Modularity Implications of an Overground Exoskeleton on Plantar Pressures, Strength, and Spasticity in Persons with Acquired Brain Injury
Carlos Cumplido-Trasmonte,
Eva Barquín-Santos,
María Dolores Gor-García-Fogeda,
Alberto Plaza-Flores,
David García-Varela,
Leticia Ibáñez-Herrán,
Carlos Alted-González,
Paola Díaz-Valles,
Cristina López-Pascua,
Arantxa Castrillo-Calvillo,
Francisco Molina-Rueda,
Roemi Fernández,
Elena García-Armada
Affiliations
Carlos Cumplido-Trasmonte
International Doctoral School, Rey Juan Carlos University, 28922 Madrid, Spain
Eva Barquín-Santos
Marsi Bionics SL, 28521 Madrid, Spain
María Dolores Gor-García-Fogeda
Marsi Bionics SL, 28521 Madrid, Spain
Alberto Plaza-Flores
Marsi Bionics SL, 28521 Madrid, Spain
David García-Varela
Marsi Bionics SL, 28521 Madrid, Spain
Leticia Ibáñez-Herrán
Marsi Bionics SL, 28521 Madrid, Spain
Carlos Alted-González
Spanish National Reference Centre for Brain Injury (CEADAC), 28034 Madrid, Spain
Paola Díaz-Valles
Spanish National Reference Centre for Brain Injury (CEADAC), 28034 Madrid, Spain
Cristina López-Pascua
Centro Lescer, 28035 Madrid, Spain
Arantxa Castrillo-Calvillo
Centro Lescer, 28035 Madrid, Spain
Francisco Molina-Rueda
Department of Physical Therapy, Occupational Therapy, Rehabilitation and Physical Medicine, Faculty of Health Sciences, Rey Juan Carlos University, 28922 Madrid, Spain
Roemi Fernández
Centre for Automation and Robotics (CAR), CSIC-UPM, Ctra. Campo Real km 0.2–La Poveda-Arganda del Rey, 28500 Madrid, Spain
This study explored the effects of a modular overground exoskeleton on plantar pressure distribution in healthy individuals and individuals with Acquired Brain Injury (ABI). The research involved 21 participants, including ABI patients and healthy controls, who used a unique exoskeleton with adaptable modular configurations. The primary objective was to assess how these configurations, along with factors such as muscle strength and spasticity, influenced plantar pressure distribution. The results revealed significant differences in plantar pressures among participants, strongly influenced by the exoskeleton’s modularity. Notably, significant distinctions were found between ABI patients and healthy individuals. Configurations with two modules led to increased pressure in the heel and central metatarsus regions, whereas configurations with four modules exhibited higher pressures in the metatarsus and hallux regions. Future research should focus on refining and customizing rehabilitation technologies to meet the diverse needs of ABI patients, enhancing their potential for functional recovery.
