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Active clinical trials for "Spinal Cord Injuries"

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Robotic Gait Training VS.Conventional Rehabilitation in SCI

Spinal Cord Injury

Until now, there's still no any strong evidence supported "which is the best way to restoration walking ability" in spinal cord injury. Most of the evidence suggest that, there is somehow better after gait rehabilitation for ASIA classification C and D but not improved walking ability for ASIA classification A and B. There is an RCT showed the evidence of repetitive locomotor training and physiotherapy could be improved walking and basic activities of daily living after stroke, these might be also really effect in SCI patients.

Unknown status7 enrollment criteria

Effect of Intense Multi-modal Training on Bone Health and Quality of Life in Persons With Spinal...

Spinal Cord InjuryObesity

Bone loss is a common secondary complication of spinal cord injury (SCI), and treatments used to reverse this condition have equivocal effectiveness. The aim of this study is to determine the effect of intense multi-modal training on bone health, body fat, and quality of life in persons with SCI. Participants will complete 6 months of training during which various measures will be obtained at 0, 3, and 6 months. Control subjects are also being recruited to complete testing but not participate in training.

Unknown status4 enrollment criteria

Gait Adaptation for Stroke Patients With Augmented Reality

StrokeTraumatic Brain Injury1 more

The GASPAR trial is a pragmatic, parallel-arms, single-center, non-blinded, superiority randomized control trial in neurorehabilitation. The main objective is to test whether a 4 weeks gait rehabilitation program that uses augmented reality is superior to a conventional treadmill training program of equivalent intensity. Baseline assessments precede allocation, which consists in blocking randomization (2:1 ratio) with stratification according to the disease etiology. Post-intervention assessments serve to compare the short-term efficacy of the intervention between the two groups. Three months after discharge, follow-up assessments take place to detect potential long-term effects.

Unknown status12 enrollment criteria

Activity Based Locomotor Exercise PrOgram-Wait-list controllEd Research

Spinal Cord Injuries

At Courage Kenny Rehabilitation Institute, rehabilitation for individuals with spinal cord injury (SCI) is being led by the NIH funded NeuroRecovery Network (NRN) Community Fitness and Wellness Program through the Activity-Based Locomotor Exercise Program (ABLE). Any individual with a spinal cord injury who is eligible for the ABLE Program is eligible for participation in the NeuroRecovery Network Research Project (NRN). The purpose of the ABLE POWER Study is to evaluate the effectiveness of activity-based locomotor exercise programs in individuals with SCI through a wait-list controlled design. Individuals who have a spinal cord injury and are on the wait list for ABLE will be enrolled in this project for a year while they wait for an opening in the ABLE program. Changes that occur while participants are on the wait list will be compared to changes that occur after they are enrolled in ABLE. A difference in the rate of improvement after enrollment in the intervention would be attributed to the ABLE intervention. Individuals participating in the ABLE program will receive the ABLE intervention regardless of participation in the ABLE POWER research study. In this design, there will be two measures in the year prior to enrollment in ABLE, and two measures in the year after enrollment, and the two time periods would be compared to the data collected at enrollment into ABLE.

Terminated3 enrollment criteria

The Effect of FES and Therapeutic Exercise on SCI Patients Skeletal Muscles, Sitting Balance, Posture...

Spinal Cord Injuries

Aim of the current study is to evaluate the effect functional electrical stimulation and therapeutic exercise on traumatic spinal cord injured participants'skeletal muscle characteristics, sitting balance, lung function and quality of life.

Unknown status1 enrollment criteria

Intrathecal Transplantation of UC-MSC in Patients With Early Stage of Chronic Spinal Cord Injury...

Spinal Cord Injuries

This study aim to evaluate the safety and efficacy of intrathecal transplantation of allogeneic umbilical cord derived mesenchymal stem cells (UC-MSC) for treatment of different phrases of spinal cord injury. Here, the history of spinal cord injury is divided into three periods, Sub-acute SCI, Early stage of chronic SCI, and Late stage of chronic SCI, which is 2W-2M, 2M-12M, and more than 12M after injury, respectively. The purpose is to investigate whether the patients with spinal cord injury benefit from UC-MSC transplantation, and then find out the best time for SCI treatment. In this part of the study, the investigators will treat patients with early stage of chronic spinal cord injury with UC-MSC transplantation or placebo.

