View clinical trials related to Spinal Cord Injuries.
Filter by:This study will use evaluate a hand therapy device training isolated finger control with engaging video gaming technology to facilitate hand and digit recovery in patients with acute stroke and cervical spinal cord injury. This study will randomize patients to either standard rehabilitation care with added study-related motor training or standard rehabilitation care alone.
Spinal cord injury (SCI), induced by damage to the spinal cord, can cause life-altering levels of disability including the development of chronic pain. Central Neuropathic Pain (CNP) typically develops within months after injury in 40-50% of SCI patients, affecting everyday activity, sleep and mood. There is no cure for CNP, it can be very difficult to treat and is often refractory to any pharmacological treatments. In a previous study (study no. 14/WS/1029) the principle investigators showed that the likelihood of CNP developing can be predicted by defining characteristics of brain waves that are related to pain. We will use electroencephalograph (EEG) to measure brain activity in people early after SCI, before they develop pain, knowing that about half will develop pain within a year. We aim to recruit 80 participants, aged 18-80; 40 with subacute spinal injury (level C3-T12) and no symptoms of CNP; 20 with symptoms of CNP and 20 able-bodied participants. Completeness of injury is irrelevant. Patients will be recruited by clinical consultants within national spinal units in Glasgow and Stoke Mandeville. Patients will undergo two EEG recording sessions in which they will imagine movements while we record EEG. Sessions will also involve basic sensory testing and completion of questionnaires. Able-bodied participants will be recruited by the Philosophy Doctor (PhD) candidate at the University of Glasgow and undergo only one EEG session (identical to SCI patients). The primary aim of this study is to use early EEG markers of CNP to optimise and validate an existing computer program based on machine learning to enable more accurate prediction of pain in newly injured patients with the hope of aiding future treatments. Secondary aims include characterising EEG features which might describe different phases in patients' development of CNP and exploring possible differences between pain at/below the level of SCI based on EEG markers.
This is a randomized study to determine the effects of monthly romosozumab for one year or one-time zoledronic acid on bone mineral density (BMD) and biochemical markers of bone formation and resorption, in patients with spinal cord injury (SCI) and low BMD.
Persons with spinal cord injury (SCI) face many challenges as they transition from inpatient care to outpatients and on into the community. With shorter lengths of stay and barriers to coordinating care between SCI specialists and community service providers, the development of self-management skills are an integral part in the effective community reintegration, proper healthcare utilization, management of secondary complications as well as independence and community participation. Based on the best available behaviour change theory, this initiative utilizes an online e-health Platform as a key component of a novel care service delivery model to enhance the development of effective self-management skills. This Platform will be provided to participants receiving care in the inpatient or outpatient programs at Parkwood Institute with the potential to continue its use in the community. Participants will complete surveys prior to, during and following use of the e-health solution. These will assess feasibility, usability, usage analytics and several patient-reported outcomes including self-management-related outcomes, healthcare utilization and prevalence of secondary complications. This platform is especially relevant to our current state of dealing with COVID-19 and the challenges it presents for clinicians and their patients in that it will provide an online solution during a time of physical isolation as well as providing access to tools and resources as people transition back to their home communities following specialized rehabilitation services.
To identify means to improve exercise performance in participants with tetraplegia.
The central objective of this study is to validate new algorithms that coordinate between functional electrical stimulation (FES) and the exoskeleton during sitting-to-standing, walking, and standing-to-sitting movements. The secondary objective is to optimize the algorithms as well as assess their ability to reduce FES-induced muscle fatigue by using ultrasound imaging as a sensing modality. This study will include persons with no disabilities and persons with Spinal Cord Injury (SCI). A research set-up comprising of a lower-limb exoskeleton and FES system will be used to achieve sitting-to-standing, walking, and standing-to-sitting movements. Ultrasound Imaging probes may be used to record muscle activity of the stimulated muscles. The signals derived from ultrasound will be used to optimize FES in order to reduce muscle fatigue as well as assess muscle fatigue.
In part 1 of the study, fourteen able-bodied individuals will undergo maximal, voluntary contraction (MVC) test of the lower limbs in two dynamometers. One being a low-cost dynamometer (S2P-CD), and the other being a gold standard dynamometer (HUMAC). Thereby the investigators will be able to assess the validity of the S2P-CD. In part 2 of the study, eighteen persons with spinal cord injury will undergo MVC twice in the S2P-CD. Thereby the investigators will be able to assess the reliability of the measurements of the S2P-CD.
Neurogenic paraosteoarthropathies are peri-articular bone formations that may occur as a result of central neurological injury. Their occurrence limits reeducation and recovery capacities. Neurogenic paraosteoarthropathies sometimes cause complications (pain, joint stiffness, vascular and nerve compression, pressure sores) in patients already suffering from severe neurological sequelae affecting functional prognosis. A lot of clinical research work has been carried out within Dr Salga team. Subsequently, a collaboration was born with fundamental research teams (Pr Levesque, Pr Le Bousse Kerdilès, Pr Banzet, Pr Genêt) allowing translational work between humans and animals. The clinical application of recent research findings now makes it possible to launch the very first prospective study on neurogenic paraosteoarthropathies.
During typical daily activity, people with established spinal cord injury perform significantly fewer pressure-relief maneuvers than the recommended frequency while overestimating their adherence on recall surveys of pressure relief activity. The rate of pressure ulcer recurrence in individuals with a prior ulcer is 44% in those with surgical repair and as high as 75% in those with non-surgical healing indicating that increased attention to pressure relief is critical for these individuals.This study will evaluate the efficacy of a wheelchair sensor and app-based biofeedback for establishing healthy self-management behaviors (pressure relief maneuvers and daily physical activity). Investigators will enroll 50 participants with paraplegia from spinal cord injury who use a manual wheelchair for mobility and have a history of pressure ulcer that has healed or is six months post-surgical repair. Participants will be randomized into one of two groups: an intervention group that will receive an education intervention and the proposed technology to be used for one year, and a control group that will receive only the education intervention. The primary outcome will be pressure ulcer occurrence over one year. Investigators hypothesize that participants receiving the intervention of biofeedback on their pressure relief activity will have a lower recurrence of pressure ulcer than the education only control group. Secondary outcomes include depressive symptoms, self-efficacy, participation and satisfaction with life. Investigators hypothesize that increasing physical activity will reduce depressive symptoms and improve participation and satisfaction with life.
This initiative represents development and pilot testing of a circuit training exercise program for persons with spinal cord injury (SCI) to be implemented within a rehabilitation centre. The program will integrate members of the community who are > 18 months post-injury with those currently participating in SCI rehabilitation as inpatient.