Active clinical trials for "Spinal Cord Injuries"

In this study, the SCI patients were sub-grouped on the basis of symptoms into symptomatic and asymptomatic groups and measured HRV during resting and tilt up tests to compare their cardiovascular autonomic functions.

Vibration therapy is a possible alternative to drug-based treatments for spasticity following SCI. Research indicates that it may provide temporary relief from spasticity, but many interventions under investigation are not portable and therefore access is limited. The aim of this study is to investigate the feasibility of using a portable vibrating device to decrease UE spasticity.

Study Design and Subject Recruitment: This was a cross-sectional study in a single centre outpatient setting at the Foot Care and Limb Design Centre, Tan Tock Seng Hospital. As this was a proof-of-concept clinical trial for the introduction of 3D printed AFOs as a patient service, only 5 subjects were recruited based on consecutive sampling. Interventions: Thermoformed AFOs moulded over the subject's lower limb plaster model served as the control intervention. The plaster models were rectified by an orthotist with over 20 years of experience and the AFO design was determined according to the subject's clinical presentation and needs. The AFOs were manufactured from 4 - 5mm thick homopolymer polypropylene. 3D printed AFOs served as the treatment intervention. It was fabricated through 3D scanning with an Artec Eva 3D scanner (Artec 3D, Luxembourg, Luxembourg) and an adjustable Perspex glass foot plate, CAD modelling with the OrtenShape software (Proteor, Saint-Apollinaire, France), and printed using fused deposition modelling with the Fortus 450mc (Stratasys, Minnesota, United States). The 3D printed AFO is printed of Polyamide Nylon-12 material in the same thickness as the thermoformed AFO. There were no blinding procedures as both interventions were distinctly different and it is not possible to blind subjects with daily use of the AFOs. Trial Schedule: A thermoformed and a 3D printed AFO were fitted to each subject in a single session. The QUEST survey was administered post-fitting. Subjects brought home both AFOs and were instructed to wear them during ambulation, alternating between the AFOs daily. Subjects returned for follow-up at 3 weeks and 6 weeks post-fitting for necessary adjustments and the administration of the QUEST surveys was repeated for each AFO.

The objective of this study is to evaluate the therapeutic and functional gains of a myoelectric elbow-wrist-hand orthosis for adult individuals with upper limb impairments using repeated measures studies that combines both gross motion and quantitative function outcome measures.

A randomized, controlled trial comparing exoskeleton gait training with standard gait training or no gait training in community-dwelling participants with chronic incomplete spinal cord injury

This study investigates if, patients with diagnosed chronic spinal cord injury will benefit from an Indoor Curling Exercise program on their control capabilities of trunk movements and on their intrinsic motivation for physical activity. Half of participants will receive 8 training-sessions during 4 weeks, while the other will receive usual care.

Aim 1: Determine the neurophysiologic impact of Transcutaneous Spinal Cord Stimulation (TSCS) within a single session. The investigators hypothesize that subjects will demonstrate increased volitional muscle activity and strength with TSCS. This will be assessed by surface EMG and hand-held dynamometry of the dominant-side quadriceps muscle during maximum volitional contraction (MVC) and measurement of gait speed. Subjects will be tested in both TSCS and sham conditions. Aim 2: Determine the impact of TSCS and gait training on walking function. The investigators hypothesize that concurrent TSCS and gait training will augment walking function in subjects with iSCI, as compared to gait training alone. Subjects will participate in an eight-week program of gait training with TSCS and be assessed with clinically relevant outcome measures, to include the Timed Up and Go, 10-Meter Walk Test, Walking Index for Spinal Cord Injury II, and 6-Minute Walk Test.

The purpose of this study is to demonstrate that a robot-aided rehabilitation protocol that follows the "assist-as needed" paradigm provide statistically significant improvements in arm and hand motor functions when compared to robot-aided protocols that passively move patients' arms along pre-defined trajectories, in patients with incomplete spinal cord injury (SCI).

Powered exoskeletons have emerged recently, promising to offer walking to individuals with severe spinal cord injury who are unable to walk. We will use the ReWalk exoskeleton to train walking in individuals with chronic, severe spinal cord injury (SCI). We will determine the characteristics of individuals who most benefit from such training, and identify the neuroplasticity induced by the training. We will further determine the feasibility of the ReWalk for home and community ambulation.

Change to Reflect What Was Done and reason Changes Were Made. The purpose of this study is to determine (1) if a specific breathing treatment (intermittent hypoxia) can promote changes in breathing function and (2) if pairing breathing treatments (hypoxia) with locomotor training can enhance the benefits of walking recovery observed with locomotor training alone (without breathing treatments).