Active clinical trials for "Spinal Cord Injuries"

The purpose of this study is to evaluate the safety of cross sequential escalating doses of AST-OPC1 administered among 5 cohorts at a single time-point between 21 and 42 days post injury, inclusively, to subjects with subacute cervical spinal cord injuries (SCI).

Following a complete spinal cord injury (SCI), individuals experience progressive bone loss, especially in the legs, with up to 70% of persons with SCI sustaining a fracture at some point during their lifetime. Fractures following SCI are costly to treat and more than half of patients experience a medical complication, requiring extended hospitalization, resulting in a substantial impact on their quality of life. To reduce the incidence of fractures, more effective rehabilitation strategies to prevent bone loss are needed. The goal of this research is to determine if bone health can be preserved using an indoor rowing exercise program in which the leg muscles are electrically stimulated using several, small surface electrode pads that are placed on the skin on the front and back thigh muscles. An encouraging case study has recently shown remarkable bone preservation in one individual with SCI who participated in an electrical stimulation rowing program, however, whether other individuals with SCI can achieve the same benefit is currently unknown.

In subjects with acute SCI: To compare the effects of parenteral zoledronic acid therapy on preservation of regional and total skeletal mass (DXA). Hypothesis: Zoledronic acid will dramatically diminish bone loss in persons with acute SCI, as evidenced by serial densitometry determinations (DXA).

Spinal cord Injury (SCI) is a condition commonly associated with a state of chronic low-grade inflammation due to a variety of factors such heightened risk for infection and development of metabolic disorders. Many disorders which have been demonstrated to have an inflammatory basis have also been found to be at much higher prevalence following SCI. Such conditions include, but are not limited to, depression, cognitive impairment, neuropathic pain, and somatic/autonomic nerve function. The fact that such disorders have an inflammatory basis provides a unique opportunity to treat them with intervention strategies which target the immune system. Natural anti-inflammatory interventions including a diet consisting of foods and supplements with anti-inflammatory properties may be an effective option for treating inflammation in this population. As this treatment strategy will target the inflammatory basis of many disorders it would be expected to lead to a reduction in pro-inflammatory mediators thereby leading to more sustainable long-term immune improvements regarding enzyme function and protein balances. Despite this, surprisingly little research has focused on the use of anti-inflammatory foods for the treatment of chronic inflammatory conditions, and effects specific to SCI have been almost completely neglected. As such, the current study will focus on the daily intake of natural supplements with anti-inflammatory properties over a 3 month intervention and the effects on inflammation and associated disorders will be assessed. It is hypothesized that the supplementation will result in positive alterations in enzyme regulation and protein balances resulting in improvements in each of the outcome measures of interest.

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.

Significance: The long term objective of this study is to improve physical therapy and fitness programs in people with spinal cord injury. The results of the study will demonstrate the importance of matching blood flow to a muscle with exercise of that same muscle. Scientific Objective: The objective of the study is to measure how the body regulates bloodflow to a muscle during exercise. We intend to study these effects by triggering blood flow changes during movement, and measuring bloodflow changes during exercise in people with spinal cord injury. We will also look at the long term effects of different exercise programs on bloodflow during exercise. Study Populations: This study will involve people with partial spinal cord injury and age and sex matched controls without injury. Specific Aims: Aim 1 will be to measure bloodflow during exercise of the legs (below the injury). This aim will examine the control of bloodflow and muscle contractions and how it changes after spinal cord injury. Aim 2 will then look at changes in bloodflow during exercise after training. Three different eight week exercise training programs will be tested including 1) upper body ergometry, 2) treadmill training with exertion level matched to the upper body ergometry and 3) treadmill training with heart rate matched to an initial test of upper body ergometry.

The purpose of this study is to analyze the safety and efficacy of mesenchymal stem cell transplantation through percutaneous injection in patients with chronic spinal cord injury.

This study is to evaluate the performance attributes and user progression of participants with motor complete and incomplete spinal cord injury (SCI) while utilizing the Ekso robotic exoskeleton in an eight week over ground, locomotor program. We hypothesize an improvement in progression and overall health while using Ekso.

The purpose of this study is to assess the safety of autologous human Schwann cells (ahSC) transplantation in subjects with subacute SCI. For humans with subacute SCI, we hypothesize that axons might show improved function if myelin repair is induced with the implantation of ahSC. In addition spinal cord cavitation may be reduced, and neural sprouting and plasticity may be enhanced via neurotrophic effects.

The goal of the project is to study whether multidisciplinary follow- up performed via telemedicine to the patient in his or her own home, will improve the healthcare services offered to a particular group of patients. The hypotheses are that this could increase the treatment options, increase knowledge translation, give significant socioeconomic benefits, and allow greater accessibility to specialized healthcare services, as well as increase the involvement of patients and those working in primary healthcare.