Clinical Research Directory

Prophylactic TBR on Phantom Limb Pain

This prospective study seeks to evaluate the effectiveness of prophylactic Targeted Brain Rehabilitation (TBR) in preventing or reducing Phantom Limb Pain (PLP).

Negative Pressure Wound Therapy as a Predictor of Persistent Pain After War-Related Trauma

War-related trauma frequently causes complex soft tissue injuries that require repeated surgical treatment and advanced wound management techniques such as Negative Pressure Wound Therapy (NPWT). Although NPWT is widely used to promote wound healing and prepare wounds for reconstruction, its relationship with long-term pain outcomes remains unclear. This prospective cohort study aims to investigate whether the use of NPWT after war-related trauma is associated with an increased risk of persistent post-traumatic pain six months after injury. Adult patients with traumatic soft tissue injuries requiring surgical management will be enrolled and followed for six months. In addition to NPWT exposure, the study will evaluate several early clinical predictors of chronic pain, including acute pain intensity, number of surgical debridements, suspected nerve injury, and mechanism of trauma. Understanding these predictors may help clinicians identify high-risk patients early and develop targeted strategies for pain prevention and rehabilitation after severe trauma.

Venous Thromboembolism and Chronic Pain After Major Limb Trauma

Major limb trauma is associated with a high risk of venous thromboembolism (VTE) due to systemic inflammation, endothelial injury, immobilization, and hypercoagulability. While VTE is commonly studied as a short-term complication affecting morbidity and mortality, its potential relationship with long-term pain outcomes after trauma has not been well investigated. This prospective observational cohort study aims to evaluate whether objectively confirmed VTE is associated with an increased risk of persistent clinically significant pain after major limb trauma. Adult patients with severe upper or lower limb injuries requiring surgical treatment or prolonged immobilization will be enrolled within 72 hours of hospital admission and followed for six months. The study will assess whether patients who develop VTE have a higher likelihood of persistent pain compared with those without VTE. In addition, the study will explore the association between baseline VTE risk (using the Trauma Embolic Scoring System, TESS), thromboprophylaxis timing, and long-term pain outcomes. Secondary analyses will evaluate neuropathic pain symptoms, pain interference with daily activities, quality of life, opioid consumption, and functional recovery. Understanding the relationship between thromboembolic complications and persistent pain may help improve risk stratification, optimize thromboprophylaxis strategies, and support early rehabilitation planning in patients with major limb trauma.

Tourniquet Exposure and Risk of Chronic Pain After Severe Limb Trauma

Severe limb trauma often requires the use of a tourniquet to stop life-threatening bleeding. While tourniquets are essential for saving lives, prolonged interruption of blood flow may lead to tissue ischemia, nerve injury, and inflammatory responses that could contribute to the development of chronic pain. The TOURNI-PAIN Study is a prospective observational study designed to investigate whether the duration of tourniquet use during the treatment of severe limb injuries is associated with an increased risk of persistent pain after recovery. The study will enroll adult patients with major upper or lower limb trauma who required tourniquet application in the prehospital or hospital setting. Researchers will collect information about the duration and characteristics of tourniquet use, details of the injury, surgical treatment, and recovery. Participants will be followed for up to 6 months after injury to assess pain levels, possible neuropathic pain, functional recovery, and quality of life. The goal of this research is to better understand whether longer tourniquet exposure increases the risk of long-term pain. The findings may help improve trauma care practices by balancing the life-saving benefits of hemorrhage control with strategies that minimize long-term complications and improve recovery for patients with severe limb injuries.

Kinematics-Based Prediction of Chronic Pain After Combat-Related Extremity Trauma

Combat-related extremity trauma frequently results in persistent pain, including neuropathic, residual limb, and phantom limb pain. The kinematics of injury-including energy level, direction of force, and dominant force components-may independently predict tissue deformation, nerve stress, and the transition from acute to chronic- pain. This prospective observational cohort study will assess whether kinematics-only variables predict chronic pain outcomes after combat-related upper and lower limb injuries. Pain outcomes will include pain intensity, pain extent (surface/area), neuropathic pain features, and mechanical pain sensitivity measured using von Frey filaments.

