View clinical trials related to Spinal Cord Injury.
Filter by:This trial will investigate the safety and utility of spinal cord neuromodulation to improve urinary bladder function in the context of spinal cord injury.
The purpose of this research study is to evaluate an exoskeleton device and mobility skills in the device.
The aim of this study is to understand what happens to muscle and bone in spinal cord injured males after four months of training using stand training, with body weight support (BWS), with testosterone replacement therapy (TRT), and electrical stimulation (ES). Specifically, researchers will investigate nerve, muscle, and bone changes in the lower limbs in response to stand training and ES when combined with TRT compared to i) standing alone with TRT; ii) stand training alone with placebo; iii) stand training alone and ES with placebo.
The primary objective of this study is to achieve successful walking skills using exoskeletal walking devices over the course of 36 sessions in 3 months at specific velocities and distances in people with chronic SCI who are wheelchair dependent for community mobility. The secondary objectives are to determine if this amount of exoskeletal walking is effective in improving bowel function and body composition in the same patient population. The exploratory objectives are to address additional questions concerning the retention or non-retention of the positive changes, the effects of the increased physical activity from this intervention on vagal tone, orthostatic tolerance, lipid profile, total testosterone, estradiol levels, and quality of life (QOL). A Phase III randomized clinical trial (RCT) will be performed using a crossover design and employing an exoskeletal-assisted walking intervention. The experimental arm will be compared to a usual activities (UA) arm, as the control, in 64 persons with chronic SCI (>6 month post injury) who are wheelchair-dependent for outdoor mobility in the community. The WALK arm will consist of supervised exoskeletal-assisted walking training, three sessions per week (4-6 h/week) for 36 sessions for their second 12-week period. The UA arm will consist of identification of usual activities for each participant, encouragement to continue with these activities and attention by study team members throughout the 12-week UA arm. These activities will be recorded in a weekly log. The investigators hypotheses are that 1) this exoskeletal intervention will be successful in training ambulatory skills in this patient population, 2) the exoskeletal intervention will be better than a control group in improving body composition, bowel function, metabolic parameters and quality of life in the same population.
The aim of the study is to investigate whether there is an effect of electrical stimulation on the denervated gluteus muscle (buttocks) in individuals with chronic spinal cord injury. The expected outcome is an increase in muscle volume and a better pressure distribution during sitting. The stimulation of the gluteus muscle is performed daily for 35 minutes over a period of six months. The muscle volume and the pressure distribution are measured before stimulation, three months after having started stimulation and after six months.
Ambulation would bring many physiological and psychological benefits and getting up and walking has been a dream for paraplegia patients.The reciprocating gait orthoses (RGOs) for paraplegics particularly draws research attentions because it mimics human gait pattern.But, the high energy consumption and low walking speeds caused the frequent abandonment or the low utilization of the reciprocating gait orthoses.To improve the design reducing the energy expenditure, it requires biomechanical analysis of the pathological gait such that the gait deviations and energy consuming mechanisms can be identified and remedial means can be implemented. The investigators hypotheses will include that there would exist an energy saving mechanism of human reciprocating locomotion based on the principle of conservation of mechanical energy.Secondly, kinematic and kinetic gait determinants could be derived from the energy saving mechanism. Finally, the control of knee joint coordinating with the hip joint movements would facilitate the gait progression and further reduce the energy consumption. The objective of this clinical trial is to evaluate the gait of paraplegic patients with reciprocating gait orthoses and to support the investigators research in biomechanical analysis, design and control of reciprocating gait orthoses for paraplegia patients. An experiment to study the pathological gait of paraplegia patients with an existing reciprocating gait orthosis will be carried out.
This study will evaluate the Indego® device for safety and effectiveness at allowing persons with SCI who are non-ambulatory or poorly ambulatory to stand up and walk under a variety of conditions.
Extended periods of tilt table standing have been observed to improve spasticity in individuals with spinal cord injury (SCI). The purpose of this study is to determine the effect of three sessions of whole body vibration while tilt table standing on spasticity in individuals with a complete or incomplete SCI above the neurological level of T10. Participants in this study will undergo whole body vibration while standing on a tilt table for a total of approximately 14 minutes for a total of 3 sessions on 3 separate days. Spasticity monitoring will be evaluated prior to and after the intervention with the Modified Penn Spasm Frequency Scale, an interview to obtain the individual's perception and impression of the effect of whole body vibration on the performance of activities of daily living, quality of life, pain scale, and global impression of change.
This is a observational study in which healthy found volunteers are recruited to donate 50 ml of bone marrow aspirate to enable preclinical studies to obtain proof of concept and safety of a bone marrow derived stem cell preparation named AMARCELL. The prepared AMARCELL is only for animal studies and after completion of the preclinical program, the intention of AMARCELL is to treat humans with a traumatic Spinal cord injury.
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.