Walking With the EksoNR in Stroke Patients and Healthy Controls: Biomechanical Changes and User Experience.

NCT ID: NCT05334030

Last Updated: 2022-04-19

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: NA
• Total Enrollment: 24 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2022-04-25
• Study Completion Date: 2022-12-31

Brief Summary

Further studies are needed to provide more detailed information on the potential effects of robotic gait training in general, as well as on the influence on gait movement patterns in particular. Patient perspectives and feedback contribute to the continuous development of exoskeletal technology. For these reasons, the main objective of this study is to decipher the relationship between EksoNR's robotic control settings and walking biomechanics in stroke patients and healthy subjects; the second objective is to discover the user experience during the use of EksoNR.

Detailed Description

Stroke is the leading cause of severe disability in adults resulting in mobility, balance, and coordination deficits. Because of this, walking recovery has a significant impact on stroke patients' quality of life. To improve rehabilitation techniques, robotic exoskeletons are being increasingly used during physiotherapy sessions. The use of robotic exoskeletons enhances conventional poststroke rehabilitation via intense and task-oriented training. To achieve a normal gait pattern, it is essential to restore the correct activation timing of the lower limb muscles.

Designed by Ekso Bionics, EksoNR is the first exoskeleton device to receive FDA clearance for rehabilitation use with patients with acquired brain injury and stroke patients. EksoNR has several settings that can be adapted to have the best user experience possible and to provide individual-specific training. This study is being proposed to better understand the impact of each setting on stroke recovery and user experience. The two key outcomes are 1) to decipher the relationship between EksoNR robotic control settings and the biomechanics of walking; and 2) to uncover the psychological experiences during EksoNR use. To achieve these outcomes, the investigators are going to measure the effects of Swing Assist EksoNR settings on Gait kinematics; Kinetics; Muscle activity and Activation Timing; and User Experience.

The investigators will use a two-way repeated-measures design with a group (2 levels, healthy and stroke patients) as between factor and settings (4 levels) and user experience as within factors. It is an intra-subject design with an allocation ratio of 1/1. The healthy and stroke patients will have the same age limits.

Because there has not been a lot of research yet about the effect of different settings of the EksoNR on the rehabilitation of stroke patients or on the user experience using the EksoNR this study will use an exploratory framework. The purpose is to investigate what the different outcomes are for all the settings on biomechanical factors: muscle activity, kinematics and spatiotemporal factors.

The experiments will be conducted at the Brubotics Rehabilitation Research Center at the Vrije Universiteit Brussel (VUB)'s Brussels health campus (centrally located between Universitair Ziekenhuis Brussel (UZBrussel), Erasmushogeschool Brussel (EhB ) campus Jette and VUB Jette), led by Prof. Eva Swinnen and Prof. Nina Lefeber.

The participant needs to go to Brubotics Rehabilitation Research Center to perform two or three sessions in total with a break of 10 days (about 1 and a half weeks) in between.

Session 1 - Take in Session (1h) - At the beginning of this session the informed consent will be signed. Afterwards, the research team will prepare the settings and inquire about patient history, functional history, and physical evaluation. During the physical evaluation, it is necessary to do a gross assessment of strength, range of motion, and spasticity/tone; a detailed assessment of critical range of motion measurements; a qualitative assessment of pelvic posture and lumbar mobility; and check skin integrity. The patients walk with the EksoNR for at least 20 minutes.

Session 2 (1h) - This is a session to get familiar with walking with EksoNR for at least 20 minutes. It is only for stroke patients who have never walked with EksoNR, for that reason, if a patient has already used EksoNR before, will only do Session 1 + Session 3, skipping Session 2.

Session 3 (2h) - Each participant is going to walk 7 min (or min 25 gait cycles) in every condition, the order being randomly assigned and concealed from the patient (Trial 1- 4). For the random generation, each setting is going to be labelled and the sequence is going to be generated at the beginning of the session with a Matlab script. This script will randomly sort an array for each participant. Between trials, there is a rest of 5 min. During all walking trials, participants are allowed to stop and rest if necessary and research staff provided non-contact guarding for safety. In this session, kinetic data, spatio-temporal parameters, muscle activity and patient experience are going to be analyzed.

To make the analysis, the program Statistical Package for the Social Sciences (SPSS) version 27.0.1 will be used with a significance level set at 0,05. All data were summarized by using medians, standard deviations and means.

