Effectiveness of Virtual Gait System Intervention in Motor Function in People With Incomplete Spinal Cord Injury.

Incomplete Spinal Cord Injury Clinical Trial

Official title: Evaluation of Effectiveness of Virtual Gait System Intervention in Motor Function, Tone and Sensibility, in People With Incomplete Spinal Cord Injury.

Status Active, not recruiting

Clinical Trial Summary

Roughly 60% of people with Spinal Cord Injury (SCI) have an incomplete one, with a strength, sensibility, and muscle tone alteration. Moreover, this condition involves a high impact on the psychological and socioeconomic levels. After an incomplete SCI, spontaneous functional recovery occurs. This recovery is strong associated with injury and person characteristics, and with corticospinal fibers, motor cortex, and spinal neurons neuroplasticity. However, also it is possible to stimulate neuroplasticity mechanisms of these structures throughout rehabilitation techniques. Generally, with external devices, exoskeletons, or physical exercise therapy. With it, clinicians achieve early, intensive and specific therapies. This reorganization and recovery can be influenced because of mirror neurons, located in motor and premotor areas, and in other cortical and subcortical areas. These types of neurons are activated with a functional action observation. Due to incomplete SCI neuroplasticity recover, these therapies (concretely, illusion visual systems) have been the object of systematic review in this population with the aim of knowing its repercussion on neuropathic pain in chronic patients. Moseley and collaborators in 2007 were the first of proposing a virtual gat system that induced patients' gait illusion. The promising results in this intervention, leading institutions performed similar studies with other stimuli and devices, with good results. However, SCI studies are focused on neuropathic pain and not in motor function (like in other populations). Therefore, there is not any study that assesses mirror neurons activity in the physical condition and/or in functional gait capaity in incomplete spinal cord injury population. On the basis of the above, the study principal aim is to evaluate a virtual gait treatment effectiveness compared with combined interventions with specific gait physical exercise in functional capacity in the incomplete spinal cord injury population. Concretely in follow outcomes: gait, functionality, strength, muscle tone, sensibility, and neuropathic pain.

Clinical Trial Description

Roughly 60% of people with Spinal Cord Injury (SCI) have an incomplete one, with a strength, sensibility, and muscle tone alteration. Moreover, this condition involves a high impact on the psychological and socioeconomic levels. After an incomplete SCI, spontaneous functional recovery occurs. This recovery is strong associated with injury and person characteristics, and with corticospinal fibers, motor cortex, and spinal neurons neuroplasticity. However, also it is possible to stimulate neuroplasticity mechanisms of these structures throughout rehabilitation techniques. Generally, with external devices, exoskeletons, or physical exercise therapy. With it, clinicians achieve early, intensive and specific therapies. This reorganization and recovery can be influenced because of mirror neurons, located in motor and premotor areas, and in other cortical and subcortical areas. These types of neurons are activated with a functional action observation. Mirror neurons activity has been studied with several brain injury populations (Cranial traumatisms, Parkinson, or Alzheimer's disease). Therefore, several experimental investigations have been developed by applying different interventions to modified their activity (mirror therapies, virtual reality therapies, or Action-Observation therapies). Its results showed promising improvements, except for advanced Alzheimer's disease. Due to incomplete SCI neuroplasticity recover, these therapies (concretely, illusion visual systems) have been the object of systematic review in this population with the aim of knowing its repercussion on neuropathic pain in chronic patients. Moseley and collaborators in 2007 were the first of proposing a virtual gat system that induced patients' gait illusion. The promising results in this intervention, leading institutions performed similar studies with other stimuli and devices, with good results. However, SCI studies are focused on neuropathic pain and not in motor function (like in other populations). Therefore, there is not any study that assesses mirror neurons activity in the physical condition and/or in functional gait capaity in incomplete spinal cord injury population. On the basis of the above, the study principal aim is to evaluate a virtual gait treatment effectiveness compared with combined interventions with specific gait physical exercise in functional capacity in the incomplete spinal cord injury population. Concretely in follow outcomes: gait, functionality, strength, muscle tone, sensibility, and neuropathic pain. Therefore, this study is a randomized clinical trial in which four groups of twenty people in each group will participate, with different interventions: 1. Virtual Gait and Physical exercise. 2. Documental projection and physical exercise. 3. Virtual Gait. 4. Documental Projection. Data analysis will be performed with SPSS statistic program (v26). Normality and homocedasticity will be analyzed by Shapiro-Wilk t-test and Levene test, respectively. For comparation between groups Bonferroni will be used. If any confusion factor that not meet requirements to be analysed like a covaraible exist, ANCOVA will be used. When p<0.0.5 statistical significant differences will be asumed. ;

Related Conditions & MeSH terms

• Incomplete Spinal Cord Injury
• Spinal Cord Injuries
• Wounds and Injuries

• NCT number: NCT04809987
• Study type: Interventional
• Source: University of Valencia
• Status: Active, not recruiting
• Phase: N/A
• Start date: January 9, 2020
• Completion date: December 31, 2024