View clinical trials related to Spinal Cord Injury.
Filter by:Evidences showed that patients suffering from spinal cord injury (SCI) have poor mobility and higher chance to develop cardiopulmonary diseases, which leads to poor quality of life and shorter life expectancy. Different modalities were developed aiming at mobility restoration in SCI patients and robotic assisted body weight supported treadmill training is one of the latest technique in recent years. Yet there are scarce studies to investigate its effectiveness. The purpose of this study is to investigate the effectiveness of robotic-assisted body weight supported treadmill training on mobility and cardiopulmonary function of patients suffering from SCI by a randomized controlled trial. 80 patients suffering from incomplete SCI will be recruited for an 8-week training program. They will be randomized into either robotic assisted body weight supported treadmill training group or passive lower limb mobilization training group. The training effects will be measured by Walking Index for Spinal Cord Injury version II, lower extremity motor score, lower limb Modified Ashworth Scale, robotic gait system, gait analysis and gas analysis under sub maximal exercise stress test. Through the study, we intent to find the effectiveness of robotic-assisted body weight support treadmill training on walking and cardiopulmonary recovery with patients suffering from incomplete spinal cord injury. The hypothesis of the study is: Compared to the control group, robotic-assisted body weight supported treadmill training leads to a greater improvement in walking ability and cardiopulmonary functioning.
As the spinal cord injured population ages, these individuals are being exposed to an increased prevalence of age-associated diseases, which coupled with the secondary complications of the injury may contribute to the reduced life expectancies. Decentralized autonomic regulation in persons with SCI results in a multitude of cardiovascular changes, which may contribute to accelerated aging. Adverse cardiovascular changes may have deleterious effects on cerebral blood flow dynamics and an increase in cerebral vascular resistance index in individuals with SCI during cognitive testing. Deficits in memory and processing speed in individuals with SCI may relate to cardiovascular and cerebrovascular dysfunction. Identifying the associations between healthy aging versus premature or accelerated aging in organ system function in the SCI population is an important first step towards prevention and amelioration of these changes. Therefore the study objectives are to compare, among individuals with SCI, age-matched non-SCI and older non-SCI individuals arterial stiffness and cerebral vascular resistance index; memory, processing speed, and executive function; and volume of white matter hyperintensities. 60 individuals with SCI, 30 age-matched non-SCI controls, and 20 older non-SCI controls will be recruited for this study. All potential subjects will undergo a two-part screening process which consists of an initial screening via telephone and a detailed, in-person screening. Eligible subjects will be invited to participate in a 4 hour laboratory visit during which their arterial stiffness, blood pressure, heart rate, respiration rate and, blood flow to the brain will be monitored at rest and during a comprehensive series of cognitive tests. A subset of the participants will be asked to take part in an MRI brain imaging session: 40 persons with SCI, 10 age-matched non-SCI and 10 older non-SCI. Eligible subjects will be asked to participate in a 1 hour MRI/functional magnetic resonance imaging(fMRI) session. We hypothesize that arterial stiffness and cerebral vascular resistance index will be increased in the SCI group compared to the age-matched non-SCI but will be comparable to the older non-SCI groups. In addition, we hypothesize that the prevalence of mild to moderate cognitive impairments in memory, processing speed, and executive function will be increased in the SCI individuals compared to the age-matched non-SCI but will be comparable to the older non-SCI individuals.
Sublesional bone loss after acute spinal cord injury (SCI) is sudden, progressive, and dramatic. After depletion of bone mass and the loss of architectural integrity, it may be difficult, if even possible, to restore skeletal mass and strength. Denosumab is a relative new, highly potent anti-resorptive agent that has proven efficacy in postmenopausal osteoporosis to improve bone mass and in solid tumor patients to prevent a skeletal-related event to a greater extent than that with bisphosphonate administration. In persons with complete motor lesions, bisphosphonates have not been effective at reducing bone loss at the knee, the site of greatest relevance because of its increased risk of fracture. Anti-RANKL therapy appears to be more potent than bisphosphonates in animal models of bone loss due to immobilization, suggesting that treatment with denosumab may prove to be an efficacious therapy for persons with acute SCI to preserve bone mass and strength.
