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73 active trials for Amputation

The Effect of Using Two Different Prosthetic Feet in Patients With Unilateral Transtibial Amputation

Background: Prescribing optimal prosthetic feet to ensure successful rehabilitation is difficult since there are no generally established clinical guidelines based on objective data. Aim: To investigate the effect of using non-articulated dynamic foot (non-articulating ankle, NAA) and dynamic foot with hydraulic ankle (articulating hydraulic ankle, AHA) on functional capacity, pain severity, satisfaction level and quality of life (QoL) in high activity patients with unilateral transtibial amputation.

Start: February 2021

Immediate Fit Using Innovative Technology Transtibial & Transfemoral Prosthesis

iFIT Prosthetics, LLC® created and commercialized a modular, immediate fit, fully adjustable, prosthetic system suitable for mass production using high strength injection molded polymer materials. The aim of this project is to assess the design, user satisfaction and feasibility of this device. The investigators will be fitting transtibial and transfemoral amputees with the iFIT prosthetic system. Patients will wear the device for 2 weeks in order to compare the device to their own prosthetic (if they currently have one). They will report any device breakages or adverse events. They will also fill out a questionnaire to determine if the iFIT prosthetic is a feasible option for treating patients with limb loss.

Start: May 2018

Multicenter Trial Evaluating the Safety and Efficacy of Autologous Volar Fibroblast Injection Into the Terminal Limb of Amputees.

The study will enroll 38 adults ages 18-65 with a transtibial amputation with mature residual limbs who are ambulatory prosthesis users with active skin problems. Participants will be randomized to either treatment with low dose volar fibroblast injections (n=19) or to a vehicle control (n=19). Participants will undergo biopsy to harvest volar skin for fibroblast expansion and tattooing to identify injection sites on the stump. Fibroblasts will be processed at the Hopkins Cellular Therapy Core Lab and volar cells primed for injection will be sent to participating centers for administration. Participants will be treated with low dose cells with Bellafill to enhance engraftment. Injections will be administered on at least 2 and up to three separate days over the course of one week. Injections will be administered to the affected area. Participants randomized to the vehicle control group will receive injection of cryoprotectant. All participants will be followed at 2 weeks, 1, 2 and 3 months after the last injection. These visits will include a clinical evaluation for complications, non-invasive assessments of wound size, skin firmness and thickness, wound recurrence and patient reported outcomes. After the final monitoring visit, individuals randomized to the control group will have the opportunity to receive the volar fibroblast injections and will be followed for an additional 3 months. The investigators hypothesize that (1) There will be no difference in the rate of serious adverse events among patients treated with volar fibroblast injections compared with patients treated with vehicle control, and (2) The rate of wound healing will be faster in patients treated with volar fibroblast injections compares with patients tread with vehicle control.

Start: June 2021

Personalized Mobility Interventions Using Smart Sensor Resources for Lower-Limb Prosthesis Users

The goal of this research is to analyze data from smartphone-based and wearable sensors, using advanced machine-learning and data-mining techniques, and to combine this information with performance-based measures, participant-reported measures, and structured interviews to create a clinical toolbox to (i) identify individuals who exhibit reduced prosthesis use (compared to expected usage levels based on K-level designation and/or participant goals of community mobility and social interaction), (ii) identify prosthetic/physical and psychological factors that limit prosthesis use, and (iii) determine the effect of targeted interventions to increase prosthesis use and facilitate achievement of participant goals. Objective sensor-based measurement of home and community activities will allow for the correlation of real-world function to in-clinic assessments and to monitor changes resulting from rehabilitation interventions in real time. Machine-learning and data mining techniques will be used to identify a subset of measures from this toolbox that sensitively and accurately reflect real-world function, enabling clinicians to predict and assess activity and provide effective interventions to optimize prosthesis use. The goal of this project, to improve overall performance with respect to activities of daily living and other real-world activities, thus addresses the FY17 OPORP Focus Area of Orthotic or Prosthetic Device Function.

