This Study Evaluates the Use of a Data-driven Lower Limb Exoskeleton Controller for Stroke Rehabilitation.
27. Mai 2026 aktualisiert von: Robert D Gregg, University of Michigan
From Stroke Rehabilitation to Independence: An Impairment-Aware Control Framework for Adaptive Exoskeleton Assistance
The goal of this clinical trial is to test a new, impairment-aware robotic control software framework to see if its smart adaptation can improve walking recovery in healthy adults and chronic stroke survivors. .
The main questions it aims to answer are:
Can the new control software safely use sensors and machine learning to predict and instantly adapt to a user's specific walking needs?
Does training with a robotic device driven by this new adaptive control framework improve walking speed and overall mobility in stroke survivors?
Researchers will compare a lower-limb orthosis operating under the new "smart" control software (which adapts to the user's impairment) to the same device operating under a standard, non-adaptive controller (which uses rigid or fixed assistance) to see if the new control approach leads to greater improvements in walking ability.
Participants will:
Walk on treadmills, flat walkways, or stairs while wearing a robotic leg orthosis driven by the different control software systems being tested.
Wear small tracking tools (like reflective motion-capture markers and muscle activity sensors) so researchers can precisely measure how their movements interact with each control program.
Complete standard walking tests to measure their walking speed and overall mobility under each software condition.
Studienübersicht
Status
Noch keine Rekrutierung
Bedingungen
Intervention / Behandlung
Studientyp
Interventionell
Einschreibung (Geschätzt)
20
Phase
- Unzutreffend
Kontakte und Standorte
Dieser Abschnitt enthält die Kontaktdaten derjenigen, die die Studie durchführen, und Informationen darüber, wo diese Studie durchgeführt wird.
Studienorte
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Michigan
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Ann Arbor, Michigan, Vereinigte Staaten, 48109
- Rehabilitation Laboratory in the Ford Robotics Building on the University of Michigan North Campus
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Teilnahmekriterien
Forscher suchen nach Personen, die einer bestimmten Beschreibung entsprechen, die als Auswahlkriterien bezeichnet werden. Einige Beispiele für diese Kriterien sind der allgemeine Gesundheitszustand einer Person oder frühere Behandlungen.
Zulassungskriterien
Studienberechtigtes Alter
- Erwachsene
- Älterer Erwachsener
Akzeptiert gesunde Freiwillige
Ja
Beschreibung
Inclusion Criteria:
- Cohort 1: Able-Bodied Participants (Initial Validation)
- Healthy young adults.
- No history of neurological, orthopedic, or cardiovascular impairments affecting gait or balance.
- Able to walk independently without assistive devices.
Cohort 2: Stroke Survivors (Clinical Efficacy Pilot)
- Individuals with a documented history of chronic stroke.
- Persistent unilateral lower-limb motor impairment resulting in a pathological gait pattern (heterogeneous gait deficits).
- Stable medical condition allowing for participation in intensive physical rehabilitation tasks.
- Able to provide informed consent.
Exclusion Criteria:
- Severe cognitive or communication impairments that prevent the participant from following safety instructions or reporting discomfort.
- Co-existing neurological conditions (other than stroke) that independently impair locomotion (e.g., Parkinson's disease, Multiple Sclerosis).
- Severe lower-limb joint contractures or orthopedic conditions that mechanically restrict the safe range of motion of the robotic orthosis.
- Skin breakdowns, open wounds, or severe unhealed lesions at the contact points where the powered orthosis interfaces with the lower limbs.
- Any medical contraindication to intensive walking exercise or treadmill training (e.g., unstable angina, severe unmanaged cardiovascular disease).
Studienplan
Dieser Abschnitt enthält Einzelheiten zum Studienplan, einschließlich des Studiendesigns und der Messung der Studieninhalte.
Wie ist die Studie aufgebaut?
Designdetails
- Hauptzweck: Behandlung
- Zuteilung: Zufällig
- Interventionsmodell: Crossover-Aufgabe
- Maskierung: Keine (Offenes Etikett)
Waffen und Interventionen
Teilnehmergruppe / Arm |
Intervention / Behandlung |
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Experimental: Experimental Arm
Training with the new "unified control framework" (the smart, adaptive robotic exoskeleton).
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An AI-driven, machine learning-based control software integrated into a wearable lower-limb powered orthosis.
The system utilizes a Bayesian Neural Network (BNN) to analyze a user's pathological walking patterns (kinematics) in real-time via onboard sensors.
Based on this real-time performance, the device dynamically modulates its physical assistance along a seamless continuum.
It automatically transitions between stiff corrective guidance (position-based gait training) when the user struggles, and compliant, volitional torque support (torque-based assistance) as the user's independent walking ability improves.
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Aktiver Komparator: Active Comparator Arm
Training with a "conventional controller" (the standard robotic exoskeleton controller).
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A standard control paradigm for lower-limb powered orthoses that provides non-adaptive physical assistance during gait training.
Depending on the trial block, the device operates in one of two static modalities: either rigid position-based gait training (GT) that physically guides the patient's limbs through a fixed, predetermined trajectory regardless of effort, or torque-based volitional augmentation (VA) that proportionally amplifies existing muscle output or ground reaction forces.
