Biomechanical considerations on barefoot movement and barefoot shoe concepts

The purpose of this paper is to discuss biomechanical considerations related to ‘barefoot running’ and ‘barefoot shoes’. Biomechanical differences include increases in external force loading rate, higher tibial acceleration, flatter foot placement, higher ankle joint stiffness and earlier EMG intensity for the tibialis anterior. There is indirect evidence that barefoot training strengthens small and large muscles crossing the ankle joint. Furthermore, there is evidence that barefoot running has energetic advantages over shod running. There is, however, no evidence that barefoot running would have more or less injuries than shod running. ‘Barefoot shoes’ include (a) the ‘Feet You Wear’ concept where the shape of the foot is mimicked, (b) the Nike Free concept where the kinematics of barefoot running are mimicked, and (c) the MBT (Masai Barefoot Technology) concept where the feeling of barefoot walking and/or running is mimicked. These shoes are based on very different conceptual ideas. However, all of them seem to provide a benefit to the athlete, independent on whether they are based on copying the shape of the human foot, the movement during barefoot running or the feeling of barefoot movement on soft ground. The name ‘barefoot shoes’ is a contradiction in terms. A shoe condition is not a barefoot condition. The discussed ‘barefoot shoes’ typically take one aspect of barefoot and implement it into a shoe. To assume that these shoes correspond to barefoot running or moving is not appropriate and the name ‘barefoot shoes’ may well be more a marketing strategy than a functional name.

[1]  B. Rowe,et al.  Effectiveness of a home-based balance-training program in reducing sports-related injuries among healthy adolescents: a cluster randomized controlled trial , 2005, Canadian Medical Association Journal.

[2]  Mitsumasa Miyashita,et al.  Art and/or Science(5)シュ-ズ製造--Effects of Shoe Weight on Oxygen Uptake during Submaximal Running , 1998 .

[3]  Dirk De Clercq,et al.  Timing of Lower Extremity Motions during Barefoot and Shod Running at Three Velocities , 2000 .

[4]  A. J. van den Bogert,et al.  Tibiocalcaneal kinematics of barefoot versus shod running. , 2000, Journal of biomechanics.

[5]  Peter M. Vogt,et al.  Acute and Overuse Injuries Correlated to Hours of Training in Master Running Athletes , 2008, Foot & ankle international.

[6]  A. Hanna,et al.  Running-related injury prevention through barefoot adaptations. , 1987, Medicine and science in sports and exercise.

[7]  P J McNair,et al.  Kinematic and kinetic parameters associated with running in different shoes. , 1994, British journal of sports medicine.

[8]  Willem H Meeuwisse,et al.  Rates and Risks of Injury during Intercollegiate Basketball , 2003, The American journal of sports medicine.

[9]  Benno M Nigg,et al.  Unstable shoe construction and reduction of pain in osteoarthritis patients. , 2006, Medicine and science in sports and exercise.

[10]  Brian H. Rowe,et al.  (2) EFFECTIVENESS OF A PROPRIOCEPTIVE BALANCE TRAINING PROGRAM IN HEALTHY ADOLESCENTS: A CLUSTER RANDOMIZED CONTROLLED TRIAL , 2004 .

[11]  D. Brunt,et al.  Athletic footwear, leg stiffness, and running kinematics. , 2006, Journal of athletic training.

[12]  T. E. Clarke,et al.  Biomechanical measurement of running shoe cushioning properties , 1983 .

[13]  Robert F. Flaherty Running economy and kinematic differences among running with the foot shod, with the foot bare, and with the bare foot equated for weight , 1994 .

[14]  Wolfgang Potthast,et al.  Changes in mophology and function of toe flexor muscles are related to training footwear , 2005 .

[15]  Brigit De Wit,et al.  Biomechanical analysis of the stance phase during barefoot and shod running. , 2000, Journal of biomechanics.

[16]  B. Nigg,et al.  Changes in EMG signals for the muscle tibialis anterior while running barefoot or with shoes resolved by non-linearly scaled wavelets. , 2003, Journal of biomechanics.

[17]  K. R. Williams,et al.  The effect of stride length variation on oxygen uptake during distance running. , 1982, Medicine and science in sports and exercise.

[18]  P Webb,et al.  The work of walking: a calorimetric study. , 1988, Medicine and science in sports and exercise.