Start: May 2020

Optimizing Prosthetic and Bicycle Fit for Veterans With Transtibial Amputations

Bicycling is a promising form of low-impact exercise that could prevent/treat Type 2 diabetes. However, Veterans with transtibial amputations (TTAs) may not effectively utilize bicycling for rehabilitation and exercise due to improper bike fit, socket discomfort, and/or the potential for injury. An optimized prosthetic/bicycle fit could improve comfort and reduce injury risk by decreasing asymmetries between legs, lowering metabolic costs, and improving efficiency for Veterans with TTAs during bicycling. Moreover, the use of objective prosthetic/bicycle fit guidelines would allow clinicians to facilitate shorter appointment times and fewer revisits for Veterans with TTAs. The investigators will determine the physiological and biomechanical effects of different prosthetic and bicycle configurations for Veterans with a TTA to develop optimal prosthetic/bicycle fit guidelines. The investigators hypothesize that a longer prosthetic pylon length and shorter bicycle crank arm length for the affected compared to the unaffected leg along with a pedal attachment position beneath the pylon compared to beneath the forefoot will optimize performance for Veterans with TTAs the investigators' research will integrate evidence-based guidelines to advance rehabilitation and enhance the lives of Veterans with an amputation, thus improving and restoring their function.

Start: April 2019

Mechanisms and Treatment of Post-amputation Neuropathic Pain

Phantom and residual limb pain are types of peripheral neuropathic pain that are difficult to treat and where the underlying mechanisms are still not fully understood. Repetitive transcranial magnetic stimulation (rTMS) of the motor cortex is an increasingly studied technique for the treatment of neuropathic pain and has shown modest effects in pain intensity reduction for the treatment of neuropathic pain. Newer rTMS coils provide the opportunity to stimulate larger brain areas, which could provide a better treatment option compared to conventional coils. The aims of this study are to investigate whether the peripheral nervous system is a necessary driver of phantom limb pain and/or residual limb pain in patients with lower limb amputation using spinal anaesthesia, and to assess the analgesic efficacy of deep H-coil rTMS compared to sham stimulation in the same patients.

Start: April 2021

Daily Socket Comfort in Transtibial Amputee With an Active Vacuum Suspension System

The aim of this study is to evaluate the contribution of the vacuum suspension system in an ecological environment on the fitting's comfort compared to the vacuum suspension system inactive system in a multicenter prospective, randomized, double-blind, multiple N-of-1 trial. In order to assess the therapeutic effect of the vacuum suspension system, given the heterogeneity of the population and the small number of patients eligible for the study, the multiple N-of-1 trial seems to us to be the methodology. The principle is to evaluate intensively and prospectively a small group of subjects, each case being its own comparator.

Start: September 2020

Hybrid Pump Technology

Prostheses can be suspended from the amputated limb using a variety of techniques, such as straps and suction. Suspending the prosthesis by creating a vacuum between the prosthetic socket and limb using a pump has benefits over other techniques including improved limb health and mobility. A new pump design will be tested by prosthesis users in the laboratory to verify its functionality during walking.