Silencing Neuroma Pain-Botulinum Toxin Versus Local Anesthetic Injection

Neuroma-related pain is a frequent and disabling condition after limb trauma and amputation. Available treatments often provide short-lasting or insufficient analgesia. The SILENCE-NEUROMA Trial is a multicenter, randomized, double-blind, active-controlled study designed to compare the efficacy and safety of botulinum toxin type A versus local anesthetic injection for the treatment of neuroma-related pain. The primary outcome is pain reduction at 8 weeks after treatment.

Evaluation of RPNI for Symptomatic Neuromas in Lower Limb Amputees

This prospective, observational cohort study evaluates the long-term outcomes of Regenerative Peripheral Nerve Interface (RPNI) surgery in patients with major lower extremity amputations suffering from symptomatic neuromas. RPNI is a surgical technique where the transected nerve end is implanted into a free autologous muscle graft to serve as a physiological target for reinnervation. The study aims to objectively assess the reduction in mechanical hypersensitivity using Pressure Pain Threshold (PPT) measurements via a digital algometer. Additionally, it monitors subjective neuropathic pain levels, functional mobility, and prosthesis satisfaction over a 24-month follow-up period compared to pre-operative baselines.

Clinical Application Observation on the Evaluation of Phantom Limb Pain With the Suralis System

This study tests whether a vibration-based feedback device (Suralis) can reduce phantom limb pain in people with lower-leg amputations over 3 weeks. Participants wear the device daily and report pain levels, walking ability, and quality of life - with no known risks, as it's a CE-certified medical device. If pain improves, the study team will help participants apply for insurance coverage to keep using the system long-term. The goal is to offer a simple, non-drug option that may help ease chronic pain and improve daily function for amputees. Participation is voluntary and can be stopped anytime without affecting medical care.

Preventing Chronification of Phantom Limb Pain Through Mirror Therapy in Conjunction With tDCS

Background: Most amputees experience phantom limb pain (PLP), for years after amputation. Virtually all PLP research to date has focused on the mechanisms of chronic PLP, ignoring the mechanisms of chronification. This research project will focus on combined neuromodulatory interventions of mirror therapy (MT) and trans direct-cranial stimulation (tDCS), applied for the first time at the acute state of PLP, with an aim to prevent its chronification and chronicity. In PLP, maladaptive plasticity associated with sensory deafferentation following an amputation is one of the contributors for excessive pain. MT is a well-accepted yet limited option, which is thought to counterbalance abnormal plasticity. tDCS is an emerging approach believed to affect the membrane potential and activity threshold of cortical neurons. tDCS analgesic effectiveness, however, is mild and short, rendering it a noneffective stand-alone treatment. The researchers' objectives are to investigate whether the combined therapy of MT and tDCS will prevent chronic PLP and improve its related clinical characteristics. In addition, the researchers will investigate the behavioral manifestations effects of the combined treatment. The investigators expect that the combined treatment applied at the acute stage of PLP will have synergistic effects on PLP intensity and thus avert its chronification. In addition, it will reduce phantom sensations, and negative affect, and will improve the sense of body ownership and agency and endogenous inhibition efficiency. Research design: This randomized-controlled double-blinded study will be held at Israel's 3 largest rehabilitation centers. The study consists of 3 randomized patient arms (36 in each): (1) no-intervention, natural-course group; (2) MT + sham tDCS; (3) MT + real tDCS. MT and tDCS neuromodulatory interferences will be self-administered and consist of 20 sessions, completed during 4 weeks. The researchers outcome measures include: primary outcome: pain intensity, network-related behavioral markers, and amputation-related clinical characteristics. The data gathered will be collected at 5 timepoints. Research novelty and innovation: The researchers proposed model will provide insights on the prevention of PLP and, potentially, other neurological pathologies involving the dysfunction of sensory systems and integration and body perception.