Unknown status18 enrollment criteria

Intrathecal Transplantation of UC-MSC in Patients With Sub-Acute Spinal Cord Injury

Spinal Cord Injury

This study aim to evaluate the safety and efficacy of intrathecal transplantation of allogeneic umbilical cord derived mesenchymal stem cells (UC-MSC) for treatment of different phrases of spinal cord injury. Here, the history of spinal cord injury is divided into three periods, Sub-acute SCI, Early stage of chronic SCI, and Late stage of chronic SCI, which is 2W-2M, 2M-12M, and more than 12M after injury, respectively. The purpose is to investigate whether the patients with spinal cord injury benefit from UC-MSC transplantation, and then find out the best time for SCI treatment. In this part of the study, the investigators will treat patients with sub-acute spinal cord injury with UC-MSC transplantation or placebo.

Unknown status18 enrollment criteria

Transplantation of Autologous Bone Marrow or Leukapheresis-Derived Stem Cells for Treatment of Spinal...

Spinal Cord Injury

This is a double-armed, Phase I/II trial aims to compare bone marrow and leukapheresis as sources for purified, autologous CD34+ and CD133+ stem cells (SCs), to be utilized in treatment of patients with chronic complete spinal cord injuries (SCI). The study focuses on the safety and efficacy of transplanting un-manipulated, autologous, purified stem cells into the injured spinal cords of patients.

Unknown status8 enrollment criteria

Functional Electrical Stimulation-Assisted Walking: Reduction of Secondary Complications Due to...

Spinal Cord Injury

The purpose of this study is to evaluate whether an aerobic and resistance training program or a functional electrical stimulation-assisted Walking program is more effective for reducing health complications related to spinal cord injury, for example, the occurrence of bladder infections, pressure sores and/or frequency of spasms. It is hypothesized that the functional electrical stimulation-assisted walking will have a greater impact on secondary complications than the aerobic and resistance training program.

Unknown status7 enrollment criteria

Surgical Management of Spinal Cord Injuries In Neck

Central Cord SyndromeSpinal Cord Injury1 more

ABSTRACT/EXECUTIVE SUMMARY BACKGROUND, SIGNIFICANCE & RATIONALE: Between 10-20% of the more than 6000 cases of spinal cord injury seen annually in the North America have the clinical pattern of traumatic central cord syndrome (TCCS). These patients are usually older, most likely have sustained a fall, and have incomplete spinal cord injury characterized by dysesthetic and weak upper extremities. CT scan of the cervical spine in patients with TCCS often shows disc/osteophytes complex superimposed on degenerative or congenital spinal stenosis and MRI reveals signal changes at one or multiple skeletal segments. A minority of these patients suffer from fracture/subluxations, however, this group of patients are younger and have been involved in a more dynamic trauma. Since 1951, when Schneider et al reported this syndrome, controversy has dominated its surgical management. The current "Guidelines for the Management of Acute Cervical Spine and Spinal Cord Injuries" recommendations are only at the level of options, since prospective outcome data are unavailable. HYPOTHESIS: in acute traumatic central cord syndrome, surgical decompression of the spinal cord within five days will result in more rapid motor recovery, than decompression 6 weeks following injury. To test this hypothesis, we will pursue the following specific aims: SPECIFIC AIM I: To compare American Spinal Injury Association (ASIA) Motor Scores after three months post injury in patients with central cord syndrome operated on within five days of injury to a similar group of patients operated on 6 weeks following injury. SPECIFIC AIM II: To compare functional outcome, health related quality of life and posttraumatic syrinx size in patients with traumatic central cord syndrome operated on within five days to a similar group of patients operated on 6 weeks following injury. DESIGN: Single center prospective randomized study. PROCEDURE: In a two-year period thirty patients with traumatic central cord syndrome and cord compression (15 patients in each group) will be randomized to undergo surgical decompression either within the first five days or at 6 weeks following spinal cord injury. ASIA motor, functional recovery and health related quality of life between the two groups will be compared at admission, discharge from rehab facility 3 months and 12 months after surgery.

Unknown status14 enrollment criteria
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