View clinical trials related to Amputation; Traumatic, Hand.
Filter by:The goal of this study is to utilize the Gaze and Movement Assessment (GaMA) metric to assess the effect of different prosthetic components on compensatory movements used to complete activities of daily living.
Liberating Technologies, Inc. (LTI) has developed Pointdexter, a dexterous prosthetic fingertip that is integrated into a commercial prosthetic hand and allows for an additional fine grasp. The Pointdexter device interfaces with upper limb prostheses by swapping the usual prosthetic pointer finger with the Pointdexter device. The dexterous prosthetic fingertip utilizes the same control strategy used to operate the prosthetic hand. This solution aims to combine the advantages of the common terminal devices into one product by combining the practicality and dexterity of a split-hook or gripper with the aesthetics of multi-articulating hands.
The purpose of this research study is to see how well a new type of myoelectric prosthesis works. A myoelectric prosthesis is a robotic limb for amputees that is controlled by sensing the activity of muscles in the body above the amputation level. This study involves a medical procedure to implant the Myoelectric Implantable Recording Array (MIRA) in the residual limb. The procedure will be performed under sedation by a physician. When muscles contract, they generate an electrical signal that can be sensed by MIRA and used to control the prosthetic limb. Myoelectric prosthetic limbs normally use electrodes that are placed on the surface of the skin to control different movements. However, MIRA is implanted under the skin, which could improve the ability to control the myoelectric prosthesis. After the MIRA is implanted, training will occur to learn how to control the prosthesis using the muscles in the residual limb. The device can stay implanted for up to one year. The device will be removed (explanted) by a physician.
The finger and fingertip are the most frequently amputated body parts, due to work-related incidents. Yet because of space, weight and cost constraints, prosthetic fingers and fingertips are heavy and bulky with limited active motion and sensation. Most are basic variations on the hook and claw. Lower limb prostheses have become extremely technologically advanced in their design and materials, and upper limbs lag behind in all of these areas. This is due to the complexity of the anatomy and function of the upper limb compared to the lower. There are no commercially available prostheses that offers direct sensory feedback and as such, rely on visual feedback from the wearer. The original PROLIMB study (PROLIMB I) used a Leap Motion Controller (LMC) to investigate the type of grasp adaptation that have been undertaken by patients during the rehabilitation process following amputation and compared this to similar data from healthy volunteers. PROLIMB I also looked at refining the tactile feedback system by investigating the sensation felt on amputation sites in order to feed this information into the haptic feedback system. The vision of the PROLIMB II project is to build on the work completed in PROLIMB I and develop and combine mechanistic models of hand motion and haptic sensing to deliver novel, affordable body-powered prosthetic fingertip digits with enhanced motion and sensation to address current clinical needs and support the quality of life of amputees. With collaboration from the University of Warwick (UoW) and University College London (UCL), Steeper Group and Naked Prosthetics the PROLIMB II study will aim to model, design, fabricate and validate a body-powered prosthetic fingertip digit with integrated sensory feedback. The University Hospital Coventry & Warwickshire (UHCW) will provide the clinical facility with which to assess the comfort, usability and acceptance of this prosthetic in the daily lives of patients with digit amputations. This project will be a proof of concept study with verification of the prosthetic in motion capture (gait) laboratories as well as the use of simple validation data collection over a longer period.
The purpose of this study is to compare functional outcomes in single digit replantation subjects compared with revision amputation. Functional outcomes will be assessed by DASH (disabilities of the arm, shoulder and hand) score and with Purdue Pegboard Test by the subject's respective hand therapist at their last visit. Results will contribute to generating a preoperative decision algorithm for single digit amputation injuries.
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.
This study will allow us to assess whether the Point Partial confers functional and psychological benefit to persons with partial finger amputations in an unconstrained environment. The use of the Point Partial outside of the laboratory will allow for a wider variety of uses and for a more realistic simulation of the product being used in the field. This well-controlled trial (without randomization of subjects) will produce the first Level II-1 medical evidence in our field of partial hand prosthetic design as described by the 1989 U.S. Preventive Services Task Force. Furthermore, this study will provide important data to support providers who are requesting reimbursement from payers.
The objective of the device feasibility study will be to validate the user needs of the Point Partial system. This study will be a single group intervention model where one group of 5 partial finger amputees will be asked to perform several tasks. Successful completion of a task results in a fulfilled user need. Failure to complete a task results in an unfulfilled user need.
The objective of the device feasibility study will be to validate the user needs of the Point Digit system. This study will be a single group intervention model where one group of 5 partial hand amputees will be asked to perform several tasks. Successful completion of a task results in a fulfilled user need. Failure to complete a task results in an unfulfilled user need.
This study will allow us to assess whether the Point Digit confers functional and psychological benefit to persons with partial hand amputations in an unconstrained environment. The use of the Point Digit outside of the laboratory will allow for a wider variety of uses and for a more realistic simulation of the product being used in the field. This well-controlled trial (without randomization of subjects) will produce the first Level II-1 medical evidence in our field of partial hand prosthetic design as described by the 1989 U.S. Preventive Services Task Force. Furthermore, this study will provide important data to support providers who are requesting reimbursement from payers.