M M Wiedemeijer1, E Otten2. 1. Center for Human Movement Sciences, University Medical Center Groningen, Groningen, The Netherlands. Electronic address: mickey.wiedemeijer@gmail.com. 2. Center for Human Movement Sciences, University Medical Center Groningen, Groningen, The Netherlands.
Abstract
BACKGROUND: Walking in high heels (HH) may alter gait in various ways, which may be of importance to designers and physicians. RESEARCH QUESTION: How does walking in high heels alter gait and how can this be explained from a biomechanical and control point of view. METHODS: Relevant literature has been collected in which high heeled walking was studied, after which the results were bundled and interpreted in a framework of biomechanics and control. RESULTS: Major changes were found in the rollover function of the feet, the ankle and knee joints and the lower back, while step length and balance were compromised. An increase in heel height forces the foot in an increased plantar flexion, which in its turn increases knee flexion and lordosis of the lower back. All changes can be related with each other in a plausible pattern of movement and control.
BACKGROUND: Walking in high heels (HH) may alter gait in various ways, which may be of importance to designers and physicians. RESEARCH QUESTION: How does walking in high heels alter gait and how can this be explained from a biomechanical and control point of view. METHODS: Relevant literature has been collected in which high heeled walking was studied, after which the results were bundled and interpreted in a framework of biomechanics and control. RESULTS: Major changes were found in the rollover function of the feet, the ankle and knee joints and the lower back, while step length and balance were compromised. An increase in heel height forces the foot in an increased plantar flexion, which in its turn increases knee flexion and lordosis of the lower back. All changes can be related with each other in a plausible pattern of movement and control.
Authors: Grazia Maugeri; Velia D'Agata; Federico Roggio; Cristina Cortis; Andrea Fusco; Carl Foster; Mark M Mañago; Michael O Harris-Love; Veronica Vleck; Maria Francesca Piacentini; Giuseppe Musumeci Journal: J Funct Morphol Kinesiol Date: 2020-07-18