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Design and fast-fabrication of a system for functional electrical stimulation in upper limb of people with tetraplegia

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Autor(es):
Ventura, Anelise ; Bataglia, Joao Marcos Peron ; Ginja, Gabriel ; Varoto, Renato ; Cliquet, Alberto, Jr.
Número total de Autores: 5
Tipo de documento: Artigo Científico
Fonte: SPINAL CORD SERIES AND CASES; v. 8, n. 1, p. 7-pg., 2022-05-14.
Resumo

STUDY DESIGN: Proof of concept. OBJECTIVES: Standard Functional Electrical Stimulation (FES) systems can enhance motor learning in people with tetraplegia and are widely delivered by self-adhesive electrodes. Their limitations are dexterity, specific knowledge to place the electrodes on muscles, need to fix electrodes when they lose the gel layer, and time. We designed a new FES system, using an existing protocol of drinking-like movements, to the upper limb of a person with tetraplegia C5 that fits in any anthropometry and can be easily produced. Furthermore, we tested the system to assess its effectiveness and users' perception during FES rehabilitation. Setting Sao Carlos, SP, Brazil. METHODS: A shell was designed with parametric design and fast-fabrication methods, and a stimulation unit and a smartphone application were developed. Questionnaires assessed the perceptions of a patient and a physiotherapist, about the usability of the new system in relation to standard FES. Kinematic data of drinking-like movements were collected from the patient wearing both systems and compared with data from an aged-matched control subject. RESULTS: The results are a personalized shell and an intuitive FES system, overcoming the limitations of standard FES. The new system suggested better wrist-flexion control shown by the mean angles (-18.93 degrees), then the other system (-59.35 degrees), and compared with the control (-10.97 degrees). CONCLUSIONS: Fast-fabrication with parametric design offers a promising alternative for personalizing FES systems, with potential for home use. Further studies are required including randomized clinical trials. (AU)

Processo FAPESP: 17/06147-4 - Aquisição de dados na avaliação clínica e modelagem biomecânica com inovações tecnológicas buscando a restauração de movimentos e o desempenho esportivo para pessoas com deficiências
Beneficiário:Alberto Cliquet Junior
Modalidade de apoio: Auxílio à Pesquisa - Programa Equipamentos Multiusuários
Processo FAPESP: 16/50253-0 - Aquisição de dados na avaliação clínica e modelagem biomecânica com inovações tecnológicas buscando a restauração de movimentos e o desempenho esportivo para pessoas com deficiências
Beneficiário:Alberto Cliquet Junior
Modalidade de apoio: Auxílio à Pesquisa - Temático