View clinical trials related to Amputation.
Filter by:Participants with chronic, refractory phantom limb pain (PLP) or residual limb pain (RLP) for more than 6 months will be enrolled in this clinical trial. Aim: Define the attributable pain relief and functional improvement in participants with PLP/RLP after contralateral limb sciatic nerve block. Also, contribute to the basic science understanding of the crossed-withdraw reflex by demonstrating a known animal model phenomenon in human participants. Hypothesis: Contralateral limb sciatic nerve anesthetic block with 2% lidocaine provides immediate clinically meaningful pain reduction, defined as the proportion of patients with at least 50% improvement in NRS pain score in PLP/RLP when compared to sham.
Liberating Technologies, Inc. (LTI) has developed a dexterous prosthetic fingertip that will be fit onto an i-Digits™ partial hand prosthesis and allow for an additional fine grasp. The device will interface with research participants' existing prostheses and use the same control strategy that is used for their everyday use. Each participant's prosthesis will be restored to their original configuration by the end of their testing period.
It is aimed to investigate the effects of telerehabilitation-based structured exercise on muscle strength, balance, performance, body image, prosthesis adaptation, activity limitation, prosthesis use satisfaction, and quality of life in individuals with unilateral below-knee amputation. Study hypothesis: In individuals with transtibial amputation, telerehabilitation-based structured exercise has an effect on muscle strength, balance, performance, body image, prosthesis adaptation, activity limitation, prosthesis use satisfaction, and quality of life. Forty individuals with a unilateral transtibial amputation will be included in the study. Participants will be divided into two groups as telerehabilitation and control groups with equal sample sizes by the randomization method. All participants will undergo a 6-week exercise program. A structured exercise program supported by telerehabilitation will be applied to the telerehabilitation group 3 days a week, and a home exercise program will be applied on the remaining days of the week. An only a home exercise program will be applied to the control group. Participants will be evaluated at the beginning and end of the study.
Microprocessor knee joints are prosthetic knee joints with an integrated processor or a computer that can analyze data. During walking, parameters such as step speed, joint angles, and weight transferred through sensors are analyzed by the computer inside the joint and determines the movement for the safest and most normal walking. They have different features from each other in terms of weight/height, sensor and processor frequency, load carrying capacity, phase control (hydraulic, pneumatic, magnetic), battery properties, water resistance, and special activity mode. C-Leg, Genium, Genium X3, Rheo Knee 3, Rheo Knee XC, Orion etc. prostheses of different companies are used as oscillating and compression phase microprocessor knee prostheses. Publications on C-leg, Genium and Genium X3 prostheses are limited in international literature. Although there are existing studies comparing C-leg and Genium, there is no study comparing these three prostheses. The investigators think that our study is important because it is the first study in the literature to compare these three prostheses. In this study, the investigators aimed to examine the effects of different microprocessor knee prostheses on mobility and gait parameters in unilateral traumatic transfemoral amputees.
Lower Limb Amputations (LLAs) are a substantial burden on the Canadian health services with nearly 50,000 cases reported between 2006 and 2011. To address the challenging nature of a LLA (e.g., decreased mobility, pain, depression), patients need to go through extensive rehabilitation programs. Effective self-management programs can help those with LLA to monitor their own condition and improve their quality of life. However, a lack of self-management programs, a limited healthcare budget, and a decrease in quality of services (e.g. shorter lengths of stay for inpatients and rapid movement to outpatient services) pose further challenges for patients with LLA. Self-management programs can be provided to clients through online mobile technologies (e.g., tablet) and offer accessible, low-cost, and potentially augmentative rehabilitation after discharge, in both urban and rural areas. To address these needs, an online educational and training platform for individuals with LLA called, Self-Management for Amputee Rehabilitation using Technology (SMART) was designed and developed. SMART focuses on LLA education, prosthetic limb management, and weekly support of peers. It is monitored by a trainer through a website. SMART will be evaluated in men and women with LLA aged 50 years and over, admitted to prosthetic rehabilitation throughout BC and ON. SMART has the potential to influence a client's post-LLA needs with direct (e.g., individual's health) and indirect (e.g., healthcare utilization) benefits. The purpose of this randomized controlled trial is to evaluate the effect of SMART in community dwelling older adults with unilateral, above or below, knee amputation.
Lower limb amputation is common in the United States, with approximately 150,000 amputations annually. Most individuals walking with a prosthesis demonstrate asymmetrical loading-i.e., they favor the amputated side by placing more weight and increased ground reaction forces through the intact limb-which likely contributes to increased metabolic cost of walking. Lack of adequate muscular strength in the lower limb to attenuate these forces places increased stress on the joints, which may be displaced proximally, and may play a role in reported knee and hip pain in the intact limb. Lower limb muscle weakness following amputation has been well documented. Increasing quadriceps strength is important after an amputation because it is positively correlated with gait speed. Gait speed may also be associated with successful community mobility, which leads to improved quality of life following amputation. Individuals with amputation who resume an active lifestyle are able to maintain strength. However, these individuals represent a minority of persons with lower limb amputation; most individuals report more barriers than motivators to adopt an active lifestyle. Ischemic conditioning (IC) may strengthen leg muscles and reduce the metabolic cost of activity after amputation. In IC, the limb is exposed to brief, repeated bouts of ischemia (reduced blood flow) immediately followed by reperfusion. IC has been shown to improve muscle performance in healthy and diseased populations. IC has also been used more recently in patients with peripheral artery disease (PAD) as an intervention to improve function, such as walking ability. Acute exposure to IC increases muscle strength and activation, both in healthy, active individuals and in those with severe neuromuscular dysfunction, such as stroke survivors. IC also attenuates muscular fatigue. Increased fatigue resistance at submaximal contraction levels following IC may be due to increased neural activation of skeletal muscle. Changes in neural activation of muscle may be particularly beneficial during cortical reorganization after amputation. Reduced quadriceps fatigue during submaximal activities may also drive changes in gait kinematics, such as increased knee flexion during loading and mid-stance. Exposure to IC may also increase the oxidative properties of skeletal muscle, offering a direct pathway to reduce metabolic cost. Therefore, IC may lead to cellular changes that lower the metabolic cost of activity. The primary aim of this study is to quantify the benefits of acute and chronic IC on quadriceps strength and walking economy in individuals with PAD and history of lower limb amputation.
This study will evaluate the feasibility of using implanted myoelectric sensors (IMES) to control a transradial prosthesis
This is a Prospective, Double Blinded, Placebo Controlled, Randomized, Cross-over trial using Qbrexza Cloths to treat hyperhidrosis of amputation sites. There is a 2 week screening period where patients will use an activity monitor to establish baseline activity level, then patients will be randomized to receive either Qbrexza cloths or placebo for 4 weeks, then a 2 week washout, and then a 4-week cross-over treatment period.
The PERCEIVE (PrEdiction of Risk and Communication of outcomE followIng major lower limb amputation - a collaboratiVE study) study aims to explore how decisions about major lower limb amputations are made by patients and healthcare professionals.
This pilot study evaluates the tolerability and feasibility of the Axoguard Large-Diameter Nerve Cap (sizes 5-7 mm) for protecting and preserving terminated nerve endings after limb trauma or amputation when immediate attention to the nerve injuries is not possible.