Comparing the effectiveness of robotic plantarflexion resistance and biofeedback between overground and treadmill walking.

Bowersock, Collin D; Lerner, Zachary F

Bowersock, Collin D; Lerner, Zachary F.

Afiliación

Bowersock CD; Department of Mechanical Engineering, Northern Arizona University, Flagstaff, AZ, United States. Electronic address: collin.bowersock@nau.edu.
Lerner ZF; Department of Mechanical Engineering, Northern Arizona University, Flagstaff, AZ, United States; College of Medicine - Phoenix, University of Arizona, Phoenix, AZ, United States. Electronic address: zachary.lerner@nau.edu.

J Biomech ; 175: 112282, 2024 Oct.

Article en En | MEDLINE | ID: mdl-39182263

ABSTRACT

ABSTRACT

Individuals with diminished walking performance caused by neuromuscular impairments often lack plantar flexion muscle activity. Robotic devices have been developed to address these issues and increase walking performance. While these devices have shown promise in their ability to increase musculature engagement of the lower limbs when used on a treadmill, most have not been developed or validated for overground walking and community use. Overground walking may limit the effectiveness of robotic devices due to differences in gait characteristics between walking terrains and reduced user engagement. The purpose of this study was to validate our multimodal robotic gait training system for overground walking in individuals with neuromuscular gait impairments. This untethered wearable robotic device can provide an ankle resistive torque proportional to the users' biological ankle torque. The device can also provide audio biofeedback based on users' plantar pressure intending to increase ankle power and muscle activity of the plantar flexors. Seven individuals with cerebral palsy participated. Participants walked overground and on a treadmill with our robotic gait training system in a single testing session. Results showed all seven participants to increase peak plantar flexor muscle activity, 10.3% on average, when walking with the gait trainer overground compared to treadmill. When compared to typical baseline overground walking, overground gait trainer use caused individuals to have slightly less knee joint excursion (3°) and moderately more ankle joint excursion (7°). This work supports our vision of using the wearable robotic device as a gait aid and rehabilitation tool in the home and community settings.

Asunto(s)

Robótica; Caminata; Humanos; Masculino; Caminata/fisiología; Femenino; Robótica/instrumentación; Robótica/métodos; Biorretroalimentación Psicológica/métodos; Biorretroalimentación Psicológica/instrumentación; Adulto; Articulación del Tobillo/fisiología; Articulación del Tobillo/fisiopatología; Marcha/fisiología; Parálisis Cerebral/fisiopatología; Parálisis Cerebral/rehabilitación; Músculo Esquelético/fisiología; Músculo Esquelético/fisiopatología; Tobillo/fisiología; Adolescente; Trastornos Neurológicos de la Marcha/rehabilitación; Trastornos Neurológicos de la Marcha/fisiopatología; Adulto Joven; Fenómenos Biomecánicos; Prueba de Esfuerzo/métodos

Palabras clave

Exoskeleton; Plantar pressure biofeedback; Resistive gait training

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Robótica / Caminata Límite: Adolescent / Adult / Female / Humans / Male Idioma: En Revista: J Biomech Año: 2024 Tipo del documento: Article Pais de publicación: Estados Unidos

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