View clinical trials related to Spinal Cord Injuries.
Filter by:To improve spinal cord injury (SCI) rehabilitation through stronger informal caregiving, the proposed study will modify and evaluate a telehealth Transition Assistance Program (TAP) for informal caregivers of individuals with SCI during the transition from hospital to home. The TAP was previously developed for stroke caregivers and has been found to decrease caregiver strain and depression. In the proposed study, the TAP will be modified for SCI and implemented at a state-of-the-art SCI rehabilitation facility with a very high volume of SCI treatment and with telehealth technology already in place through which to test the intervention.
Involuntary muscle activity, often called spasticity, is a common problem following spinal cord injury (SCI) that can make it hard to move. Many things can cause spasticity including: muscle stretch, movement, or it can happen for no reason, and it is often described as an uncontrolled muscle spasm or feeling of stiffness. Drugs are typically used to treat spasticity, but they often have side effects, like muscle weakness, which can add to movement problems. Rehabilitation therapies offer alternatives to drugs for treating involuntary muscle activity, and rehabilitation can also improve daily function and quality of life. These benefits may be greater when several rehabilitation therapies are used together. Walking ability can be improved with a type of therapy called "locomotor training". This type of therapy may also have the benefit of decreasing spasticity. When locomotor training (LT) is combined with electrical stimulation, the benefits of training may be increased. In this study, investigators will use a kind of stimulation called transcutaneous spinal cord stimulation ("TSS") to stimulate participants' spinal cord nerves during locomotor training.
Study design: Controlled Trial Objective: To evaluate the effectiveness of robotic-assisted training of forearm and hand functions in spinal cord injury patients Setting: Ankara Physical Medicine and Rehabilitation Training and Research Hospital, Turkey Methods: Forty patients were allocated into robotic and control groups. Both groups received conventional rehabilitation program for four weeks. Moreover, robotic group received robotic rehabilitation program tailored to the patient five times a week (each session of 30 min). Baseline data and post-intervention data was compared.
For many people with spinal cord injury (SCI), the goal of walking is a high priority. There are many approaches available to restore walking function after SCI; however, these approaches often involve extensive rehabilitation training and access to facilities, qualified staff, and advanced technology that make practicing walking at home difficult. For this reason, developing training approaches that could be easily performed in the home would be of great value. In addition, non-invasive brain stimulation has the potential to increase the effectiveness of communication between the brain and spinal cord. Combining motor skill training with brain stimulation may further enhance the restoration of function in persons with SCI. Based on these findings, the primary aim of this proof-of-concept study is to inform future intervention development. To meet this aim, we will determine if moderate-intensity, motor skill training can improve walking-related outcomes among persons with SCI and to determine if the addition of non-invasive brain stimulation will result in greater improvements in function compared to training alone.
Research indicates that increasing brain excitability might help improve hand function in people with spinal cord injury. Brain stimulation that uses electrodes placed on the surface of the scalp (also called "non-invasive brain stimulation") increases brain excitability and has the potential to make it easier for the brain and nervous system to respond to arm and hand training. The purpose of this study is to compare four different types of stimulation for increasing brain excitability to determine which types are best for helping people with tetraplegia improve their ability to use their arms and hands. To fully evaluate the value of brain stimulation on arm and hand function, the investigators will also evaluate the effect of sham (fake) stimulation. Each participant will receive a single session of each of the five types of stimulation being tested.
