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Active clinical trials for "Spinal Cord Injuries"

Results 1311-1320 of 1532

Chronic Pain and Brain Activity in Spinal Cord Injury

Spinal Cord Injury

This study compares five different procedures to see how they affect pain and brain activity. The procedures include neurofeedback, self-hypnosis training, meditation, and two different levels of transcranial direct current stimulation (tDCS). Subjects will be compensated for their time.

Completed8 enrollment criteria

Study to Assess the Validity and Reliability of the Spinal Cord Independence Measure (SCIM III)...

Spinal Cord Injury

In the past two decades there have been great strides made in understanding the biological changes resulting from spinal cord injury (SCI). The future holds promise of the development of therapies that will promote degrees of repair and recovery of function for people living with SCI. Lessons learned from past "failed" SCI clinical trials, however, demonstrate that, in order to accurately evaluate the overall effectiveness of SCI therapies, more sensitive outcomes measures are needed. Specifically, and reflecting the ultimate goal of clinical interventions - inducing functional recovery - the Spinal Cord Independence Measure (SCIM), has been recommended for further testing and development for use as a measure of functional ability in future SCI clinical studies. The SCIM is a very simple questionnaire and score sheet that an evaluator uses to determine how independently a person with SCI can perform certain tasks. A panel of SCI researchers recommended the SCIM as the most suitable among four candidate measures of functional recovery reviewed at a special meeting sponsored by the National Institute on Disability and Rehabilitation Research (NIDRR) at a joint meeting of the American Spinal Injury Association and the International Spinal Cord Society (ASIA-ISCoS) in Boston, MA, in June 2006. It was recommended that a large-scale, multi-center, prospective trial be conducted in the United States, which would mirror a recently published multi-site international study. The proposed research on the SCIM III, the latest and most sensitive version of the SCIM, would test the hypothesis that the SCIM III is a valid, reliable, and sensitive measure of functional ability in persons with SCI. Twenty-two rehabilitation centers throughout the United States will enroll a maximum of 660 subjects. Functional ability will be measured with the SCIM III during the first week of admittance into inpatient acute rehabilitation and within one week of discharge from the same rehabilitation program. Statistical analyses will be used to test the validity, reliability, and sensitivity of the SCIM III. The results will demonstrate whether the SCIM III is a suitable outcome measure to assess SCI specific functional ability in future clinical trials.

Completed6 enrollment criteria

Biomechanics of Wheelchair Transfers

Spinal Cord Injury

This is a laboratory-based study to evaluate the risk of shoulder injury associated with transfers between wheelchair and vehicle in persons with spinal cord injury. Four new devices will be compared against an unassisted transfer.

Completed19 enrollment criteria

Epidemiology and Cost of Falls in Veterans With a Spinal Cord Injury

Spinal Cord Injury

Brief Summary Detailed Description Background: A multitude of risk factors for falling has been reported for the elderly, however many of these risk factors are not applicable to persons with a spinal cord injury, who use a wheelchair for mobility. The objectives of this study are to: (1) describe the incidence and prevalence of tips, falls, and fall-related injuries in SCI; (2) describe the epidemiology of the fall event (person, time, place, and activity); (3) describe any injuries associated with a fall, including the mechanism and nature of the injury, severity of injury, as well as treatment required; (4) determine the risk factors related to falls and fall-related injuries in SCI, and develop a model for predicting falls and fall-related injuries in SCI; (5) determine healthcare utilization as well as direct and indirect costs associated with fall-related injuries in SCI; and (6) describe patient-perceived short- and long-term consequences of falls in SCI. The data collection for this study was completed on March 31, 2007, and data analysis is in final phase. Objectives: The objectives of the study are to describe: (1) the incidence and prevalence of wheelchair tips, falls, and fall-related injuries; (2) epidemiology of event; (3) injuries associated with event, including mechanism, nature, severity of injury and treatment required; (4) determine risk factors and develop a model for predicting tips and falls; (5) determine healthcare utilization and direct and indirect costs; and (6) describe perceived short- and long-term consequences of falls in SCI. Methods: This is a prospective cohort study. Data was collected through patient surveys, medical records, and VA databases. Baseline information includes risk factors (e.g., user characteristics, wheelchair features, wheelchair activities, etc.) and physical environmental data. Monthly follow-up calls tracked tips, falls, and injuries. Status: Recruitment ended on April 1, 2006 with a total of 702 subjects, and data collection was completed on March 31, 2007. The Data Safety Monitoring Board for this study conducted its final meeting on September 17, 2007. Data has been analyzed and 17 manuscripts are currently in development. Impact: While much is known about falls in elderly, there is a lack of understanding of the epidemiology of wheelchair-related falls. Our project is expected to identify previously unaccounted for factors that predispose persons with SCI to falls and fall-related injuries. This study will result in the creation of a model for predicting falls and fall-related injuries in SCI. The predictive model will be used to develop intervention strategies targeting modifiable risk factors. Eventually, we will test this predictive model with other vulnerable veteran populations. Findings from this study wil be used to develop an instrument to identify fall risk in persons with SCI.