Conditions

Stroke; Healthy

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: CROSSOVER
• Primary Study Purpose: TREATMENT
• Blinding Strategy: SINGLE

Study Groups

Stroke

Group Type: EXPERIMENTAL

High Swing Assistance

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Neutral Swing Assistance

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

High Swing Resistance

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Max Trajectory Control

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "Bilateral";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Healthy

Group Type: EXPERIMENTAL

High Swing Assistance

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Neutral Swing Assistance

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

High Swing Resistance

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Max Trajectory Control

Intervention Type: DEVICE

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "Bilateral";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Interventions

High Swing Assistance

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Intervention Type: DEVICE

Neutral Swing Assistance

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Intervention Type: DEVICE

High Swing Resistance

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "2Free";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Intervention Type: DEVICE

Max Trajectory Control

On this study, four settings are going to be evaluated being that High Swing Assistance, Neutral Swing Assistance, High Swing Resistance and Max Trajectory Control. The following settings will be used in all three conditions:

• Sitting program - "Min lean";
• Standing program - "Auto lean";
• Step initiation program - "ProStep+",
• Training mode - "Off",
• SmartAssist option - "Bilateral";
• Stance support - "Low". The level of stance support and swing assistance will be set symmetrically for the affected and non-affected side.

Each patient is going to walk 7 min (or min 25 gait cycles) with every setting

Intervention Type: DEVICE

Eligibility Criteria

Inclusion Criteria

• People diagnosed with first-ever stroke (as defined by the WHO);
• Age between 18 and 80 years;
• Time since diagnosis between 1 week and 6 months;
• Functional ambulation category below 3 (meaning a patient who requires intermittent or continuous manual contact to support body weight, maintain balance or assist coordination.);
• Does not meet the Ekso robotic exoskeleton frame limitations (See list below)
• Able to provide written or verbal informed consent.

Exclusion Criteria

• Extensive experience with the use of the EksoNR (more than four training sessions);
• Other neurological or musculoskeletal problems leading to impaired gait (unrelated to their stroke);
• Severe complicating comorbidities (e.g., cardiovascular instability, pulmonary diseases);
• Severe deficits of communication, memory or understanding (25 points or less on the MoCA test);
• And contraindications for EksoNR use (see list below).

A group of healthy participants within the same age category will be used as controls.

• Disabilities leading to impaired gait;
• Severe complicating comorbidities (e.g.: cardiovascular instability, pulmonary diseases);
• Severe deficits of communication, memory or understanding (25 points or less on the MoCA test);
• Contraindications for EksoNR use (see list below).

• Severe concurrent medical conditions: infections, circulatory, heart or lung, pressure sores.
• Severe spasticity (Modified Ashworth 4).
• Unstable spine or unhealed limbs or pelvic fractures.
• Active heterotopic ossification interfering with lower extremity range of motion.
• Significant contractures.
• Psychiatric or cognitive situations that may interfere with the proper operation of the device.
• Cognitive impairments resulting in the inability to follow directions.
• Pregnancy.
• Colostomy.
• Poor skin integrity in areas in contact with the device.
• Decreased standing tolerance due to orthostatic hypotension.
• Range of motion restrictions that would prevent a patient from achieving a normal, reciprocal gait pattern, or would restrict a patient from completing normal sit-to-stand or stand-to-sit transitions: Knee flexion contracture greater than 12° and inability to achieve 0° neutral angle dorsiflexion with knee flexion up to 12°.
• Leg length discrepancy greater than 1.27 cm for thighs or 1.91 cm for lower legs.
• Unresolved deep vein thrombosis.
• Uncontrolled autonomic dysreflexia.
• Lower limb prosthesis.

Requirements for the use of the EksoNR:

• Weigh 100 kg or less.
• Between 1.5 m and 1.88 m tall.
• Have a standing hip width of 45 cm or less.
• Have a near-normal range of motion in hips, knees, and ankles.
• Able to attain neutral ankle dorsiflexion with <12 degrees of knee flexion contracture.
• Upper leg length discrepancy must be equal to or less than 1.27 cm and lower leg discrepancy equal to or less than 1.91 cm.

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 80 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

Universitair Ziekenhuis Brussel

OTHER

Sponsor Role: collaborator

Vrije Universiteit Brussel

OTHER

Sponsor Role: lead

Responsible Party

Eva Swinnen

Ph.D, Professor

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

EVA SWINNEN, Prof. Ph.D

Role: STUDY_DIRECTOR

Vrije Universiteit Brussel

Chiara Cavallaro, Bachelor's

Role: PRINCIPAL_INVESTIGATOR

Vrije Universiteit Brussel

Joana Brites, Master's

Role: PRINCIPAL_INVESTIGATOR

Vrije Universiteit Brussel

Central Contacts

Eva SWINNEN, Prof. Ph.D

Role: CONTACT

eva.swinnen@vub.be

003224774527

Other Identifiers

EksoRehab

Identifier Type: -

Identifier Source: org_study_id