Inke Marie Albertsen1, Mouna Ghédira2, Jean-Michel Gracies2, Émilie Hutin2. 1. Laboratoire Analyse et Restauration du Mouvement (ARM), Bioingénierie, Tissus et Neuroplasticité (BIOTN), EA 7377, Hôpitaux Universitaires Henri Mondor, Assistance Publique des Hôpitaux de Paris (AP-HP), Université Paris-Est Créteil (UPEC), France; Altonaer Kinderkrankenhaus gGmbH, Ganglabor, Bleickenallee 38, Hamburg 22763, Germany. Electronic address: inkemarie.albertsen@gmx.de. 2. Laboratoire Analyse et Restauration du Mouvement (ARM), Bioingénierie, Tissus et Neuroplasticité (BIOTN), EA 7377, Hôpitaux Universitaires Henri Mondor, Assistance Publique des Hôpitaux de Paris (AP-HP), Université Paris-Est Créteil (UPEC), France.
Abstract
OBJECTIVE: To provide normative postural stability data in young subjects. METHODS: Ninety-six healthy participants (58W, 28±6y) stood on a force plate during 60s. We measured effects of support width (feet apart, FA; feet together, FT), vision (eyes open, EO; closed, EC), and cognitive load (single task, ST; dual tasking, DT) on anteroposterior (AP) and medio-lateral (ML) ranges, area and planar velocity of center of pressure (COP) trajectory. RESULTS: All variables increased with FT (AP range, +15%; ML, +185%; area, +242%; velocity, +50%, p<0.0002 for all, MANOVA). Visual deprivation increased COP ranges with added constraints (FT or DT, p=0.002) and increased velocity in all conditions (FA/ST, +16%; DT, +18%; FT/ST, +29%; DT, +23%, p<0.0002 for all). Dual tasking reduced COP displacements with FT (AP range, EO, -15%; EC, -11%; ML range, EO, -19%; EC, -13%; area, EO, -40%; EC, -28%, p<0.0002 for all) and increased velocity in most conditions (FA/EO, +15%; FA/EC, +16%; FT/EO, +7%, p<0.0002 for all). CONCLUSION: In young healthy adults, base of support reduction increases COP displacements. Vision particularly affects postural stability with feet together or dual tasking. Dual tasking increases velocity but decreases COP displacements in challenging postural tasks, potentially by enhanced lower limb stiffness.
OBJECTIVE: To provide normative postural stability data in young subjects. METHODS: Ninety-six healthy participants (58W, 28±6y) stood on a force plate during 60s. We measured effects of support width (feet apart, FA; feet together, FT), vision (eyes open, EO; closed, EC), and cognitive load (single task, ST; dual tasking, DT) on anteroposterior (AP) and medio-lateral (ML) ranges, area and planar velocity of center of pressure (COP) trajectory. RESULTS: All variables increased with FT (AP range, +15%; ML, +185%; area, +242%; velocity, +50%, p<0.0002 for all, MANOVA). Visual deprivation increased COP ranges with added constraints (FT or DT, p=0.002) and increased velocity in all conditions (FA/ST, +16%; DT, +18%; FT/ST, +29%; DT, +23%, p<0.0002 for all). Dual tasking reduced COP displacements with FT (AP range, EO, -15%; EC, -11%; ML range, EO, -19%; EC, -13%; area, EO, -40%; EC, -28%, p<0.0002 for all) and increased velocity in most conditions (FA/EO, +15%; FA/EC, +16%; FT/EO, +7%, p<0.0002 for all). CONCLUSION: In young healthy adults, base of support reduction increases COP displacements. Vision particularly affects postural stability with feet together or dual tasking. Dual tasking increases velocity but decreases COP displacements in challenging postural tasks, potentially by enhanced lower limb stiffness.
Authors: Koen Andre Horstink; Lucas Henricus Vincentius van der Woude; Juha Markus Hijmans Journal: Rev Endocr Metab Disord Date: 2021-01-16 Impact factor: 6.514
Authors: Andrea Tigrini; Federica Verdini; Marco Maiolatesi; Andrea Monteriù; Francesco Ferracuti; Sandro Fioretti; Sauro Longhi; Alessandro Mengarelli Journal: Front Bioeng Biotechnol Date: 2022-01-21