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Spinal Cord Injuries clinical trials

View clinical trials related to Spinal Cord Injuries.

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NCT ID: NCT02368405 Completed - Spinal Cord Injury Clinical Trials

Nutrition Education for Cardiovascular Disease Prevention in Spinal Cord Injury

Start date: February 2015
Phase: N/A
Study type: Interventional

This is a randomized controlled trial to study a nutrition education intervention in individuals with spinal cord injuries both in the acute rehabilitation setting (n = 100) and the community setting (n = 100). Participants in the treatment group will receive six interactive nutrition lectures based upon a successful program that has been used in older adults titled "Eat Smart, Stay Well". The goals of intervention are to improve whole-grain, fruit and vegetable, and low-fat dairy intake and reduce fat and saturated fat intake. Secondary outcomes will include improvements in waist circumference of body mass index and some biomarkers such as cholesterol and blood sugar.

NCT ID: NCT02354625 Completed - Spinal Cord Injury Clinical Trials

The Safety of ahSC in Chronic SCI With Rehabilitation

Start date: January 2015
Phase: Phase 1
Study type: Interventional

The purpose of this study is to assess the safety of autologous human Schwann cell (ahSC) transplantation in participants with chronic SCI. This trial design is phase I, open label, unblinded, non-randomized, and non-placebo controlled multiple injury cohorts.

NCT ID: NCT02351921 Completed - Spinal Cord Injury Clinical Trials

Repetitive Transcranial Magnetic Stimulation in Individuals With Spinal Cord Injury: A Pilot Study

Start date: February 2015
Phase: N/A
Study type: Interventional

This study will investigate how repetitive transcranial magnetic stimulation delivered as a protocol called 'continuous theta-burst stimulation (cTBS)' alters motor output and force control to a muscle in the forearm and touch perception in individuals with chronic, incomplete spinal cord injury. CTBS is a non-invasive technique that involved repetitive delivery of transcranial magnetic stimulation at a frequency of 30 Hz over the arm representation in the primary motor or sensory cortex. The purpose of this study is to determine whether cTBS is an effective intervention to increase motor output to a muscle and increase force control of that muscle and also improve the sense of touch.

NCT ID: NCT02342080 Completed - Spinal Cord Injury Clinical Trials

Effects of System Suspended Robotic Lokomat Gait in Patients With Incomplete Spinal Cord Injury

Start date: March 2013
Phase: N/A
Study type: Interventional

Patients with incomplete spinal cord injury

NCT ID: NCT02341950 Completed - Spinal Cord Injury Clinical Trials

Clinical Trial of a Serious Game for Individuals With SCI/D

Start date: February 5, 2015
Phase: N/A
Study type: Interventional

This study will evaluate the efficacy of a newly developed serious game, SCI HARD, to enhance self-management skills, self-reported health behaviors, and quality of life among adolescents and young adults with spinal cord injury and disease (SCI/D). SCI HARD was designed by the project PI, Dr. Meade, in collaboration with the UM3D (University of Michigan three dimensional) Lab between 2010 and 2013 with funding from a NIDRR (National Institute on Disability and Rehabilitation Research) Field Initiated Development Grant to assist persons with SCI develop and apply the necessary skills to keep their bodies healthy while managing the many aspects of SCI care. The study makes a unique contribution to rehabilitation by emphasizing the concepts of personal responsibility and control over one's health and life as a whole. By selecting an innovative approach for program implementation, we also attempt to address the high cost of care delivery and lack of health care access to underserved populations with SCI/D living across the United States (US). H1: SCI Hard participants will show greater improvements in problem solving skills, healthy attitudes about disability, and SCI Self-efficacy than will control group members; these improvements will be sustained over time within and between groups. H2: SCI Hard participants will endorse more positive health behaviors than control group members; these improvements will be sustained over time within and between groups. H3: SCI Hard participants will have higher levels of QOL than control group members; these differences will be sustained over time within and between groups. H4: Among SCI Hard participants, dosage of game play will be related to degree of change in self-management skills, health behaviors and QOL.

NCT ID: NCT02340910 Completed - Spinal Cord Injury Clinical Trials

Dose-Response Effects of Whole Body Vibration on Spasticity and Walking in SCI

WBV
Start date: February 2, 2015
Phase: N/A
Study type: Interventional

This study will enroll people with SCI who have spasticity and some ability to walk. The goal is to understand if standing on a platform and receiving WBV results in decreased spasticity and improved walking ability. Published article is available (PMID: 29959653)

NCT ID: NCT02339233 Completed - Spinal Cord Injury Clinical Trials

Epi Stim to Facilitate Standing and Stepping

Start date: January 1, 2010
Phase: N/A
Study type: Interventional

The overall aim is to assess whether task specific locomotor training and spinal cord electrical stimulation (SCES) can induce neural reorganization of the functionally isolated human spinal cord to improve standing and stepping in individuals with functionally complete SCI. The investigators propose that locomotor training will result in generation of more effective standing and stepping efferent patterns by restoring phase dependent modulation of reflexes and reciprocal inhibition, reducing clonus and mediating interlimb coordination. The investigators propose that the SCES will optimize the physiological state of the spinal cord interneuronal circuitry compromised by compensating for loss of supraspinal input for the retraining of these tasks.

NCT ID: NCT02336321 Completed - Spinal Cord Injury Clinical Trials

Daily-life Brain Control Of A Hand Exoskeleton After Cervical Spinal Cord Injury

Start date: April 2014
Phase: Phase 1
Study type: Interventional

In this study, 6 volunteer participants with chronic spinal cord injury will be invited to use an autonomous hand exoskeleton device controlled by a brain/neural-computer interaction (BNCI) system fusing electroencephalography (EEG) and electrooculography (EOG) to detect the intention of the user to grasp objects of daily life. The BNCI system consists of a lightweight hand exoskeleton connected to portable motors, rechargeable batteries and a computerized control system integrated into a wheelchair. Before, during and after use of the BNCI system the volunteers will perform standardized assessments and complete questionnaires to assess the functional and psychological effects of the exoskeleton. Functional outcomes primarily focus on motor function in performing daily life actions while psychological outcomes primarily focus on safety, reliability as well as predisposition and perceptions of disability.

NCT ID: NCT02325414 Completed - Osteoporosis Clinical Trials

Prevention of Bone Loss After Acute SCI by Zoledronic Acid

Start date: February 2015
Phase: Phase 2
Study type: Interventional

The overall objective of this study is to define an effective therapeutic approach, using currently available medication, to prevent or mitigate the loss of bone mass and bone strength that occurs after acute spinal cord injury.

NCT ID: NCT02323698 Completed - Clinical trials for Spinal Cord Injuries

Effects of Caffeine and Intermittent Hypoxia on Leg Function in Human Spinal Cord Injury

Start date: January 1, 2019
Phase: Phase 1/Phase 2
Study type: Interventional

Accumulating evidence suggests that repeatedly breathing low oxygen levels for brief periods (termed intermittent hypoxia) is a safe and effective treatment strategy to promote meaningful functional recovery in persons with chronic spinal cord injury (SCI). The goal of the study is to understand how caffeine may augment the effects of intermittent hypoxia on motor function and spinal plasticity (ability of the nervous system to strengthen neural pathways based on new experiences) following SCI.