Vibrotactile Feedback in Exoskeletons

Sint Maartenskliniek7 enrolled

Overview

This study aims to investigate the impact of providing discrete vibrotactile feedback related to weight shift and step initiation on exoskeleton use in individuals with motor-complete SCI.

Rationale: People with motor-complete spinal cord injury (SCI) lack motor function below the lesion level and are, thus, wheelchair-dependent. In recent years, wearable exoskeletons have emerged as potential mobility devices for this population. Although exoskeletons generate the basic motions for ambulation, postural stability must be maintained by the user. People with motor-complete SCI miss essential somatosensory perception, which affects their ability to maintain postural stability. Hence, walking in an exoskeleton is demanding, and crutches are necessary. When sensory information of a specific system is lost, the lack of sensory information can be substituted by providing feedback to another sensory system. As sensory feedback has been shown to improve postural control in people missing essential sensory information, such sensory substitution may also be effectively incorporated in people with complete SCI using an exoskeleton. Objective: The study aims to investigate the effect of vibrotactile feedback on exoskeleton use in people with motor-complete SCI. Study design: The proposed study is an experimental study. The study protocol includes six sessions of 90 minutes spread over three weeks. Sessions one to five are dedicated to training to assess the effect of vibrotactile feedback on exoskeleton motor learning. Session six is dedicated to evaluation to assess the effect of vibrotactile feedback on exoskeleton motor control.

Study Type

INTERVENTIONAL

Allocation

Purpose

OTHER

Masking

NONE

Enrollment

Conditions

Spinal Cord Injuries

Interventions

Vibrotactile feedbackOTHER

The ABLE exoskeleton is accompanied by a vibrotactile feedback belt which users wear around their chest to receive real-time feedback during the double support phase. This feedback can assist them in their weight shift during the double support phase.

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * SCI classification American Spinal Injury Association Impairment Scale (AIS) A or B * Minimally six months post-injury * Prior experience with the ReWalk Exoskeleton, able to walk independently Exclusion Criteria: * Pre-existing somatosensory problems before the SCI * Visual or auditory issues that are not resolved with glasses or a hearing device * Insufficient mastery of the Dutch language * Contraindications related to the ABLE Exoskeleton

Locations (1)

Sint Maartenskliniek

Nijmegen, Netherlands

Outcomes

Primary Outcomes

Walking distance covered

Walking distance covered during a 50-second walking trial.

Time frame: Up to 3 weeks

Secondary Outcomes

Reach path ratio

The reach path ratio of the Center of Mass (COM) trajectory in the double support phase.

Time frame: Up to 3 weeks

Reach time

The reach time represents the time spent in the double support phase.

Time frame: Up to 3 weeks

User experience questionnaire

A customized questionnaire to assess the specific user experience of the vibrotactile feedback system, considering key aspects related to exoskeleton motor learning and motor control. The questionnaire comprises five visual analog questions employing a scale ranging from strongly disagree to strongly agree

Time frame: After 3 weeks

Dutch version of the Quebec User Evaluation of Satisfaction with Assistive Technology (D-QUEST) - only including the eight items related to user satisfaction with the assistive device

The D-QUEST evaluates a patient's satisfaction with various assistive technologies.

Time frame: After 3 weeks

Data from ClinicalTrials.gov

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