnings of massage and mirror therapy have guided this study's development to address PLP through the development of a novel massage intervention. The proof-of-concept experimental study examines the feasibility and outcomes of a combined massage and mirror therapy treatment for individuals with lower limb phantom limb pain. Phantom pain severity, intensity, and interference were measured with visual analogue scales (collected twice weekly for the study's duration) and the Brief Pain Index (collected 4 total times across 12 weeks) using a single-subject, withdrawal design with three, 4-week study phases. Intervention consisted of twice weekly, 20-minute treatments for four weeks. Tailored treatments addressed individual phantom pain experience as if occurring on the corresponding, non-removed limb. Participants viewed treatment as though it were being applied to the amputated limb. Specific Aim: Determine the extent to which massage therapy applied in combination with mirror therapy to the intact leg of an amputee addresses PLP severity, intensity, and interference. Hypothesis: massage and mirror treatment session(s) focused on an intact limb will have acute and cumulative benefits (more pronounced and lasting) for PLP severity, intensity, and interference. All study activity to occur on Indiana University's IUPUI campus.
Surface Electrical Stimulation for Treatment of Phantom Limb Pain
Phantom Limb PainPhantom limb pain (PLP) is a frequent consequence of amputation, and it is notoriously difficult to treat. Amputation usually follows traumatic injuries or surgery following vascular diseases, diabetes, osteomyelitis or tumours in cases where the loss of the limb is required for the survival of the patient. The loss of a limb or other body parts is usually followed by the sensation that the lost body part is still present and can be felt. These phenomena are called, respectively, phantom awareness and phantom sensation. In 50-80% of amputees neuropathic pain develops in the lost limb also referred to as phantom limb pain (PLP). PLP can be related to a certain position or movement of the phantom limb, and might be elicited or worsened by a range of physical factors (e.g. changes in the weather or pressure on the residual limb) and psychological factors (e.g. emotional stress). It is well known that most treatments available for PLP today, such as pharmacological, surgical, anaesthetic, psychological and other, are ineffective. Today it is believed that phantom limb pain may be related to changes in the cortex of the brain. There is evidence that these changes may be modulated - or even reversed - by providing sensory input to the stump or amputation zone. For example, cortical reorganization and alleviation of phantom limb pain has been observed in amputees following intense use of a hand prosthesis. However, there is no consistent knowledge on which type of peripheral sensory feedback may be effective in affecting the cortical plasticity or on how to best apply the sensory feedback. The aim of the proposed research is to create natural, meaningful sensations through providing non-invasive sensory feedback (i.e. surface electrical stimulation) and the effectiveness to alleviate phantom limb pain and restore the cortical neuroplastic changes.
Use of Hand Prosthesis With Direct Nerve Stimulation for Treatment of Phantom Limb Pain
Phantom Limb PainPhantom limb pain (PLP) is a frequent consequence of amputation, and it is notoriously difficult to treat. Amputation usually follows traumatic injuries or surgery following vascular diseases, diabetes, osteomyelitis or tumours in cases where the loss of the limb is required for the survival of the patient. The loss of a limb or other body parts is usually followed by the sensation that the lost body part is still present and can be felt. These phenomena are called, respectively, phantom awareness and phantom sensation. In 50-80% of amputees neuropathic pain develops in the lost limb also referred to as phantom limb pain (PLP). PLP can be related to a certain position or movement of the phantom limb, and might be elicited or worsened by a range of physical factors (e.g. changes in the weather or pressure on the residual limb) and psychological factors (e.g. emotional stress). It is well known that most treatments available for PLP today, such as pharmacological, surgical, anaesthetic, psychological and other, are ineffective. Today it is believed that phantom limb pain may be related to changes in the cortex of the brain. There is evidence that these changes may be modulated - or even reversed - by providing sensory input to the stump or amputation zone. For example, cortical reorganization and alleviation of phantom limb pain has been observed in amputees following intense use of a hand prosthesis. However, there is no consistent knowledge on which type of peripheral sensory feedback may be effective in affecting the cortical plasticity or on how to best apply the sensory feedback. The aim of the proposed research is to create natural, meaningful sensations through providing sensory feedback (i.e. surface or neural electrical stimulation) and the effectiveness to alleviate phantom limb pain and restore the cortical neuroplastic changes.
Effectiveness of Mirror Therapy in Patients With Amputations of Lower Limbs of Vascular Origin
AmputationPhantom Pain Following Amputation of Lower LimbThe aim of this study is to assess the efficacy of the mirror therapy on phantom pain for patients with amputation after vascular etiology. the secondary aim are to measure the impact of the mirror therapy on quality of life, sleep disorders, and predictive factors for effectiveness. the design is a prospective study, randomised, blindly evaluated, monocentric. There will be 2 groups: 1) rehabilitation and gabapentine; 2) rehabilitation and gabapentine + mirror therapy during the first 4 weeks. The assessment are going to be preformed at the inclusion day and then every 2 weeks during 8 weeks. the primary evaluation criterion will be the phantom pain measured on a VAS. the delay for inclusion is 18 months in order ton include 40 patients. The length of the study is 20 months.
The Comparison of Sympathetic Blockade of Stellate Ganglion Block and Thoracic Paravertebral Block...
Complex Regional Pain SyndromesPostherpetic Neuralgia4 moreThe purpose of this study is to investigate the effect of ultrasound-guided thoracic paravertebral block (TPVB) when performing sympathetic block for upper limb pain control.
Treating Phantom Limb Pain Using Continuous Peripheral Nerve Blocks: A Department of Defense Funded...
Phantom Limb PainWhen 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.
Predicting Pain Response to Transcranial Direct Current Stimulation for Phantom Limb Pain in Limb...
Phantom Limb PainThis study explores the effects transcranial Direct Current Stimulation (tDCS, Soterix ©) on Phantom Limb Pain for patients experiencing chronic phantom limb pain in open-label study design.
Immersive Virtual Reality for Neuropathic Pain
NeuropathyPhantom Limb Pain2 moreInvestigating how neuropathic limb pain, including phantom limb pain or complex regional pain syndrome, is affected by virtual reality. While several studies have looked into virtual reality for treating this type of pain, few have used the latest immersive virtual reality hardware combined with motion control for an engaging virtual mirror therapy experience. The investigators are interested in studying the use of virtual reality as an alternative treatment option for these conditions.