All patients with a significant deficiency of skin sensitivity and reduced mobility are potentially at risk of Pressure Ulcers (PUs), in particular the persons affected by Spinal Cord Injury (SCI), also due to their frequent alteration or loss of subcutaneous skin sensitivity. Pressure sores are one of the most common and fearful complications in SCI, with a severe impact on quality of life and on care health costs. They are often the cause of lengthening the time of hospitalization, slowing down clinical and rehabilitation programs and re-hospitalization. PUs, when arisen, heal slowly and, despite the protracted conservative medical therapies, sometimes they do not come to complete healing. Sometimes plastic surgery is needed, although even after it recurrence rates remain high. Further treatments have been proposed in addition to the usual medication, however they are characterized by a certain degree of invasiveness and are often conditioned by the availability of specific and sometimes expensive equipment, as well as by the presence of highly qualified personnel. In general, there is also a lack of good quality clinical trials for assessing their effectiveness and safety and they are often not decisive, especially for severe and recalcitrant ulcers. Among alternative techniques for the healing of skin ulcers in general, the adhesive elastic bandage, also known as "kinesio taping" and already recognized for the treatment of edema, hematoma and scarring, has been proposed. However, specific protocols and published studies are not available for PUs. The Montecatone Rehabilitation Institute, that hosts the largest Spinal Unit in Italy, pays great attention to the prevention and treatment of PUs in both acute and chronic patients. The rationale for the taping positioning around PUs investigated in this study is to improve lymphatic drainage and reactivation of the superficial bloodstream by increasing interstitial spaces and reducing skin and subcutaneous compression, notoriously compromised in the areas of onset of pressure sores. The total shortage in the literature and in user manuals of taping protocols for PUs supports this preliminary, exploratory, descriptive and uncontrolled pilot study with the primary aim of verifying the safety of a taping treatment for medium/severe grade PUs, "add-on" to the usual care. The choice of the ulcer sites selected (sacral and heel) has been affected by the feasibility of tape positioning.
The purpose of this study is to examine the effects of onsite and telehealth programs for individuals with spinal cord injury. The primary aim of this study is to compare the effectiveness of a blended 5-day onsite health promotion program followed by a 12-month telehealth package composed of exercise, nutrition, and mindfulness, to a 12-month telehealth-only package in individuals with spinal cord injury. The investigators hypothesize that the blended onsite and telehealth program will achieve better gains in fitness, dietary control, body composition, and pain management scores across a one-year period in comparison to the telehealth-only group. The secondary objective of this study is to examine changes in psychosocial mediators between the two groups to determine if key social cognitive theory constructs were significantly different between the two groups. The investigators hypothesize that the blended onsite and telehealth program will achieve better improvements in these outcomes compared to the telehealth only group.
Individuals with spinal cord injury (SCI) live longer than before and live to an age where metabolic disorders become highly prevalent. Due to loss of mobility and severe skeletal muscle atrophy, obesity, glucose intolerance, and peripheral insulin resistance develop soon after the onset of SCI. These abnormalities are thought to contribute to the increased diabetes disease risk and accelerated aging process in the SCI population. As a result of these trends, overall burden of complications, economic impact and reduced quality of life are increasing. Until there are effective treatments for SCI, it is imperative to develop effective interventions to mitigate metabolic disorders that develop in individuals with SCI. The proposed research project examines the impact of early utilization of a novel neuromuscular electrical stimulation (NMES) program on skeletal muscle metabolism and overall metabolic health in individuals with sub-acute, complete SCI.
Of the more than 250,000 Americans with severe spinal cord injury (SCI), 42,000 are military veterans. The Department of Veterans Affairs is the largest single network of SCI care providers in the nation. Patients with SCI experience functional disabilities as well as chronic pain. Studies show that individuals with SCI report pain refractory to conventional treatments. Civilian and veteran patients with SCI have associated pain with impairments in physical and cognitive function, sleep, employment, social relationships, community re-integration and quality of life. In a survey of individuals with SCI, those who used acupuncture experienced a reduction of pain symptoms lasting hours after treatment, with 27.3% reporting pain relief for days. A pilot study on the use of auricular acupuncture for neuropathic pain associated with SCI showed a greater reduction of pain as measured by the Numerical Rating Scale (NRS). A recent review of randomized controlled trials regarding the use of acupuncture in SCI found that only two of sixteen included studies were of high quality. There was limited evidence for the use of acupuncture in motor functional recovery, bladder function recovery, and in pain control related to SCI. Further high quality studies are needed. This proposal is for a phase II randomized clinical trial.
Project WOWii examines how useful and effective an online format is for helping people with SCI get more exercise over 4 months. Study participants will meet over Skype weekly for 16 weeks and work through weekly online modules to start and stick with an accessible and individualized exercise program. Participants will be compensated for their time to attend fitness testing and complete surveys before and just after the 16-week program.