View clinical trials related to Spinal Cord Injuries.
Filter by:This study aims to determine if a non-functioning UroMonitor device can be safely inserted, monitored, and removed in patients with SCI.
The purpose of this study is to look at the effect of using Mirtazapine to target a specific pathway in the body, that relies on a natural chemical the body produces called 'serotonin', in patients with spinal cord injury (SCI) and non-injured persons during sleep. During this part of the study participants will be asked to take Mirtazapine (15mg per day) and a placebo in a random fashion, each for a one week period (drug period) of time followed by one week without drugs (washout period). The drugs will not be taken all at the same time, but each will be taken separately for one weeks followed by a night study to look at the effect the Mirtazapine/placebo pill has on the way the body responds during sleep.
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.
In a traditional view going back to 1800, spinal cord has been described as a protected bundle of nerves that connects the brain to the body. Galen contended that spinal cord mediates motor, sensory and some of the autonomic functions below the neck. Traumatic Spinal Cord Injury (TSCI) is a catastrophic unexpected and devastating event that can be occurred along the spinal column (cervical, thoracic, and lumbar). A global-incident rate (2007) is estimated at 23 TSCI cases per million (179312 cases per annum). TSCI can often results in a life-threatening condition that includes varying degrees of motor paralysis and sensory loss and impairment of bowel, bladder, sexual, and other physiologic functions. In this study, investigators suggest a new experimental rehabilitative protocol for TSCI patients called Neural Motor Recruitment Method (NEUROM). This method is based on the mentioned histological and/or functional reorganization model after TSCI, on the MI concepts and the targeted sensory inputs related to motor recovery. The hypothesis here is that NEUROM can enhance sparing- induced plasticity and increase motor and sensory recovery in SCI patients especially when combined to tDCS.
Spinal cord injury (SCI) is a devastating health problem for tens of thousands of military personnel, Veterans and civilians annually. Many persons with SCI must use a wheelchair for their entire life. A new scientific breakthrough called "lumbosacral epidural stimulation" or "ES" can help people with SCI to stand, step and even walk again. At present, for ES to work, people must train with a specialized treadmill that requires several other qualified personnel to train them, which makes it hard for many people with SCI to benefit from this technology. On the other hand, there are wearable "robot suits" that can be used with ES, which would make it easier to use. Our research team has already used this "ES Robot Suit" for 3 months in one person with tetraplegia and showed remarkable improvements in motor control. Furthermore, the investigators are aiming to enhance overground motor recovery by adding 6 months of resistance training (RT). The addition of RT will likely to enhance muscle quality as indicated by increasing lean mass, peak torque and increase sensory flux to the central nervous system. Other additional benefits may include improvement in cardiovascular profile and bladder functions. The specific objectives of the current proposal are to compare the impact of EAW+ES following improving lower extremity muscle quality compared to those who will only undergo EAW+ ES without conducting RT on motor recovery, cardio-metabolic health and bladder control in persons with complete SCI. At the conclusion of the current proposal, the work will be readily available for translation into clinical setting to serve Veterans and Civilian survivors with SCI.
The FIRST project compares the dose of robotic gait training (RGT) with usual care gait training for patients with spinal cord injury (SCI) undergoing rehabilitation at Baylor Scott & White Institute for Rehabilitation (BSWIR).
Cervical spinal cord injury (SCI) results in hand and arm function impairments and decreased independence in performance of daily activities such as bathing, eating, dressing, writing, or typing. Recent approaches that involve the application of non-invasive brain stimulation have the potential to strengthen the remaining connections between the brain and the spinal cord for improved hand function. Combining brain stimulation with performing upper limb functional tasks may further increase the ability of individuals with tetraplegia to use their hands. The purpose of this study is to investigate if "random noise", a special type of brain stimulation that most people cannot feel, can be used to enhance upper limb function in individuals with spinal cord injury. Specifically, the investigators will examine if a combined treatment protocol of random noise and fine motor training results in greater improvements in motor and sensory hand function compared to fine motor training alone.
The aim of the study is to investigate the effects of 6 weeks of technological-assisted rehabilitation on function of upper extremity and hand in subjects with incomplete cervical spinal cord injury.
The study is designed to determine whether hemorrhage within the injured spinal cord is influenced by mean arterial pressure (MAP) augmentation with vasopressors and by venous thromboembolism (VTE) prophylaxis with anticoagulants in the first two weeks following a traumatic spinal cord injury (tSCI).
There is currently no prospective study analyzing the effect of tracheostomy with bedside simultaneous gastrostomy versus tracheostomy with delayed gastrostomy placement (TSG versus TDG) on the outcomes of neurocritically-ill patients. The investigators will study TSG via concomitant PDT and PUG procedures, while TDG will occur per usual care. This study is a prospective randomized open-label blinded endpoint study to assess the effect of tracheostomy with bedside simultaneous gastrostomy (TSG) versus the usual care of tracheostomy with delayed gastrostomy (TDG) placement on outcomes of neurocritically-ill patients.