In this study, an FDA-cleared device and type of treatment called "AMES," which stands for Assisted Movement with Enhanced Sensation, will be used to determine whether sensation in the upper limb of individuals with incomplete spinal cord injuries, acquired brain injury, or stroke improves along with movement through treatment. We hypothesize that measureable improvement in the sensation of the upper limb will precede improvement in functional movement.
The study investigates the effect of using transcranial direct current stimulation (tDCS) and skilled stepping training versus skilled stepping training with sham-tDCS in improving ankle and leg motor control in persons with ambulatory persons with spinal cord injury. Hypotheses H1: Participants will display greater improvement in stepping function following tDCS combined with training compared to sham-tDCS and training. H2: Participants will display greater gains in cortical excitability, as evidenced by lower cortico-motor threshold (MT) associated with the TA muscles following tDCS and training compared to following sham stimulation and training. H3: Participants in the tDCS+training group will show greater increases walking speed in a timed 10 meter walking trial. H4: Participants in the tDCS+training group will show be able to perform a greater number of toe-taps test.
The purpose of this study is to examine the usefulness of the Grief Recovery Method in assisting persons with spinal cord injuries to achieve as complete a recovery as possible, thereby allowing for fuller participation in life.
This study is to determine if non-invasive electrical stimulation of the spinal cord can be used to: 1) assess spared function following a spinal cord injury; and 2) be use for rehabilitation.
In this study, 10 volunteer participants with chronic spinal cord injury will undergo a 10-week training schedule for ambulation with the ReWalk™ device. The ReWalk™ consists of a lightweight brace-support suit containing motors at the hip and knee joints, rechargeable batteries and a computerized control system carried in a backpack. ReWalk™ users control their ambulation through subtle changes in centre of gravity and upper-body movements. Before, during and after training sessions the volunteers will perform standardised assessments and complete questionnaires to assess the functional and psychological effects of the exoskeleton. Functional outcomes primarily focus on ambulation outcomes and psychological outcomes primarily focus on predisposition and perceptions of disability. The outcomes of this pilot study will assist the investigators in the preparations of randomised controlled trail for assessing the efficacy of the ReWalk™ device in a neurorehabilitation setting.
As technologies are advancing quickly in the healthcare setting, new solutions have become available helping disable people to enhance their ability to communicate. One of these advances is the introduction of the 'eye gaze system'. Through processing eye movements, this device allows a person to write, speak, use the Internet and even control systems in the home or office. In the currently proposed study we aim to evaluate the psychological and functional effects of using the Tobii™ Eyegaze System by inpatients with tetraplegia who are unable to use arms and legs and sometimes are not able to talk because of an impaired respiratory function. Volunteering inpatients will be recruited at the National Spinal Injuries Centre. Volunteers will be instructed and trained to use the Tobii™ Eyegaze System. The number of sessions required to successfully master the device depends on the learning curve of the patient. The progress will be documented accordingly. After successful completion of the training and supervised use, the inpatients will be offered the Tobii™ Eyegaze System for unsupervised use, 4 hours a week, for the following 2 months. It is hypothesised that using the Tobii™ Eyegaze System by inpatients with tetraplegia results in improved disability perception and independence scores. For the current feasibility study 12 participants will be recruited and assessed for 'Appraisal of Disability', 'Mood', 'Assistive Technology perception' and 'eyeskills' to instruct the computer system. Positive study outcomes will encourage future studies of the role of the Tobii™ Eyegaze System in both a rehabilitation and home environment.
Introduction: It is known that people with spinal cord injury (SCI) bear a considerably increased risk of developing pressure ulcer, whereby frictional forces and shear forces are recognized as risk factors. It was the aim of the study to examine the effects of a specially developed low-friction hospital bed sheet on skin physiology as well as it's acceptance by patients with SCI. Method: Prospective, randomised crossover study. Patients with a subacute spinal cord injury will be recruited. Each patient spends five consecutive nights on the new, respectively, conventional bed sheet. After the five nights, patients are asked to complete a linear questionnaire (VAS) concerning well-being, odour, perspiration and wrinkling. In addition, the patients are examined daily while still fasting, for skin redness, skin moisture, skin elasticity and skin blood circulation in the parasacral region.