Start: April 2020

Transfemoral Socket Design and Muscle Function

The objective of this pilot research project is to evaluate the effect of prosthetic socket design on amputated limb hip muscle strength and endurance in Service members, Veterans, and civilians who use above-the-knee prostheses. Traditional above-the-knee socket designs provide pelvic support that interferes with hip motion. They may also reduce the effort required from amputated limb hip muscles to stabilize the hip and amputated limb, risking further loss of muscle mass and strength beyond that due to amputation. Long-standing use of above-the-knee sockets with pelvic support may therefore intensify amputated limb muscle loss and weakness, leading to challenges with walking and balance, increasing the effort required to walk, and contributing to degenerative changes in the hips and knees. Alternative socket designs that lessen the loss of muscle mass and strength are therefore required. The investigators have developed a new socket without pelvic support for above-the-knee prosthesis users called the Northwestern University Flexible Sub-Ischial Suction (NU-FlexSIS) Socket. This new socket design increases user comfort and is often preferred by users over sockets with pelvic support. This new socket does not lessen the mechanical function of the socket, or walking and balance performance. Our recent research suggests that walking with this new socket may also increase amputated limb hip muscle size. However, more research is needed to demonstrate that this new socket design improves amputated limb hip muscle strength and endurance, leading to better function. A socket design that increases amputated limb hip muscle strength and endurance would provide a simple way to restore amputated limb hip muscle weakness in above-the-knee prosthesis users. Despite a considerable decrease in hip muscle size and strength due to amputation surgery, amputated limb hip muscles are expected to compensate for the loss of knee and ankle function by providing stability and propulsion during walking. Walking in the new socket design without pelvic support is expected to increase amputated limb hip muscle strength and endurance, providing an appealing alternative to traditional resistance training in order to retain hip muscle strength. Unlike traditional resistance training, using this new socket design would not require additional time or equipment, and may be effective just by walking in the home, community, or workplace. Due to existing infrastructure (e.g., ongoing clinical adoption of the NU-FlexSIS Socket, existing instructional materials and courses for fabrication and fitting of the NU-FlexSIS Socket, as well as a continuing partnership with Chicago's largest provider of prosthetic clinical care), the investigators anticipate being able to translate our research results to clinical practice by the end of the project period. The investigators expect the results of the proposed pilot research project to directly and positively benefit the health and well-being of Service members, Veterans, and civilians who are above-the-knee prosthesis users. Benefits of increasing amputated limb hip muscle strength and endurance may include: i) improved control over the prosthesis, ii) better balance, iii) reduced effort to walk, and iv) protection against joint degeneration. For Service members these benefits could improve their performance on challenging and/or uneven ground, and increase the distance and speed they can walk or run. For Veterans, these benefits could lead to greater independence during activities of daily living, and fewer falls, reducing the physical and emotional burden on family members and caregivers.

Start: September 2019

Additional Hyperbaric Oxygen After Lower Extremity Amputation

This study evaluates the effect of additional hyperbaric oxygen therapy after lower extremity amputation. The patients will be randomized after amputation to either a treatment group receiving hyperbaric oxygen therapy, or control group.

Start: July 2018

The Effect of Negative Pressure Wound Therapy on Wound Healing in Major Amputations of the Lower Limb

The socioeconomic costs of problematic and delayed wound healing following lower limb amputations are enormous to the society. Lower limb amputations is one of the longest known surgical treatments, but also one of the least investigated in the field of medical science. Negative Pressure Wound Therapy (NPWT) has emerged as a great instrument to aid healing. Studies have shown that it has a positive and measurable effect on wound healing following eg. total Knee and hip replacements. The aim of this study is to evaluate the effect of a closed NPWT on incidence of postoperative wound complications, in patients undergoing lower extremity amputation.

Start: June 2021

Moisture Management Liner Effectiveness Study

The comfort and fit of the residual limb within a prosthetic socket are of primary concern for many amputees. The residual limb is typically covered by non-breathable and non- thermally conductive materials that can create a warm and ultimately moist environment. The investigators have developed a silicone liner approach to remove sweat from the skin and out of the socket and to passively conduct heat from the skin using thermally conductive elastomers. This liner has been developed to work alongside a thermo-electric cooling (TEC)-based module called the Intrasocket Cooling Element (ICE) developed in a parallel project by Vivonics, Inc. and Liberating Technologies, Inc. The ICE device can be embedded into the prosthesis in order to cool the residual limb. A technology that can provide thermal control while retaining adequate suspension, weight, and other prosthetic characteristics would benefit many prosthesis wearers.

Start: July 2020

Myoelectric Game Training and Outcomes

The purpose of this study is to evaluate the effects of myo-electric training tools on prosthesis functional outcomes.

Start: April 2019

Effect of Sports-oriented Rehabilitation on Mobility and Daily Activity in People With a Lower-limb Amputation

