View clinical trials related to Phantom Limb Pain.
Filter by:86-87% of people who have had an amputation still feel pain in the limb that has been amputated - Phantom limb pain (PLP). Sensory retraining is a form of treatment for PLP where a special form of electrical stimulation is delivered to the residual limb. The theory is that this stimulation changes activity in the brain that helps to reduce the person's pain. Two new types of sensory retraining device for the treatment of phantom limb pain have been developed. One type requires the user to interact with the device while the other is a non-interactive device. Both devices are new so it is unknown as to how well they may work, or which is best, therefore both will be tested in this study. This study will be undertaken remotely, using video call, telephone and email for communication. The study will compare the effect of both devices for efficacy. One hundred people with PLP will be recruited from the NHS and the general public and randomised to receive either the interactive or non-interactive device or their placebo equivalents. A health care professional will train the research participants how to use their device. Participants will then use their device at home for 3 weeks. To ensure that they are using their devices as required, the researchers will keep in contact throughout the three week treatment period, using a schedule of video calls, weekly phone calls and daily texts. Pain and function will be measured before treatment, after treatment and at a 3 month follow-up. Twelve participants will also be invited to a one-to-one interview to give their experience of the acceptability and usability of their device.
In this study we will examine assess if treatment with transcranial Direct Current Stimulation (tDCS) improve the analgesic effects of mirror therapy for patients with phantom pain of lower extremity. The study will include 3 arms: only mirror therapy, mirror therapy + sham tDCS, and mirror therapy + active tDCS.
The purpose of this study is to investigate, in two phases: (1) the feasibility and safety of Virtual Embodiment Therapy in treating chronic pain of lower back and upper limbs and (2) the efficacy of Virtual Embodiment Therapy on chronic pain disorders of the lower back and upper limbs. In phase 1, we will investigate the feasibility, safety, and side effects related to this treatment by assessing simulator sickness. In phase 2, which in contingent on successful completion of phase 1, we will assess symptoms of pain specific to the region treated, fear and avoidance behavior, and depression symptoms before and after 8 sessions of treatment with Virtual Embodiment Therapy in order to assess efficacy. This study will be single-blinded, because the participation of the clinician is necessary to ensure proper administration of the therapy, as well as to monitor in the event of adverse reactions.
Phantom Limb Pain ( PLP) is pain that is perceived and referred to a region of the body that is no longer present. in most patients, severity and frequency of phantom pain attacks gradually decrease over several weeks to 2 years following amputation, however in 5-10% significant pain remains a serious problem. It has been hypothesized, that deprivation of various inputs from the limbs to the brain cause an abnormal neuro-signature to be produced generating cortical maladaptive neuroplasticity and reorganization. Areas representing the amputated body part are taken over by neighboring representational zones in both the somatosensory and motor cortex generating pain in absence of stimuli. A seminal paper published by Lotze et al "Phantom movements and pain: a functional magnetic resonance imaging (fMRI) study in upper limb amputees. - participants had to pucker their lips at a metronome-paced speed while functional magnetic resonance images were taken. Only in amputees with phantom-limb pain did a shift of the mouth representation into the hand representation occur; those without pain and the healthy control do not display a similar shift. Scarce reports have been made on a similar phenomenon- micturition induced lower limb phantom pain. We speculate that a similar maladaptive central nerve system (CNS) plasticity in which this genital representation would invade cortical areas with somatotopic affiliation to the lower extremity could be implicated in the pathophysiology of this phenomenon.
Phantom limb pain (PLP) is experienced by 60-80% of all people who have had an amputation. This persistent pain condition can impact on independence, activities of daily living and overall quality of life. While there is some research into PLP there is no consensus on appropriate outcome measures and there is (to our knowledge) neither guideline nor literature evidence on the reliability and validity of outcomes measures for this patient group. Such measures are vital to the robust evaluation of any interventions and/or monitoring progression. The aim of the proposed study is to assess the reliability and validity of four self-report questionnaires (Visual Analog Scale (VAS) for pain, Short Form McGill Pain Questionnaire 2 (SFMPQ-2), Trinity Amputation and Prosthetic Evaluation Scale (TAPES), a health-related quality of life measure (EQ-5D-L), a pain diary, a left/right limb judgement task (Implicit Motor Imagery Testing - IMIT) and the two-point discrimination (TPD)test. The data will be collated and statistically analysed to assess how stable each of the measures are over time (intra session reliability) and how each measure co-relates with the others (validity).
Limb loss is frequently associated with postamputation pain that can be challenging to treat and often involves opioids. Advances in the field of neuromodulation has led to development of an intentionally reversible percutaneous peripheral nerve stimulation (PNS) system that has had promising results when treating chronic postamputation pain. PNS may offer sustained pain relief even after the treatment period has ended. Currently, there is no convincing evidence regarding the role of PNS in the acute postoperative period, which may be a critical time to control pain as those with higher pain appear to be at higher risk for developing persistent post-procedural pain. The investigators of this study aim to evaluate the feasibility and effects of PNS in the acute postoperative period and determine the feasibility of completing a randomized controlled treatment outcome study.
Assessment of pain intensity on the NRS. Assessment of the quality of life by SF-36 and AIS. Diagnostic/prognostic nerve block with 5 ml of 2% lidocaine under real-time ultrasound control with confirmation of the correct position of the needle using a peripheral nerve stimulator. Reassessment of pain intensity on the NRS 30 minutes after local anesthetic block. Cryoablation under real-time ultrasound control if the NRS value is reduced by ≥ 2 points. If pain intensity on the NRS reduced by less than 2 points, reassessment 60 minutes after local anesthetic block. Cryoablation under real-time ultrasound control if the NRS value is reduced by ≥ 2 points. If pain intensity on the NRS reduces by less than 2 points 60 minutes after local anesthetic block cryoablation will not be performed. Cryoablation effect will be evaluated 24 hours, 7 days, 30 days, 3 months, 6 months post procedure. - 24 hours after the procedure - assessment of pain intensity and quality of life - 7 days after the procedure - assessment of pain intensity - 30 days after the procedure - assessment of pain intensity and quality of life - 3 months after the procedure - assessment of pain intensity - 6 months after the procedure - assessment of pain intensity and quality of
Massage 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.
Lower limb amputees suffer complete lack of sensory feedback of current available prostheses, which excludes the central nervous system from the correct sensory-motor integration. It causes serious problems as: falls due to unexpected perturbations, asymmetric walking, low mobility, higher power consumption, feeling the prosthesis as a foreign body, high cognitive burden, and phantom limb pain occurrence. Investigators will provide amputees with a prosthesis restoring sensory feedback and will assess its benefits on the users.
Patients with limb amputations experience the sensation of the missing extremity, which is sometimes coupled with a persistent and debilitating pain in the missing limb, a condition known as phantom limb pain (PLP). This study will test the use of virtual reality (VR) training as a possible treatment of PLP.