Digital biomechanical assessment of gait in patients with peripheral neuropathies

Background: The clinical status and treatment response of patients with peripheral neuropathies (PNs) rely on subjective and inaccurate clinical scales. Wearable sensors have been evaluated successfully in other neurological conditions to study gait and balance. Our aim was to explore the ability of...

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Detalles Bibliográficos
Autores: Tejada-Illa, Clara|||0009-0008-2856-7179, Pegueroles, Jordi|||0000-0002-3554-2446, Vidal-Fernández, Núria|||0009-0008-3749-6448, Martín-Aguilar, Lorena|||0000-0002-1553-2224, Caballero-Ávila, Marta|||0000-0001-9850-8504, Lleixà, Cinta|||0000-0002-9971-0584, Collet Vidiella, Roger|||0000-0003-1668-1018, Llansó, Laura|||0000-0003-4950-7657, Carbayo Viejo, Álvaro|||0000-0001-9282-8603, Vesperinas-Castro, Ana|||0000-0003-1919-9382, Querol, Luis|||0000-0002-4289-8264, Pascual-Goñi, Elba|||0000-0001-7336-4305, Claramunt-Molet, Mireia, Pi-Cervera, Ariadna, Heras-Delgado, Ainhoa, Gascón-Fontal, Jesus, Idelsohn Zielonka, Sebastian, Rico, Mari
Tipo de recurso: artículo
Fecha de publicación:2025
País:España
Institución:Universitat Autònoma de Barcelona
Repositorio:Dipòsit Digital de Documents de la UAB
Idioma:inglés
OAI Identifier:oai:dnet:uabarcelona_::26035c7410348eb50845c086be284392
Acceso en línea:https://ddd.uab.cat/record/326787
https://dx.doi.org/urn:doi:10.1186/s12984-025-01694-w
Access Level:acceso abierto
Palabra clave:Ataxia
Biomechanical features
Gait disfunction
Neuropathies
Steppage
Wearable devices
Descripción
Sumario:Background: The clinical status and treatment response of patients with peripheral neuropathies (PNs) rely on subjective and inaccurate clinical scales. Wearable sensors have been evaluated successfully in other neurological conditions to study gait and balance. Our aim was to explore the ability of biomechanical analysis using wearable technology to monitor disease activity in PN. Methods: We conducted a single-center, longitudinal study to analyze gait parameters in PN patients and healthy controls using wearable biomechanical sensors. We used a novel technology that registers and integrates data from multiple wearable inertial sensors placed at different locations and plantar insoles. This system allows measuring kinematics, spatio-temporal parameters and plantar pressure. Patients wore the wearable system while performing the 2-min walking test (2MWT). Results: We included 37 chronic inflammatory demyelinating polyneuropathy (CIDP) patients, 3 chronic ataxic neuropathy, ophthalmoplegia, immunoglobulin M [IgM] paraprotein (CANOMAD) patients, 21 monoclonal gammopathy patients of undetermined significance associated with IgM (IgM-MGUS) patients, 7 patients with autoimmune nodopathies, 11 patients with hereditary neuropathies, and 50 healthy controls. First, we analyzed the sensor's ability to detect changes in ataxia and steppage gait severity and found significant differences in spatiotemporal and angular variables of the gait cycle. Second, we found correlations between biomechanical features and clinical scales and with the specific gait phenotype they associated with. Finally, we demonstrated that this technology is able to capture clinically significant changes in gait features over time. Conclusions: Our study provides proof-of-concept that wearable technology effectively detects and grades gait impairment, captures clinically relevant changes, and could enhance gait assessment in routine care and clinical research for patients with PN.