View clinical trials related to Spinal Cord Injuries.
Filter by:Retrospective study, which analyzed 100 medical histories of patients who were admitted o the Neurological Rehabilitation Ward of the Rehabilitation Clinic in the Orthopedic-Rehabilitation Hospital in Poznan in years 2010-2019.
The purpose of this research study is to test the effect of early exoskeletal-assisted walking (EAW) training (combined into regular acute inpatient rehabilitation (AIR)) on improving functional recovery and reducing pain and inflammation. Powered exoskeletons are a technology that offer standing and walking for certain persons with spinal cord injury (SCI) who meet the using indication of the device and have been used in the chronic SCI population with positive benefits in ability to move, daily function (such as bathing and dressing), body composition (such as lean and fat tissue mass), and quality of life (QOL). Despite the potential for EAW to promote functional recovery and reduce secondary medical complications (such as urinary tract infections and pain), no reports exist on the use of exoskeletons in AIR.
The purpose of this pilot study is to explore whether dried plum (prunes) added to the diet is effective in reducing or reversing bone loss following spinal cord injury (SCI). The investigators will look for changes in bone mineral density as well as evidence in the blood of markers of bone activity. The first part of the study is to check whether participants with SCI can and will eat the required amount of dried plums (prunes) on a daily basis. The second part of the study is to follow participants over one year and look for changes in bone mass and blood markers.
Spinal cord injury (SCI), causes loss of supra-spinal control of the sympathetic nervous system and in some cases loss of sensation. As a result, people with SCI have impaired thermoregulatory system and the consequence of this thermoregulatory dysfunction, is that they cannot respond to the environmental changes. All the above lead to dysregulation in vasomotor tone, skeletal muscle shivering and sweating dysfunction. It is well known that skin plays an important role in regulating body temperature and regulates interactions between the environment and human body. A previous study in people with incomplete SCI showed that there are no differences in core temperature between patients with different level of mobility and sensation and different level of lesion, but there are significant differences in skin temperature. As mentioned above people with SCI have an impaired thermoregulatory capacity due to sudomotor and vasomotor dysfunction and that leads to greater thermal strain during rest and exercise when they expose to hot conditions. A previous study that performed exercise in people with SCI, highlights the fact that because of the impaired evaporative heat loss during exercise in hot conditions, they are in great risk. Because of this risk they propose different cooling strategies that promote evaporation such as fans and water spraying. It is therefore important to observe the thermoregulatory function (vasomotion and sudomotor) in people with SCI when they are exposed to different environments (cold, neutral and warm).
This study will evaluate the ExoAtlet II exoskeleton for safety and effectiveness of providing persons with a spinal cord injury (SCI) who are non-ambulatory or have limited ambulatory function, to stand up and ambulate under a variety of conditions.
To analyze the present situation and influencing factors of gratitude level and quality of life of patients with spinal cord injury, and to explore the methods of Thanksgiving intervention for patients with spinal cord injury so as to provide scientific basis for improving the quality of life of patients with spinal cord injury. Investigation and research design and experimental research design
There is evidence that human umbilical cord blood-derived mesenchymal stem cells (hUCB-MSCs) can differentiate into oligodendrocytes and neurons, and improve the recovery of nerve function, which strongly suggests the feasibility and effectiveness of hUCB-MSCs as an intervention treatment for spinal cord injury. At present, there are only a few clinical centers in which hUCB-MSCs transplantation for treatment of chronic spinal cord injury has been performed and a certain degree of efficacy has been achieved. However, this has not been supported by systematic standardized randomized controlled trials. Therefore, the investigators design a prospective, randomized, open-label, parallel, controlled trial to evaluate the efficacy of human umbilical cord-derived mesenchymal stem cells (hUC-MSCs)/hUCB-MSCs to treat spinal cord injury. The primary objective of this study was to investigate whether hUC-MSCs)/hUCB-MSCs transplantation can improve the locomotor function of patients with spinal cord injury. The secondary objectives were to investigate whether hUC-MSCs)/hUCB-MSCs transplantation can improve the muscle tension of patients with spinal cord injury and investigate the complications and safety of hUC-MSCs)/hUCB-MSCs transplantation.
The SCIentinel-prolong study systematically analyzes humoral autoantibody responses and thier interaction with post-spinal cord injury (SCI) immune-deficiency and infections as well as their association with the clinical course of rehabilitation. Therefore, molecular and immunological tests in blood and cerebrospinal fluid specimen are combined with clinical outcomes ranging from neurological function, neuropathic pain and spasticity to walking tests and measures of independence in daily living within the first year after SCI. Including a control group with participants suffering from vertebral fractures without SCI allows to differentiate between neurological and general injury and treatment effects.
This study examines safety and feasibility of a study protocol using a combination of functional electrical legcycling with voluntary armwork (hybrid training) as either skiergometer or armcycling in high intensity intervals for persons with spinal cord injury paraplegia.
The purpose of this study is to help understand how training breathing muscles will impact balance, blood pressure, and quality of life of participants with spinal cord injury.