Active clinical trials for "Spinal Cord Injuries"

The aim of this study is to understand what happens to muscle and bone in spinal cord injured males after four months of training using stand training, with body weight support (BWS), with testosterone replacement therapy (TRT), and electrical stimulation (ES). Specifically, researchers will investigate nerve, muscle, and bone changes in the lower limbs in response to stand training and ES when combined with TRT compared to i) standing alone with TRT; ii) stand training alone with placebo; iii) stand training alone and ES with placebo.

Losing the ability to walk can lead to fewer opportunities to socialize with friends and family and participate in the community. When this happens, powered wheelchairs can provide access to homes and communities, contributing to health and well-being. Training by a qualified occupational therapist allows an individual to use a powered wheelchair safely and effectively. Learning to drive a powered wheelchair can be difficult, frustrating and time consuming for people with cognitive and physical challenges. In this study, we will ask participants with cognitive impairments to complete training with an occupational therapist using either a shared control wheelchair or training methods according to the standard of care. We believe shared control training, entitled Collaborative Powered mobility Innovative Learning OpporTunity (CoPILOT) will enhance driving skill while maximizing safety learning. CoPILOT has the potential to enable people to participate more in their day to day lives and regain mobility independence.

The cervical spine is most commonly injured, accounting for 53.4% of spinal injuries. More than 40% of all spinal injuries occur at either C4, C5 or C6 levels leading to variable loss of function in the upper extremities. Traditionally, patients sustaining a cervical spine injury were followed for 2 years to ensure that recovery had stabilized before offering upper extremity reconstruction. This type of reconstruction includes active muscle transfer, tendon transfer and joint fusion. Patients are most commonly assessed immediately at the time of injury. Muscle testing is commonly performed using Medical Research Grading System (MRC). Although complete neurologic stabilization may not be complete until 2 years post-injury, in the group with initial grade 0 muscle strength after the acute phase of injury, expectations of improved muscle strength to or beyond grade 3 after 4-6 months is minimal. And grade 3 muscle strength is felt to be the minimum useful functional strength in a muscle group. The investigators propose an early nerve reconstruction approach to the tetraplegic patient with dysfunction of the upper extremity to augment the available tendon transfers. A comparative pilot study is proposed to determine the effectiveness of supinator branch to posterior interosseous nerve (PIN) transfer in 5 patients with cervical spine injury. Patient who fits inclusion criteria will be offered the opportunity to be involved in the study and reviewed at 6 months from injury. If the patient still has not regained Grade 3 power in finger or thumb extension, they will be randomized to be in a surgical group or non-surgical group. If informed consent is obtained, then surgery will be completed between 6-9 months from the patient's original cervical spine injury. The patient will be followed at regular intervals post-operatively with expectation of 18-24 month follow-up. Measures will be used pre and post-operatively for comparison. Measures will include MRC muscle grade (EDC), range of motion, Disability of the Arm, Shoulder, and Hand Questionnaire (DASH), and The Graded Redefined Assessment of Strength Sensibility and Prehension (GRASSP) (Kalsi-Ryan, 2011).

The purpose of this research study is to evaluate the effectiveness of functional electrical stimulation (FES) provided by an implanted pulse generator (IPG) in correcting hip, knee and ankle function to improve walking in people with partial paralysis.

Extended periods of tilt table standing have been observed to improve spasticity in individuals with spinal cord injury (SCI). The purpose of this study is to determine the effect of three sessions of whole body vibration while tilt table standing on spasticity in individuals with a complete or incomplete SCI above the neurological level of T10. Participants in this study will undergo whole body vibration while standing on a tilt table for a total of approximately 14 minutes for a total of 3 sessions on 3 separate days. Spasticity monitoring will be evaluated prior to and after the intervention with the Modified Penn Spasm Frequency Scale, an interview to obtain the individual's perception and impression of the effect of whole body vibration on the performance of activities of daily living, quality of life, pain scale, and global impression of change.

The aim of this study is to evaluate the use of autologous expanded mesenchymal stem cells intralesional transplantation as a safe and potentially beneficial treatment for patients with spinal cord injury.

Reconditioning program during the chronic phase of the spinal cord-injury is well known for its beneficial effects, but there is no investigation in early rehabilitation consequences. Nevertheless, it may be justified : to increase oxygen uptake; to decrease the risks of medical complications; or to improve the mobility. The restrictive autonomy is due to different factors: firstly wheelchair users reduce their movement because they need technical or human help to achieve transfers; and secondly, locomotion is performed by the upper limbs. Without specific practice, the upper limbs mechanical and physiological properties do not permit exercises that are long and intense. Then, the purpose of this research is to evaluate the effects of an 8 weeks interval training program on wheelchair independance during inpatient early rehabilitation for spinal cord injury (3 to 6 months post injury) compared to a control group (classical rehabilitation program in a physical medicine and rehabilitation department).

The purpose of this study is to determine if 12 weeks of flexible-dose vardenafil therapy demonstrates superior efficacy compared to placebo in subjects with ED solely secondary to a traumatic spinal cord injury

Surface electrical stimulation has for many years been widely used to retrain paralysed muscle and achieve the functions of standing and stepping. Recently a number of centres have used electrical stimulation of the leg muscles to achieve cycling. During cycling the quadriceps and hamstring muscles (thigh muscles) (and sometimes also the gluteal (buttocks) muscles) are stimulated to obtain a cycling motion. Stimulation is applied using adhesive electrodes placed on the surface of the skin. This form of exercise is known as FES-cycling (FES = Functional Electrical Stimulation). We have recently carried out a pilot study which investigated the feasibility of lower-limb cycling using electrical stimulation. Cycling is accomplished using a standard recumbent tricycle, which is adapted for the purpose of FES cycling. Three people with a complete spinal cord lesion at level T7-T10 took part in the pilot study. The subjects are now able to cycle continuously and reliably on a tricycle mounted on a cycle trainer for periods of up to 1 hour. The subjects are also able to cycle outside for distances of up to 3 km. The purpose of the new study is threefold: (i) We wish to develop the equipment and methods for recreational cycling to the stage of a pre-commercial design specification; (ii) The subjects recruited for the project will carry out a progressive, high-intensity cycle-training programme. In Glasgow, 5 paraplegic subjects shall complete the training programme, which will be based at their homes. This will allow us to fully assess the feasibility of recreational FES-cycling, by measuring the power which can be sustained during long periods of cycling, and to measure the impact of the training regime on their quality of life; (iii) We will determine whether the training regime leads to significant improvements in cardiopulmonary fitness, and therefore lower risk of heart disease, and to reductions in the likelihood of the development of pressure sores and fractures. We hope that this type of exercise will lead to general improvements in the fitness of people who might use the system in future.

The study will investigate the feasibility of using functional electrical stimulation (FES) of the calf muscles of paraplegic subjects to assist in posture stabilisation during standing. We aim to achieve postural stability by combining controlled FES of the lower-limb muscles with the voluntary motor control skills of the intact upper body.