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Potential Use of Wearable Inertial Sensors to Assess and Train Deep Cervical Flexors: A Feasibility Study with Real Time Synchronization of Kinematic and Pressure Data during the Craniocervical Flexion Test


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Título : Potential Use of Wearable Inertial Sensors to Assess and Train Deep Cervical Flexors: A Feasibility Study with Real Time Synchronization of Kinematic and Pressure Data during the Craniocervical Flexion Test
Autor : Bocos Corredor, Elena
Pérez Fernández, Tomás
Perez Domínguez, Raquel
Liébana Sánchez-Toscano, Sonia
Armijo Olivo, Susan
Raya López, Rafael
Martin-Pintado Zugasti, Aitor
Materias: Assessment technologyBiomechanics feasibility studiesMovement disordersNeck pain
Editorial : MDPI
Citación : Bocos-Corredor E, Pérez-Fernández T, Perez-Dominguez R, Liébana S, Armijo-Olivo S, Raya R, Martin-Pintado-Zugasti A. Potential Use of Wearable Inertial Sensors to Assess and Train Deep Cervical Flexors: A Feasibility Study with Real Time Synchronization of Kinematic and Pressure Data during the Craniocervical Flexion Test. Sensors (Basel). 2023 Apr 12;23(8):3911. doi: 10.3390/s23083911. PMID: 37112252; PMCID: PMC10141233.
Resumen : The aim of the study was to develop a novel real-time, computer-based synchronization system to continuously record pressure and craniocervical flexion ROM (range of motion) during the CCFT (craniocervical flexion test) in order to assess its feasibility for measuring and discriminating the values of ROM between different pressure levels. This was a descriptive, observational, crosssectional, feasibility study. Participants performed a full-range craniocervical flexion and the CCFT. During the CCFT, a pressure sensor and a wireless inertial sensor simultaneously registered data of pressure and ROM. A web application was developed using HTML and NodeJS technologies. Forty-five participants successfully finished the study protocol (20 males, 25 females; 32 (11.48) years). ANOVAs showed large effect significant interactions between pressure levels and the percentage of full craniocervical flexion ROM when considering the 6 pressure reference levels of the CCFT (p < 0.001; 2 = 0.697), 11 pressure levels separated by 1 mmHg (p < 0.001; 2 = 0.683), and 21 pressure levels separated by 0.5 mmHg (p < 0.001; 2 = 0.671). The novel time synchronizing system seems a feasible option to provide real-time monitoring of both pressure and ROM, which could serve as reference targets to further investigate the potential use of inertial sensor technology to assess or train deep cervical flexors.
URI : http://hdl.handle.net/10637/14927
Derechos: http://creativecommons.org/licenses/by/4.0/deed.es
ISSN : 1424-8220
Fecha de publicación : 12-abr-2023
Centro : Universidad San Pablo-CEU
Aparece en las colecciones: Fisioterapia





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