Spasticity is the uncontrolled tightening or contracting of the muscles that is common in individuals with spinal cord injuries. About 65%–78% of the SCI population have some amount of spasticity, and it is more common in cervical (neck) than thoracic (chest) and lumbar (lower back) injuries.
What is the study about?
This study’s aim was to describe the relationship between spasticity and perceived quality of life as well as the perceived value of spasticity management approaches for individuals with spinal cord injury (SCI).
What did the study find?
This study found that spasms most often occurred in response to ...
Objective: To evaluate the psychometric properties of the Spinal Cord Injury Spasticity Evaluation Tool (SCI-SET) and Patient-Reported Impact of Spasticity Measure (PRISM) using Rasch analysis to optimize their validity and efficiency.
Design: Rasch analysis of the SCI-SET and PRISM represents a secondary analysis of data collected as part of a collaborative ...
What is the study about?
This study aims to evaluate how valid (reliable) and efficient two measures are that are used in evaluating people with spinal cord injury. The measures are the Spinal Cord Injury Spasticity Evaluation Tool (SCI-SET) and Patient-Reported Impact of Spasticity Measure (PRISM). The SCI-SET and PRISM are ...
Difficulty walking is very common following a spinal cord injury (SCI). People with SCI may have gait training included in their therapy plans. Gait training is practicing walking with assistive devices, braces and other types of support as needed.
Objectives: To examine (1) differences in quality-of-life scores for groups based on transitions in locomotion status at 1, 5, and 10 years postdischarge in a sample of people with spinal cord injury (SCI); and (2) whether demographic factors and transitions in locomotion status can predict quality-of-life measures at these time ...
Objectives: To investigate the relation of gait training (GT) during inpatient rehabilitation (IPR) to outcomes of people with traumatic spinal cord injury (SCI).
Design: Prospective observational study using the SCIRehab database.
Setting: Six IPR facilities.
Participants: Patients with new SCI (N=1376) receiving initial rehabilitation.
Interventions: Patients were divided into groups consisting of those who ...
What is the study about?
This study aims to estimate the budget impact of adding robotic exoskeleton (RT-exo) over-ground training to existing locomotor training strategies, in the rehabilitation of people with spinal cord injury (SCI). Locomotor training is a standard of care for the SCI population. It typically requires multiple personnel ...
What is the study about?
This study describes clinicians’ experiences using robotic exoskeletons in spinal cord injury (SCI) rehabilitation. These experiences include their perceptions on the benefits and risks of using robotic exoskeletons, training strategies, and developments that can enhance clinical utility.
What did the study find?
The four SCI model system centers ...
This is a part of the Hot Topic podcast series from the Model Systems Knowledge Translation Center on Exercise and Fitness After Spinal Cord Injury. Michael Boninger M.D, researcher, discusses Exercise, Health, and Happiness After Spinal Cord Injury.
Research tells us that exercise after spinal cord injury has multiple positive effects. ...
People with SCI are more likely than the general population to have health problems related to not being active. Regular exercise can help to reduce the risk of health problems after SCI.
This is a part of the Hot Topic podcast series from the Model Systems Knowledge Translation Center on Exercise and Fitness After Spinal Cord Injury. Lee Tempest, SCI Survivor, discusses The Therapeutic Feeling of Fitness.
Exercise and fitness has been very therapeutic, you know. It makes me feel good mentally and ...