View clinical trials related to Spinal Cord Injury.
Filter by:Feasibility of Home-Based Rehabilitation on Body Composition, some Anthropometric Measures and Muscular Strength after interruption 4-5 years of Spinal Cord Injury: Serial Cases Study on ISIS War Survivors in Iraq Summary Background: The war in Mosul wrecked hospitals and rehab centers, leaving a gap in rehabilitation services. This resulted in a need for alternative solutions for rehabilitation. Objectives: This study aims to create a home-based rehabilitation program (HBRP) that fits the participants' surroundings, and also detect and evaluate how effective it is in improving body composition, some anthropometric measurements, and muscle strength after a (4-5) year break in rehabilitation. Methods: This voluntary controlled trial included 18 volunteers split into three groups: 13 people with Spinal Cord Injury (SCI) their injuries time since (53.4-55) months. They joined voluntarily into Two groups, Eight in the experimental group (Exp.) and Five in the first control (1st Con.); while Five were healthy individuals in the second control (2nd Con.); all around (21.2) years old on average. The HBRP focused on muscles and whole-body joints by using the basic equipment and exercises right at the patient's homes. The program consisted of five weekly sessions with a gradually increasing achievement time of (45-120) minutes per session, participants were given rest time between exercises based on their level and severity of injury. The assessment was every three months. Results: The study found that HBRP were not significant differences in weight, BMI, some anthropometric measures and some muscle strength tests However, the HBRP had significant effects on waist/abdomen, pelvis, and left thigh anthropometric variables, with a large effect sizes and ranged between (η2= 0.84 - 0.95); and improvement percentages ranging from (IP= 2.4-16.2%), also had a large effect size on all lower extremity tests, head, and trunk, also improvement percentages were ranging (29.6-242.8%), exclude the pelvis elevating test. Also, there was a significant difference between the Exp. and 1st Con group in the Eight muscles test (P= <0.05) for the favour Exp. group. Innovatively, this study stands out by introducing an HBRP tailored for individuals with SCI after interruption sustained (4 - 5) years ago. This unique approach not only addresses the challenges posed by the interruption of previous rehabilitation efforts but also seeks to uncover the efficacy of rehabilitation in these specific circumstances. Conclusions: The study concluded that HBRP affected positively the muscles morphologically and functionally despite a stop in rehabilitation for a long period of (4-5) years for individuals with SCI.
The goal of this interventional study is to assess differences in the metabolic consumption, the cardiorespiratory effort, the cardiac autonomic adaptation, and fatigability during ADL, such as standing from a chair and walking while wearing an electrically powered exoskeleton in different modes of supports in subjects with neurological diseases with moderate to severe walking impairments.
As functional electrical stimulations has evident role in improving motor control in tenodesis function (power and precision grip) but its results are considered to be short term so addition of task oriented approach i.e. motor priming exercises could enhance the treatment effects . Priming is a mechanism that could easily be a part of a restorative occupational therapy approach, is a therapeutic method with the intent to improve function by targeting underlying neural mechanisms (neuroplasticity and motor control). This will yield the long term effects of priming augmented functional electrical stimulations to enhance the tenodesis function of patients with spinal cord injury. Their combination may produce improvement in hand functions dexterity in spinal cord injury patients.
The purpose of this study is to test a modified mirror system for female patients to use during self-catheterization.
This is a randomized, triple-blind (subjects, Investigators, and Sponsor blinded), placebo-controlled Single Ascending Dose (SAD) and Multiple Ascending Dose (MAD) study to evaluate the safety and tolerability of NVG-291 administered by subcutaneous injection daily in healthy female participants. The trial is split into three parts, starting with Part 1 (SAD), then Part 2 (MAD - post-menopausal Females), and finally Part 3 (MAD - males and premenopausal females). In Part 1 (SAD), participants receive 1 dose on 1 day only and in Parts 2 and 3, participants receive 1 dose every day for 14 days.