Mobility is one of the most important factors in the quality of life of people with a lower-limb amputation. However, mobility and physical activity are often limited. 61% of amputees is not sufficiently active in daily life and only about 15% of the Dutch amputees regularly participates in sports. Physical inactivity is known to increase the risk of comorbidities, especially among amputation patients who already have a higher prevalence of vascular diseases, diabetes and osteoarthritis. It is clear that sufficient daily physical activity is important to optimize the health and quality of life of amputees. Research has shown that higher aerobic capacity, higher muscle force and the absence of comorbidities are related to better walking ability, as walking is more energy consuming for people with an amputation. It is therefore expected that increasing strength and cardiovascular fitness results in better mobility, higher daily activity, better physical health and a better quality of life among amputees. To improve physical capacity and sports participation in people with a lower-limb amputation, the Sint Maartenskliniek (Nijmegen, The Netherlands) and Dutch football club N.E.C. Nijmegen developed a new exercise program: Fit en Vitaal. Participants perform a six-week training program with three training sessions each week (fitness, aqua-fitness and a sports and play session) under the guidance of movement agogue. Thereafter, they continue with a low-frequency movement intervention during which they attend various sports clinics once a week for eight months. As social support and contact with peers are important factors in sports participation for amputees, the Fit en Vitaal program was designed as a yearly returning program with a fixed group of participants at the start of each year. This exploratory study aimed to evaluate both the direct and indirect effects of the Fit en Vitaal program on people with a lower-limb amputation in terms of walking ability, functional mobility, oxygen consumption during walking, daily physical activity at home and experienced quality of life. It is expected that all will improve after the first six weeks of training, and the effects will remain after the eight-month low-frequency training.

Start: August 2019

Evaluation of the Stability of Osseointegrated Implant in Amputees

The study concerns the technique of osseointegration that consists of inserting a titanium pin into the bone of the amputated limb. A removable external prosthesis will then be connected to the implant section that protrudes from the soft parts. The benefits of using an osseointegrated prosthesis are the improved sensory feedback (osseoperception) and absence of the socket. This leads to better anchoring of the prosthesis to the abutment, greater control of the prosthesis and the absence of heat, pain, and pressure sores. The osseointegrated prosthesis does not reduce the mobility of the limb and promotes good growth of bone and muscle mass. The aim of this study is to evaluate the stability of the osseointegrated implant in trans-femoral and trans-humeral amputees. The main outcome: quantitative evaluation (rotations, translation and MTPM) of the stability of the implant bone interface by Roentgen Stereo-photogrammetric Analysis (RSA) and follow-up. The secondary outcome: evaluation of the quality of life improvement in patients through clinical score and satisfaction survey.

Start: January 2019

Patterned Electric Dressing Effects on Open Wounds

This study is a pilot feasibility study to determine treatment effects to estimate sample size for future studies that evaluate wound bacteria colonization. The secondary objective of this study aims to observe the effect of PED on an open wound and its effects in wound bacteria colonization.

Start: December 2021

Low Cost Socket for Lower Limb Amputees

The purpose of this research is to test an investigational fabrication system for transtibial prostheses. This fabrication method will be tested for comfort and function to determine feasibility of use for amputees in developing countries. To address the need for high quality and affordable prosthetic technology in developing countries, the investigators have developed a simplified socket fitting protocol using expandable rigid foam. The foam is formed by mixing small amounts of two liquid components, which typically expands to several times its original volume.

Start: July 2018

Patient Reported Outcomes Following Targeted Muscle Reinnervation

The purpose of this study is to characterize the functional status and quality of life of patients undergoing Targeted Muscle Reinnervation (TMR) at time of major limb amputation (primary) or subsequent to major limb amputation (secondary). Participants can expect to be on study for about a year and will complete a short electronic survey and option phone interview.

Start: December 2020

Understanding Prosthetic Needs and Outcomes in Women Veterans With Amputation

The proportion of US Veterans who are women is currently at its highest point in history and is projected to continue increasing. Nonetheless, the literature regarding prosthetic and functional outcomes in women Veterans with lower extremity amputation (LEA) is nearly non-existent. Research in other healthcare systems indicates the presence of concerning gender differences in both prosthetic outcomes and functional mobility, with women being less likely to be prescribed a prosthesis, less likely to use it, and more likely to be dissatisfied than men. This mixed-methods study will use VA administrative data, qualitative interviews, and a patient survey to characterize women Veterans' outcomes as well as compare them to those of male Veterans, resulting in the largest study to date on women Veterans with LEA. Data from this rigorous evaluation will inform clinical care by identifying intervention targets to improve prosthetic and functional outcomes for this understudied population.

Start: September 2019

Autologous Volar Fibroblast Injection Into the Stump Site of Amputees

This study is a clinical trial testing the safety and efficacy of volar fibroblast (skin cells from the palm or sole) injections for thickening the epidermal (skin) layer at the stump site in people with below the knee amputations. The study will enroll adults seen at Johns Hopkins.

Start: September 2019