Unlike the experimental intervention, this controller cannot interpret kinematics in real-time or dynamically modulate assistance along a continuous spectrum based on the user's instantaneous performance.
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Was misst die Studie?
Primäre Ergebnismessungen
Ergebnis Maßnahme |
Maßnahmenbeschreibung |
Zeitfenster |
|---|---|---|
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Walking Speed
Zeitfenster: Baseline (Week 0), Post-Intervention Phase 1 (Week 4), Post-Washout / Pre-Intervention Phase 2 (Week 8), and Post-Intervention Phase 2 (Week 12).
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A standardized clinical assessment used to determine short-distance walking speed over a 10-meter course.
This metric evaluates the preliminary clinical efficacy of the unified control framework compared to the conventional controller in chronic stroke survivors.
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Baseline (Week 0), Post-Intervention Phase 1 (Week 4), Post-Washout / Pre-Intervention Phase 2 (Week 8), and Post-Intervention Phase 2 (Week 12).
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Functional Mobility and Balance
Zeitfenster: Baseline (Week 0), Post-Intervention Phase 1 (Week 4), Post-Washout / Pre-Intervention Phase 2 (Week 8), and Post-Intervention Phase 2 (Week 12).
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A clinical performance-based measure used to assess dynamic balance, turning agility, and functional mobility.
The test measures the time (in seconds) taken for a participant to rise from a chair, walk 3 meters, turn around, walk back, and sit down.
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Baseline (Week 0), Post-Intervention Phase 1 (Week 4), Post-Washout / Pre-Intervention Phase 2 (Week 8), and Post-Intervention Phase 2 (Week 12).
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Sekundäre Ergebnismessungen
Ergebnis Maßnahme |
Maßnahmenbeschreibung |
Zeitfenster |
|---|---|---|
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Acute Within-Session Changes in Spatial Gait Symmetry
Zeitfenster: Baseline (Week 0) and weekly during the 12 training sessions across each 4-week intervention period.
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Gait symmetry evaluated using the step length symmetry index (SI), calculated from lower-limb kinematics recorded by the exoskeleton's onboard joint encoders and/or motion capture data.
This metric evaluates the immediate corrective effects on walking patterns.
An SI of 0% represents perfect symmetry.
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Baseline (Week 0) and weekly during the 12 training sessions across each 4-week intervention period.
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Acute Within-Session Changes in Ground Reaction Force Symmetry
Zeitfenster: Baseline (Week 0) and weekly during the 12 training sessions across each 4-week intervention period.
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Force symmetry evaluated using the peak vertical ground reaction force ratio between the paretic and non-paretic limbs, measured via the exoskeleton's instrumented insoles and/or force plates.
This evaluates the immediate impact of the control framework on weight-bearing symmetry.
Data are expressed as a dimensionless ratio, where a value of 1.0 indicates perfect symmetry between limbs.
Force is measured in units of Newtons.
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Baseline (Week 0) and weekly during the 12 training sessions across each 4-week intervention period.
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Acute Within-Session Changes in Joint Range of Motion
Zeitfenster: Baseline (Week 0) and weekly during the 12 training sessions across each 4-week intervention period.
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Measurement of the peak angular displacement of the knee, hip and ankle joints (in degrees) during the sagittal plane gait cycle, captured by the exoskeleton's onboard joint encoders and/or a motion capture system.
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Baseline (Week 0) and weekly during the 12 training sessions across each 4-week intervention period.
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Mitarbeiter und Ermittler
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Sponsor
Studienaufzeichnungsdaten
Diese Daten verfolgen den Fortschritt der Übermittlung von Studienaufzeichnungen und zusammenfassenden Ergebnissen an ClinicalTrials.gov. Studienaufzeichnungen und gemeldete Ergebnisse werden von der National Library of Medicine (NLM) überprüft, um sicherzustellen, dass sie bestimmten Qualitätskontrollstandards entsprechen, bevor sie auf der öffentlichen Website veröffentlicht werden.
Haupttermine studieren
Studienbeginn (Geschätzt)
1. Oktober 2026
Primärer Abschluss (Geschätzt)
31. Dezember 2027
Studienabschluss (Geschätzt)
31. Dezember 2027
Studienanmeldedaten
Zuerst eingereicht
19. Mai 2026
Zuerst eingereicht, das die QC-Kriterien erfüllt hat
27. Mai 2026
Zuerst gepostet (Tatsächlich)
1. Juni 2026
Studienaufzeichnungsaktualisierungen
Letztes Update gepostet (Tatsächlich)
1. Juni 2026
Letztes eingereichtes Update, das die QC-Kriterien erfüllt
27. Mai 2026
Zuletzt verifiziert
1. Mai 2026
Mehr Informationen
Begriffe im Zusammenhang mit dieser Studie
Zusätzliche relevante MeSH-Bedingungen
Andere Studien-ID-Nummern
- HUM00287262
Arzneimittel- und Geräteinformationen, Studienunterlagen
Studiert ein von der US-amerikanischen FDA reguliertes Arzneimittelprodukt
Nein
Studiert ein von der US-amerikanischen FDA reguliertes Geräteprodukt
Ja
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