TY - GEN
T1 - Flat-Footed Subjects
T2 - 10th Congress of the Portuguese Society of Biomechanics, CNB 2023
AU - Marouvo, Joel
AU - Azevedo, Nelson
AU - Sousa, Filipa
AU - Fernandes, Orlando
AU - Castro, Maria António
N1 - Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2023.
PY - 2023
Y1 - 2023
N2 - Through an exploration of disparities in the Center of Pressure relative to different foot postures, we can gain insights into the impact of specific foot positions, like flat-footedness or a neutral foot stance, on the control of posture. This understanding aids in unraveling the biomechanical processes that underscore the connections between foot posture and body alignment. Thus, this study investigates variations in the Center of Pressure between individuals with flat and neutral foot postures using the technique of Correlation Dimension analysis. The participant pool consisted of 31 individuals with an average age of 23.26 years ± 4.43. Exclusion criteria encompassed recent ankle sprains, prior ankle injuries or therapy, ankle-related bone fractures, and surgeries or injuries involving the spine, hip, knee, or ankle. Prior to posture assessment, participants underwent screening utilizing the Navicular Drop Test and the Resting Calcaneal Stance Position test, which categorized them into distinct groups. Among these, 15 were assigned to the experimental group, displaying bilateral flatfoot conditions, while the remaining 16 constituted the control group, characterized by bilateral neutral foot postures. All participants underwent analysis of bipedal weight-bearing stances on a force platform, both with eyes open and closed. Subsequently, the Correlation Dimension was computed. The outcomes indicated no statistically significant distinctions (p > 0.05), either in the antero-posterior or mediolateral dimensions, and this remained consistent irrespective of eye condition. These findings imply that postural stability is upheld in both groups through the holistic integration of the kinetic and kinematic chains, rather than relying solely on the foot or ankle.
AB - Through an exploration of disparities in the Center of Pressure relative to different foot postures, we can gain insights into the impact of specific foot positions, like flat-footedness or a neutral foot stance, on the control of posture. This understanding aids in unraveling the biomechanical processes that underscore the connections between foot posture and body alignment. Thus, this study investigates variations in the Center of Pressure between individuals with flat and neutral foot postures using the technique of Correlation Dimension analysis. The participant pool consisted of 31 individuals with an average age of 23.26 years ± 4.43. Exclusion criteria encompassed recent ankle sprains, prior ankle injuries or therapy, ankle-related bone fractures, and surgeries or injuries involving the spine, hip, knee, or ankle. Prior to posture assessment, participants underwent screening utilizing the Navicular Drop Test and the Resting Calcaneal Stance Position test, which categorized them into distinct groups. Among these, 15 were assigned to the experimental group, displaying bilateral flatfoot conditions, while the remaining 16 constituted the control group, characterized by bilateral neutral foot postures. All participants underwent analysis of bipedal weight-bearing stances on a force platform, both with eyes open and closed. Subsequently, the Correlation Dimension was computed. The outcomes indicated no statistically significant distinctions (p > 0.05), either in the antero-posterior or mediolateral dimensions, and this remained consistent irrespective of eye condition. These findings imply that postural stability is upheld in both groups through the holistic integration of the kinetic and kinematic chains, rather than relying solely on the foot or ankle.
KW - Correlation dimension
KW - Non-linear methods
KW - Postural stability
KW - Pronated foot
UR - http://www.scopus.com/inward/record.url?scp=85187666459&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-47790-4_52
DO - 10.1007/978-3-031-47790-4_52
M3 - Conference contribution
AN - SCOPUS:85187666459
SN - 9783031477898
T3 - Lecture Notes in Bioengineering
SP - 533
EP - 541
BT - Proceedings of the 10th Congress of the Portuguese Society of Biomechanics, CNB 2023
A2 - Martins Amaro, Ana
A2 - Roseiro, Luis
A2 - Messias, Ana Lúcia
A2 - Gomes, Beatriz
A2 - Almeida, Henrique
A2 - António Castro, Maria
A2 - António Castro, Maria
A2 - Neto, Maria Augusta
A2 - de Fátima Paulino, Maria
A2 - Maranha, Vítor
PB - Springer Science and Business Media Deutschland GmbH
Y2 - 5 May 2023 through 6 May 2023
ER -