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Neuromuscular and mobility responses to a vibration session in hypoxia in multiple sclerosis

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Neuromuscular and mobility responses to a vibration session in hypoxia in multiple sclerosis

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dc.contributor.author Andreu Caravaca, Luis
dc.contributor.author Chung, Linda H.
dc.contributor.author Ramos Campo, Domingo J.
dc.contributor.author Marín Cascales, Elena
dc.contributor.author Encarnación Martínez, Alberto
dc.contributor.author Rubio Arias, Jacobo A.
dc.date.accessioned 2020-10-23T17:50:15Z
dc.date.available 2020-10-23T17:50:15Z
dc.date.issued 2020
dc.identifier.citation Andreu Caravaca, Luis Chung, Linda H. Ramos Campo, Domingo J. Marín Cascales, Elena Encarnación Martínez, Alberto Rubio Arias, Jacobo A. 2020 Neuromuscular and mobility responses to a vibration session in hypoxia in multiple sclerosis International Journal of Sports Medicine
dc.identifier.uri https://hdl.handle.net/10550/76078
dc.description.abstract The aim of this study was to investigate the acute effects of vibration training (WBVT) under hypoxic and normoxic conditions on the voluntary rate of force development (RFD), balance and muscle oxygen saturation (SMO2) in persons with Multiple Sclerosis (MS). 10 participants completed the study (30 % males, 44.4±7.7 years, 164.3±8.9cm, 65.2±11.1kg, 2.5±1.3 Expanded Disability Status Scale, 24.1± 4.0 kg.m− 2 BMI). Maximal force, RFD during isometric knee extension, static balance with eyes open and closed and sit-to-stand test were evaluated before and immediately after one session of WBVT (12 60-s bout of vibration; frequency 35Hz; amplitude 4mm; 1-min rest intervals) under both normoxic and hypoxic conditions. In addition, SMO2 of the gastrocnemius lateralis was assessed during each condition. No changes were found in force, static balance and sit-to-stand test. Time-to-peak RFD increased in the left leg (p = 0.02) and tended to increase in the right leg (p = 0.06) after the hypoxic session. SMO2 resulted in significant increases from the initial to final intervals of the WBVT under both hypoxic and normoxic conditions (p < 0.05). Increases in SMO2 during WBVT demonstrates muscle work that may contribute to the observed muscle adaptations in long-term WBVT programs without inducing decreases in neuromuscular activation, physical function and balance within a session.
dc.language.iso eng
dc.relation.ispartof International Journal of Sports Medicine, 2020
dc.subject Educació física
dc.subject Esports
dc.title Neuromuscular and mobility responses to a vibration session in hypoxia in multiple sclerosis
dc.type journal article es_ES
dc.date.updated 2020-10-23T17:50:15Z
dc.identifier.doi 10.1055/a-1273-8304
dc.identifier.idgrec 141002
dc.rights.accessRights open access es_ES

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