Active clinical trials for "Spinal Cord Injuries"

Accumulating evidence suggests that repeatedly breathing low oxygen levels for brief periods (termed intermittent hypoxia) is a safe and effective treatment strategy to promote meaningful functional recovery in persons with chronic spinal cord injury (SCI). The goal of the study is to understand the mechanisms by which intermittent hypoxia enhances motor function and spinal plasticity (ability of the nervous system to strengthen neural pathways based on new experiences) following SCI.

The purpose of this study is to determine the safety and feasibility of pairing vagus nerve stimulation (VNS) with rehabilitation and to determine the efficacy of pairing VNS with rehabilitation.

The purpose of this research is to test the health benefits of using functional electrical stimulation for lower extremity exercise at home.

Spinal Cord Injury (SCI), being a devastating diagnosis, has little to no recovery which leads to a long-standing of debilitating impairment for affected patients. The National Neuroscience Institute (NNI) Neurosurgery team, together with our collaborators, will be embarking on a new clinical pilot trial named RESTORES: RESToration of Rehabilitative function with Epidural Spinal Stimulation. This study aims to investigate the feasibility of electrical stimulation via a spinal cord stimulator (SCS), which will be implanted into the study subjects, and advanced robotic neuro-rehabilitation to aid in improving neurological function in patients diagnosed with chronic SCI. A total of 3 patients, male and female participants, above the age of 21 who have been diagnosed with the condition for more than a year will be recruited for this study over a 2-year period. Rehab sessions will take place pre and post-surgical implant, assessing subject improvements.

The aim of our study is to investigate the effect of high-frequency Repetitive Transcranial Magnetic Stimulation(rTMS) therapy applied to the dorsolateral PFC (DLPFC) area on neuropathic pain in patients with spinal cord injury. In this area, there are very few studies on the effectiveness of rTMS treatment added to medical treatment in neuropathic pain. In addition, the number of studies comparing the effect of rTMS therapy applied to the DLFPC area is very few.

Cervical spinal cord stimulation can elicit arm and hand movements through recruitment of proprioceptive neurons in the dorsal roots. In participants with cervical spinal cord injury, the spare roots bellow the lesion can be used to reactivate motor function. Decoding of motor intentions can be achieved through implantable electrocorticography (ECoG) devices. In this study, the investigators will use an investigational system using ECoG signal recording over the motor cortex to drive muscle specific electrical epidural spinal cord stimulation (EES). The investigators will assess the safety and preliminary efficacy of this system in 3 participants.

Investigators propose to demonstrate that epidural stimulation (ES) can be used to recover significant levels of autonomic control of cardiovascular, urinary and sexual function as well as the ability to voluntarily control leg movements below the injury level. This intervention would provide an immediate therapeutic alternative to individuals who now have no recourse for treatment. In addition investigators suggest to prove on functional magnetic resonance imaging if there are some significant changes before and after the stimulation.

Locomotor training (LT) facilitates recovery of spinal locomotor networks after incomplete spinal cord injury (ISCI), but walking impairments persist. A limitation of LT is insufficient excitation of spinal locomotor circuits to induce neuroplastic recovery. Transcutaneous spinal direct current stimulation (tsDCS) is a non-invasive approach to increase spinal excitation and modulate spinal reflexes. The study will examine if tsDCS combined with LT enhances locomotor rehabilitation after ISCI.

Persons with an injury of the central nervous system clearly experience motor impairments. Among the most commonly described consequences are gait abnormalities and impaired balance. Although these are undeniably linked, they are also influenced by other factors. A recent systematic review (Xie, 2022) reports impaired balance, the presence of depression or anxiety, and decreased function of the lower limbs as important risk factors for fear of falling in persons after a stroke. Also for people with a spinal cord injury, the fear of falling has a major impact on their level of participation and quality of life (Sing, 2021). Preventing falls and reducing fear of falling is an important part of neurological rehabilitation programs as it is known that fear of falling has a negative impact on the patient's activity level. This in turn will lead to an increased risk of falling and a negative effect on neurological recovery due to insufficiently practicing their balance while walking. Since 2019 the rehabilitation center of UZ gent offers GRAIL training. This device aims to train walking balance and gait adaptability in a virtual environment. Patients who are admitted and/or undergoing ambulatory rehabilitation at UZ Gent are given the opportunity to complete a 5-week training schedule on the GRAIL. Before and after this training intervention period, the investigators evaluate the gait pattern of these patients. After the training period, the patients also complete a questionnaire about their experience while training on the GRAIL and often also indicate that they become more confident in their own balance when walking. That is why the researchers now also want to measure this. Research questions: Do people with high confidence in their balance when walking differ from those with low confidence in their balance when walking? Does GRAIL training have a different effect on confidence in balance than traditional rehabilitation? To answer the 2nd research question, patients who follow the traditional rehabilitation (control group) also receive the same tests as the people who follow GRAIL training. Randomization (prepared in advance via a computer program) determines who will follow the GRAIL training and who will follow the traditional rehabilitation.

Spinal Cord Injury (SCI) disrupts signals between the brain and the rest of the body, this includes signals needed to control the bladder and bowels. Spinal cord stimulation (SCS) (electrical stimulation through electrodes placed on the skin over the spine) has shown potential to improve bladder function. Additionally pelvic floor muscle training (PFMT), has been shown to help control bladder overactivity and reduce incontinence in people with a SCI. This study will investigate PFMT with SCS, and its effects on restoring bladder function, and continence. We aim to recruit 25 participants. Those eligible will be patients from the London Spinal Cord Injury Centre with a supra-sacral SCI (>6 months post-injury), aged 16 years old and above.