Evaluate the Incidence of Sacral and Heel Pressure Ulcers During Acute Care After SCI
Spinal Cord InjuriesThis study evaluates the effect of the application of a five-layer foam dressing on the sacrum as well as a boot applied on the heels as preventive measures in the development of pressure ulcers in patients hospitalized with spinal cord injury. In order to study their effectiveness in preventing wounds, we will compare the number of wounds that developed on the sacrum and heels in participants with and without preventive treatments. The study will also assess the severity of pressure ulcers in participants with and without preventive treatment if they do develop. Half of the participants will receive the usual standard care for the prevention of pressure ulcers without dressing and boot, while the other half, in additon to standard of care, will also have a preventive dressing on the sacrum as well as Heelmedix boot applied alternately on each foot.
Reciprocal Inhibition Versus Reciprocal Facilitation In Spinal Cord Injury Patients
Spinal Cord InjuriesReciprocal inhibition is a medulla spinalis control mechanism that facilitates motor activities in healthy people. As the agonist muscle contracts, the antagonist muscle is inhibited so that the agonist action can take place properly. In the literature, there are studies showing that in patients with upper motor neuron lesions, this reverses, and reciprocal facilitation occurs instead of inhibition. However, there is no clear situation in this regard, there is a need for more methodologically sound studies. Our aim in this study is to investigate the presence of reciprocal facilitation in patients with spinal cord lesions (SCL).
Association Between Types of Pain and Motor Activities Physical Activity
Spinal Cord InjuryChronic PainThis 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).
Comparison of Muscle Activity in Exercise Bike and Elliptical Trainer in Individuals With Spinal...
Spinal Cord InjurySpinal 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.
A Patient-centered Approach to Successful Community Transition After Catastrophic Injury
Spinal Cord InjuryPeer GroupShepherd Center is bringing a more patient-centered focus to educational, peer-support, and technology resources offered to patients with spinal cord injury and their families and is evaluating these changes. Approximately 740 patients have provided information about healthcare utilization following inpatient rehabilitation. This information will help Shepherd Center staff follow utilization trends and plan programs targeted at the high-use areas.
Eccentric Motor Control After SCI
Spinal Cord InjuryThis project will characterize lower extremity eccentric muscle function among individuals who have undergone locomotor training after spinal cord injury and will evaluate the effect of downhill training at slow to moderate speeds - targeted to rehabilitation eccentric function of the hip and knee.
Follow up Study of Diaphragm Pacing for Patients With High Tetraplegia
TetraplegiaSpinal Cord InjuryThis is an observational longitudinal study designed to identify and describe long term outcomes for patients with high tetraplegia who use a Diaphragmatic Pacing System (DPS). As this is not a randomized or experimental study, no specific hypotheses are proposed. The data collected will enable us to answer the following research questions: What are the patterns of long-term DPS use (hours per day using DPS, changes in DPS stimulus parameters, abandonment of DPS and related reasons). What mechanical problems have DPS users encountered (system failure, repairs needed)? What are the frequency of and reasons for rehospitalization following DPS implant? What levels of care are needed at home to manage the DPS? How do DPS users feel about the system (satisfaction, comfort, vocalization, taste, swallowing)?
Prognostic Value of Biochemical Markers in Cerebrospinal Fluid for Functional Outcome of Spinal...
Spinal Cord InjuriesThe project is aimed to develop predictive indices of spinal cord injury severity through the analysis of cerebrospinal fluid of patient collected during acute injury.
Body Temperature in Persons With Tetraplegia When Exposed to Heat
Spinal Cord InjuryThe deleterious effects of hyperthermia are well appreciated in able-bodied persons. However, the consequences of impaired regulation of normal body temperature on cognitive performance of persons with tetraplegia is not known. This study will provide the preliminary findings necessary for future work to design and explore physical and medical interventions to improve temperature regulation in those with tetraplegia with the goal of improved clinical care, health, and quality of life. The proposed study consists of 1 visit during which 20 subjects (10 with tetraplegia, 10 controls) will be exposed to 81°F for 40 minutes and then 95° F for up to 2 hours. Physiological as well as psychological processes will be monitored in all subjects during the study for safety and to determine differences in responses to exposure to hot ambient temperatures
Transcutaneous Electrical Spinal Cord Stimulation for Lower Limbs
Spinal Cord InjuryThis study is to determine if non-invasive electrical stimulation of the spinal cord can be used to: 1) assess spared function following a spinal cord injury; and 2) be use for rehabilitation.