Completed2 enrollment criteria

Glucose Study, Spinal Cord Injury

Spinal Cord Injury

The purpose of this research study is to find out how blood sugar levels change during the day and night in people living with spinal cord injuries (SCI) and then to compare that with people who do not have a spinal cord injury. As people with SCI get older they become more likely to develop health problems, just like everyone else. However, SCI increases the risk of certain problems. The amount of time post-SCI can also increase the risk of certain problems. This research project will focus on identifying the patterns of changes in blood sugar levels after SCI. Sugar in the blood is the important source of energy for the body. Too much sugar in the blood is known as hyperglycemia and not enough sugar in the blood is known as hypoglycemia. Under healthy conditions, the amount of sugar in the blood is automatically regulated so that a steady level is maintained. After SCI, however, this automatic regulation is damaged. The likelihood of experiencing too much or too little blood sugar is increased. Over time, having too much blood sugar can lead to the development of diabetes. In just the opposite situation, individuals with SCI can begin to experience more frequent episodes of too little blood sugar, which can lead to acute emergency situations. The pattern of how blood sugar levels change during a typical 24-hour time period in persons with SCI is not known. There may be unknown factors that affect blood sugar levels. In order to find out that information, this study will involve continuously monitoring blood sugar over a 3-day period in a variety of persons with SCI. A non-invasive, wireless monitoring system will be attached to the abdomen. This system records blood sugar levels every 5 minutes. The information gathered from this observational study is vital to the understanding of how SCI alters the regulation of sugar levels in the blood and to the subsequent medical management of this population.

Completed9 enrollment criteria

Perceived Barriers to Exercise in Individuals Living With Spinal Cord Injury

Spinal Cord Injury

Purpose: This project is designed to identify what the key barriers to participating in exercise are for the general population of people living with spinal cord injury (SCI) in the United States (US).

Completed2 enrollment criteria

Determine the Association Between the Level of SCI With Chronic Respiratory Symptoms, Measures of...

Spinal Cord Injuries

This study is using a standardized method to assess respiratory function in SCI in order to determine the association between level of SCI with chronic respiratory symptoms, measures of pulmonary function, and respiratory illness, both cross-sectionally and longitudinally.

Completed1 enrollment criteria

Food Security and Perceptions and Barriers to Healthy Eating in Individuals With Spinal Cord Injuries...

Spinal Cord Injuries

Food security is one's ability to get food. Individuals with a Spinal Cord Injury (SCI) have many risk factors for low rates of food security. Some of these risk factors include lower levels of income and employment. Our long-term goal is to identify if food security is more prevalent in the SCI population, and to develop ways to improve food security in the SCI population. The purpose of this study is to determine the rates of food insecurity in a sample of people living with a SCI and to identify some perceptions of barriers to healthy eating in the SCI population.

Completed8 enrollment criteria

Comparison of Three Different Assisting Devices to Power Manual Wheelchairs in Patients With Spinal...

Spinal Cord Injuries

The purpose of this study is to compare three assisting devices to propel personal wheelchairs (Servomatic A©, Servomatic B© and E.Motion©) to the standard personal manual wheelchair in patients with spinal cord injury.

Completed15 enrollment criteria

Surgical Treatment for Spinal Cord Injury

Acute Spinal Cord Injury of Traumatic Origin (tSCI)

Despite many years of research, an incomprehensible amount of scientific efforts worldwide and billions of dollars invested, no effective therapy resulting in major neurological or functional recovery is available to date for traumatic spinal cord injury (tSCI). Although there is increasing experimental evidence from animal models that surgical decompression of the spinal cord improves recovery after tSCI, clinical studies have not shown conclusive data yet. The main explanations for this lack of convincing evidence are relatively small sample sizes in previous studies, their predominantly retrospective nature, suboptimal measurement methods for the assessment of neurological deficits, and inappropriate recording and documentation of potential confounding factors.

Completed21 enrollment criteria
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