View clinical trials related to Spinal Cord Injury.
Filter by:Many people with spinal cord injury are no longer able to walk and must use wheelchairs for mobility. These individuals experience greater rates of depression and lower quality of life. Many of these individuals express a strong desire to walk again, and report many psychosocial benefits to being eye to eye with peers in social interactions. Additionally, wheelchairs allow only limited community access, creating an additional obstacle to seeking out meaningful social roles in the community. Currently, there is new technology called robotic exoskeletons that would allow people with spinal cord injury to walk. These robotic exoskeletons also allow for curb, ramp, and stair negotiation, which are critical to community access. Current research has examined training with robotic exoskeletons indoors over level surfaces in clinical settings. This study will examine the potential for everyday use, including ramps, stairs, curbs and indoor and outdoor use.
Studies have shown that individuals who have suffered a spinal cord injury are at an increased risk of Vitamin D deficiency compared to able-bodied individuals. It has recently been shown that Vitamin D deficiency is linked to a large number of diseases and conditions, including chronic lung disease, vascular problems, and insulin resistance. If this common nutritional deficiency is proven to be the cause of some of these diseases and conditions in persons with SCI, then it may easily be remedied with a cheap and effective therapeutic approach: vitamin D replacement therapy. Because of the high prevalence of vitamin D deficiency in persons with SCI, this therapy alone or in combination with other treatment options will be expected to significantly improve overall well being in the SCI population, decrease hospitalization rate, and the lower the financial burden of care.
stroke, spinal cord injury, rehabilitation, home therapy, upper limb, arm, virtual reality, interia sensor, - Trial with medical device
Functional recovery following SCI in adults is limited. Improvements in the quality of life of affected persons are associated with the recovery of functions that allow independent living, for example use of the arms and hands. Rehabilitative training has been shown to aid upper limb recovery. However, there are likely vast differences in the amount of time individuals spend actively training (during rehabilitation sessions in the clinic) and what they do in their non-training time (during daily life). The activity, or lack of, during the non-training period could interfere (positively or negatively), with the specific training in the rehabilitation session. However, there is little information available about this. Inertial measurement units are increasingly being used in human movement and rehabilitation research. The use of such technology is a promising approach to rapidly and discreetly collect objective movement information. The investigators plan to introduce a novel, long-term, activity sensor into clinical SCI rehabilitation. The investigators use this sensor to precisely measure movement of the upper limb over extended periods of time. Upper limb activity recordings from these sensors allow us to detail the amount and duration of activity during specific periods of upper limb rehabilitation and recovery. The investigators aim is to measure upper limb activity. The investigators aim to track changes in the activity of the upper limb during recovery and rehabilitation in patients with cervical SCI as well as collect reference values of upper limb activity in chronic sufferers. The recordings from this activity sensor will provide a more detailed understanding of how everyday upper limb activity contributes to functional recovery.
The Ibuprofen - Spinal Cord Injury (SCI) - Safety trial investigates tolerability and feasibility of "small molecule" (Ibuprofen) mediated Rho-inhibition as putative neuroprotective, plasticity-enhancing and neurorestaurative intervention. The primary safety analysis is based on the incidence of severe gastrointestinal bleedings. In addition, the feasibility of recruitment procedure, and oral administration of the compound within the multidisciplinary setting of acute intensive medical care will be explored. Furthermore, the pharmacokinetics of Ibuprofen under the condition of acute motor complete SCI will be investigated. Secondary endpoints will permit preliminary statements about effects on neuropathic pain, spasticity, and neurological function.
The aim is to investigate the influence of caffeine on heart rate variability and on performance in a 3 min exercise test in different population groups (able-bodied, paraplegic and tetraplegic subjects). In general, the investigators are interested in the differences between the heart rate variability before and after caffeine supplementation and if the subjects exercise performance is enhanced using this type of supplementation. Another objective is to see whether there are differences between able-bodied and disabled subjects. Tetraplegic subjects showed in some previous studies no Low-Frequency-component (LF) for heart rate variability and no increase in catecholamines after the ingestion of caffeine. Therefore the investigators think, that tetraplegic subjects won`t show any ergogenic effect in exercise performance after the intake of caffeine. On the other hand, paraplegic subjects should show similar differences of heart rate variability after the ingestion of caffeine as able-bodied subjects. Paraplegic subjects should benefit from caffeine supplementation in an increase in exercise performance.
In this study the following hypotheses will be tested: Electrical stimulation of the gluteal muscle (buttocks) leads to 1. an increase in the thickness of the gluteal muscle 2. a decrease in the thickness of the fat of the buttock area 3. a change in the distribution of the middle and maximal seating pressure to a more consistent pressure 4. an increase in well-being of the patients.
The purpose of this study was to evaluate the potential reorganization in the sensorimotor cortex in spinal cord injury (SCI) patients after Body Weight Supported Treadmill Training (BWSTT) associated with conventional motor rehabilitation. The investigators hypothesized that training with weight bearing associated with conventional motor rehabilitation will be able to reorganize the brain.
The aim of this study will be to evaluate the safety and the efficacy of a new robotic exoskeleton device in subjects with Spinal Cord Injury (SCI) and in subjects with other neurological disease with an impairment of lower limbs.
This is a multicenter, randomized, double-blind, placebo-controlled Phase IIb/III study designed to evaluate the efficacy and safety of Cethrin as a treatment for acute cervical spinal cord injury. During the trial, high and low doses of Cethrin will be compared with placebo.