View clinical trials related to Amputation, Traumatic.
Filter by:To compare the use of the semi-autonomous control algorithm (condition 1) with the standard of care myoelectric system used with the TASKA prosthetic hand (condition 2). Able bodied subjects will enroll in a laboratory based experimental session at the University of Colorado at Boulder. In a randomized order, subjects will be fitted with a by-pass prosthesis which enables the able-bodied subject to control the prosthetic hand using the myoelectric signals on their able limb. A TASKA prosthetic hand will be sensorized using the Point Touch technology. Then, the subjects will perform the ACMC outcome measure using each experimental condition. Trained observers will record the measure. Then, a direct comparison can be made both within subject performance and across subjects for the semi-autonomous control algorithm developed in Aim 2.1 and the standard of care myoelectric system used in the TASKA prosthetic hand.
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.
Study assessing four-channel prosthesis controller, that compares contralateral (mirrored) EMG-force training to ipsilateral EMG-target training with both limb-absent and able-bodied subjects
The purpose of this graduate student research study is to test that a specifically designed and novel robotic prosthetic leg (RPL) is feasible, safe and improves symmetry, efficiency, and metabolic function during sit-to-stand and stand-to-sit transitions as compared to the subject's prescribed device, and as compared to no device at all.
Lower limb amputation (LLA) commonly affects young and active people who have long life expectancy. It is a major surgery causing many functional deficiencies which can reduce overall health quality and physical condition of the wounded persons and necessitating a multidisciplinary rehabilitation programme. High-frequency ultrasonography (US) is useful in evaluating peripheral nerves because of it has many superiority to other techniques. The advantages of US is; it has high resolution but no ionized radiation. It is possible to make dynamic and real-time imaging. It was showed that US have the same specificity and more sensitivity than magnetic resonance (MR) imaging in evaluating peripheral nerves. The aim of this study is to evaluate the sciatic, tibial and peroneal nerves of traumatic lower-limb amputees with the help of sonography and find the relationship between sonographic values and clinical characteristics.
Increased risk of osteoarthritis (OA) has been previously demonstrated in patients with lower limb amputation. Although there are many studies on knee joint of intact limb of amputees in the literature, the number of studies on intact foot and ankle is extremely limited. The primary aim of the study is to compare the intact talar cartilage, tibialis anterior and gastrocnemius muscle thickness measurements of traumatic unilateral transtibial amputee patients with that of healthy individuals using ultrasound. The secondary aim is to investigate the relationship between cartilage and muscle thickness measurements with clinical parameters.