Active clinical trials for "Spinal Cord Injuries"

The current study is a phase I open-label clinical trial to examine plasma levels after oral lithium treatments in 20 subjects with chronic spinal cord injury. The subjects will receive standard doses of oral lithium used in treatment of manic depression. The goal of the trial is to show feasibility and safety of maintaining plasma levels of 0.6 mmol/L to 1.2 mmol/L for six weeks in subjects with chronic spinal cord injury.

Specific Aim: to implement and evaluate a research protocol for demonstrating the efficacy of Acupuncture Therapy to improve neurological recovery after incomplete SCI compared to a control protocol. Hypothesis: acupuncture treatment results in greater neurological recovery than a control treatment after an incomplete SCI. Before conducting a larger, more definitive study, this exploratory and developmental work is focused on assessing whether blinding is possible, reproducibility of the outcome measure, determine enrollment rates and effect sizes and identify clinical resources needed to conduct a larger study.

We would like to learn if a medicine called "modified-release morphine sulfate" (Avinza) helps reduce Spinal Cord Injury (SCI)-related pain that has lasted a long time. "Modified-release" means that the medicine in the capsules is slowly released to the body, instead of being released all at once. Avinza is approved by the Food and Drug Administration for the treatment of pain, but we do not know how effective Avinza is in reducing SCI-related pain.

Objective: The objective of this research is to undertake a safety and viability study of FES-evoked stepping in individuals with paraplegia. The rationale for this objective is based upon the need to clarify whether physiological limitations, especially orthostatic intolerance, limit functional mobility outcomes. The cardiovascular, autonomic, and muscle metabolic factors governing orthostatic tolerance during skin-surface FES stepping will be investigated, since this functional task forms the basis of upright mobility and engenders strong physiological challenges upon key regulatory processes in the SCI (spinal cord injury) patient. Specific Hypotheses: i. Reduction of blood pressure will be greater during FES-evoked stepping than during passive stepping; ii. Reduction of blood pressure will be greater during FES-evoked stepping with no upper body component versus FES-stepping with an upper body component; iii. Blood pressure will be reduced even further during FES-evoked stepping following a 6-week progressive-intensity gait training intervention.

The purpose of this trial is to determine the efficacy of spinal cord stimulation to produce an effective cough in patients with spinal cord injuries.

The overall objective of this research project is to examine the clinical efficacy of lower extremity cycling with functional electrical stimulation to improve the health and fitness of children with spinal cord injuries (SCI). To achieve this goal, a controlled, randomized study will be conducted with thirty children who have sustained a spinal cord injury. The children in the study will be assigned to one of three groups: those receiving functional electrical stimulation (FES) leg cycling exercise, those receiving passive leg cycling, and a non-cycling control group receiving electrical stimulation therapy to generate muscle contractions in the lower extremity. All three groups will be balanced as to the amount of time they receive the specific therapy. All therapies, after initial assessment, will be conducted at home in order to foster changes in lifestyle that may prove to be essential for improved quality of life. The specific aims of this proposal are delineated below: Aim 1: To assess, by means of a randomized controlled study design, the ability of FES cycling to improve the cardiovascular and musculoskeletal systems of ten children with a spinal cord injury, as compared to ten children undergoing passive leg cycling exercise and ten children receiving electrical stimulation therapy alone. Aim 2: To determine, by means of a randomized controlled study design, the feasibility of using FES leg cycling exercise to provide long-term health benefits and improve the neurologic status of ten children with a spinal cord injury, as compared to ten children undergoing passive leg cycling exercise and ten children receiving electrical stimulation therapy alone.

OBJECTIVES: The objectives of this study are to test the Diaphragm Pacing Stimulation (DPS) System for treating chronic ventilatory insufficiency in persons with respiratory muscle paralysis. The hypothesis being tested in the clinical trial is that laparoscopic stimulation of the diaphragm at the motor point with intramuscular electrodes is safe and effective in providing significant ventilatory support to individuals who are otherwise dependant on a mechanical ventilator. Patients in our initial study group have all suffered from high-level spinal cord injury and were full-time dependant on positive pressure mechanical ventilation prior to inclusion.

The overall purpose of this project is to test the feasibility of a manual wheelchair propulsion program which aims to reduce the chance of development of upper limbs pain and injury.

Electrical spinal stimulation combined with activity-based rehabilitation (ABR) can improve motor and autonomic function in individuals suffering from varying degrees of paralysis. Spinal stimulation studies have included invasive implanted devices and non-invasive transcutaneous systems using different combinations of stimulation current, waveform, amplitude, duration and spinal levels targeted. Invasive and non-invasive systems have been demonstrated to permit individuals with chronic spinal cord injury (SCI), previously considered to have complete injuries on the International Standards for the Neurological Classification of Spinal Cord Injuries (ISNCSCI) scale (Classification A), to regain some degree of voluntary and autonomic function during periods of stimulation. The aim of this study is to evaluate the effects of a novel non-invasive transcutaneous electrical spinal cord stimulation system (tSCS) combined with activity-based rehabilitation in patients who have paralysis of their legs and/or arms. We will examine participants for any changes in sensory, motor or autonomic function. We will use a transcutaneous spinal cord stimulator that has been designed to deliver safe and tolerable bursts of high frequency pulsed current that minimise the capacitance efforts of the skin surface and maximise conductance of a second waveform using low frequency current to target neural structures. We aim to investigate this form of neuromodulation with a small group of individuals with chronic spinal cord injury. Our goal is to observe and describe any short term or lasting changes in function that can safely and comfortably be derived from this combination of spinal stimulation and activity-based rehabilitation. If this therapy can cause lasting improvements in sensory, motor, respiratory or autonomic function, then this may lead to a greater degree of functional independence for these individuals.

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.