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Active clinical trials for "Quadriplegia"

Results 31-40 of 130

Implanted Myoelectric Control for Restoration of Hand Function in Spinal Cord Injury

Spinal Cord InjuryTetraplegia

The purpose of this study is to evaluate the effectiveness of an implanted stimulator and sensor for providing hand and arm function for individuals with cervical level spinal cord injury.

Active19 enrollment criteria

Combined Robotic Training and tDCS in Chronic SCI

Spinal Cord InjuriesTetraplegia

The purpose of this study is to establish the value of combined non-invasive stimulation (tDCS) and behavioral training (robotics) in SCI rehabilitation, and understand the mechanisms of this interaction and its relationship to functional outcome. The investigators hypothesize that supplementary tDCS will augment the functional improvement from robot-training, in chronic SCI.

Active7 enrollment criteria

Spinal Cord Neuromodulation for Spinal Cord Injury

Cervical Spinal Cord InjuryTetraparesis1 more

This study is designed to assess the strategy of using spinal cord stimulation to improve the ability to move in spinal cord injured humans.

Active17 enrollment criteria

MyHand-SCI: An Active Hand Orthosis for Spinal Cord Injury

Spinal Cord InjuriesTetraplegia

The purpose of this study is to develop and test the hardware and software components of the MyHand-SCI device to assist with hand function for individuals with C6-C7 spinal cord injury.

Recruiting7 enrollment criteria

Nerve Transfer After Spinal Cord Injury- Multi-center

TetraplegiaSpinal Cord Injuries1 more

Current treatment strategies of acute cervical spinal cord injuries remain limited. Treatment options that provide meaningful improvements in patient quality of like and long-term functional independence will provide a significant public health impact. Specific aim: Measure the efficacy of nerve transfer surgery in the treatment of patients with complete spinal cord injuries with no hand function. Optimize the efficiency of nerve transfer surgery by evaluating patient outcomes in relation to patient selection and quality of life and functional independence.

Recruiting19 enrollment criteria

Combined Nerve and Tendon Transfer for the Restoration of Hand Function in Individuals With Tetraplegia...

Spinal Cord Injury CervicalTendon Transfer3 more

Tetraplegia after a cervical spinal cord injury (C-SCI) radically alters an individual's ability to perform normal activities of daily life due to paralysis in all extremities, resulting in lifelong dependence.[1] Traditional tendon transfer surgery has proven successful in restoring grip functions which greatly improves autonomy, but with a restricted passive opening of the hand. The number of transferrable muscles in the arm is however limited, why nerve transfer surgery is a new attractive option to further improve hand function by enabling active opening of the hand. Significant advantages of distal nerve transfers include less extensive surgical dissection, greatly reduced hospital stay, rehabilitation and restrictions, and thereby less health care use and costs. In an effort to further improve hand function and independence in patients with tetraplegia, hand surgeons at Centre for Advanced Reconstruction of Extremities (C.A.R.E.), Sahlgrenska University Hospital (SUH)/Mölndal have developed a strategy in which a nerve transfer procedure aiming to restore active opening of the hand is done prior to reconstruction of grip functions. To date, no study has compared the efficacy of this combined nerve and tendon transfer (CNaTT) procedure to traditional grip reconstruction by means of tendon transfer alone, thus constituting a major gap in the literature. The purpose of this study is therefore to fill that knowledge gap by comparing the clinical outcomes of a cohort of patients who undergo the CNaTT procedure to restore hand function, to those treated by means of tendon transfer alone.

Recruiting10 enrollment criteria

Evaluation of an Advanced Lower Extremity Neuroprostheses

Spinal Cord InjuriesStroke3 more

The purpose of this study is to evaluate a surgically implanted functional electrical stimulation (FES) system to facilitate exercise, standing, stepping and/or balance in people with various degrees of paralysis.

Recruiting23 enrollment criteria

NuroSleeve Powered Brace & Stimulation System to Restore Arm Function

Neurologic DiseasesHemiparesis12 more

The purpose of this study is to investigate if a person with weakness or paralysis in one or both arms, can use the NuroSleeve combined powered arm brace (orthosis) and muscle stimulation system to help restore movement in one arm sufficient to perform daily activities. This study could lead to the development of a product that could allow people with arm weakness or arm paralysis to use the NuroSleeve and similar devices to improve arm health and independent function.

Recruiting24 enrollment criteria

A Neuroprosthesis for Prolonged Standing After SCI Using Multi-Contact Peripheral Nerve Electrodes...

Spinal Cord InjuryParalysis2 more

The purpose of this study is to improve the performance of neuroprosthesis for standing after SCI by developing and testing new advanced methods that use multiple contact peripheral nerve electrodes to slow the onset of fatigue and increase standing duration. The new advanced methods will take advantage of the ability of multiple-contact nerve cuff electrodes to selectively activate portions of a muscle that perform the same action. Alternating activation to multiple muscles (or parts of the same muscle) rather than continuously activation the entire muscle group constantly should allow them to rest and recover from fatiguing contractions. This should allow users to remain upright for longer periods of time to perform activities of daily living, reduce the risk of falls due to fatigue, and increase the potential of receiving the health benefits of standing.

Recruiting17 enrollment criteria

Elbow Extension Restoration Surgery in People With Tetraplegia: Evolution of the Muscular Co-activations...

Tetraplegia

Patients with C5 or C6 tetraplegia have paralysis of the triceps brachii. Elbow extension can be surgically restored by transferring the tendon from a preserved muscle onto the tendon of the paralyzed triceps brachii. The most frequently used method transfers the posterior deltoid tendon. However, transferring the posterior deltoid can create an imbalance in the shoulder joint and this technique is not recommended when the clavicular head of the pectoralis major is weak. In such cases, a preferred method is a biceps brachii tendon transfer. The success of this intervention relies on the ability of the patient to dissociate the drive between the transferred biceps brachii and the other elbow flexor muscles. Even though tendon transfers are widely used, the subsequent reorganization of muscle coordination strategies remains largely unknown. The identification of muscle synergies and co-coactivations from electromyography (EMG) signals, defined as groups of muscles activated in synchrony, may help to provide a deeper understanding of changes in muscle coordination. The objective of this study is to investigate for the first time the reorganization of muscle coordination after surgical restoration of elbow extension through the identification of muscle synergies and the quantification of muscle co-activations. Four participants with tetraplegia will take part to this study. The experimental procedure will be conducted before their surgery and once a month during 6 months after their surgery. The procedure consists of performing consecutive elbow extension-flexion cycles with the shoulder abducted at different angles. Surface and intramuscular EMG measurements will be collected for several upper limb muscles. Muscle synergies and co-activations will be extracted from the EMG measurements.

Recruiting9 enrollment criteria
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