Gait impairment in people with acquired brain injury (ABI) and spinal cord injury (SCI) can be very heterogeneous. For this reason, STELO has been developed: a new concept of exoskeleton based on modular technology for gait assistance. It allows a personalised configuration according to the functional capacity of each patient, as the therapist can choose which robotic joints to use depending on the therapeutic goal and on the patient recovery phase. The objective is to analyse the usability of the STELO modular exoskeleton in people with ABI and SCI.
This study will investigate the relationships between: (1) physical activity (PA) and types of chronic pain (nociceptive and neuropathic), and (2) virtual reality (VR) and types of chronic pain (nociceptive and neuropathic).
Spinal cord injury is caused by any harmful process in the spinal cord, impairing its function, generating loss of muscle strength, impairing orthostatism and walking. In rehabilitation, some strategies are used to activate the muscles involved in the gait of these individuals, including the ergometric bicycle and the elliptical. Understanding the pattern of muscle activation generated by these methods is important to answer questions arising from clinical practice. Thus, we seek to verify the pattern of muscle activation of the vastus laterals, vastus medialis, gluteus medius, tibialis previous, rectus abdominis and paravertebral muscles during exercises with ellipticals and ergometric bicycle with and without electromyography biofeedback in individuals with spinal cord injury. Cross-sectional study of the type crossover. Individuals will sign the Informed Consent Form (FICF) and answer the identification form. They will be evaluated for functionality using the Functional Independence Measure (FIM), injury classification by the American Spinal Injury Association (ASIA) and muscle tone by the modified Ashworth scale. Later, they will be randomized to define the order of the devices in which they will be evaluated. Muscle activity will be verified with electromyography of the paravertebral, abdominal, vastus laterals, vastus medialis, gluteus medius and tibialis anterior unilateral muscles on the right side of individuals, comparing muscle activation during exercise cycling, elliptical and adding biofeedback in both modalities. The wash-out interval between each evaluation will be 7 days. We hypothesize that the elliptical with biofeedback will cause greater activation of the assessed muscles.
Cervicocranial flexion exercise (CCFE) and superficial neck flexor endurance training have been widely implemented in clinical practice for curing chronic neck pain. By means of CCFE, the muscle balance between deep neck flexor and superficial flexor would be optimal during neck movement. In other words, the superficial neck flexor( scalenes, SCM, and trapezius) would not overactive and the fatigue threshold might increase. Superficial neck flexor endurance training is proved to be efficient in reducing superficial cervical flexor muscle fatigue as well as increasing cervical flexion strength. Reasonably, Cervicocranial flexion exercise (CCFE) and superficial neck flexor endurance training are also beneficial to pulmonary function due to training the respiratory accessory muscle (scalens and SCM). Hence this article hypothesizes that Cervicocranial flexion exercise (CCFE) and superficial neck flexor endurance training combined with common pulmonary rehabilitation will manifest better outcomes (pulmonary function, dyspnea situation, pain and stiffness level of neck) than pulmonary rehabilitation only.
Low vitamin D is frequently seen in patients with spinal cord injury (SCI) in acute and chronic periods. Among its causes are insufficient sun exposure, limited oral intake, obesity, the effect of the drugs used on the absorption of vitamin D, kidney and liver diseases. If we consider patients with spinal cord injuries in Turkey, it is difficult to get involved in the society, low exposure to the sun, lack of necessary health controls and immobility brings extra risk factors for the low vitamin D compared to the general population. Despite Turkey Endocrinology and Metabolism Endocrine Society and the International Endocrine Association clinical practice guidelines do not provide specific recommendations about vitamin D, for individuals with spinal cord injuries. Individuals with SCI are at high risk for low vitamin D. Vitamin D levels need to be checked and replaced. Vitamin D doses, application methods and dose intervals used in Physical Therapy and Rehabilitation clinics are different. The aim of our study is to perform the necessary vitamin D replacement for individuals with SCI who have vitamin D deficiency in different dose intervals and to compare the effects of muscle strength, muscle thickness and functional independence with the control group.