Impact Accelerations of Barefoot and Shod Running

M. Thompson; J. Seegmiller; C. P. McGowan

doi:10.1055/s-0035-1569344

International Journal of Sports Medicine, Table of Contents

Int J Sports Med 2016; 37(05): 364-368
DOI: 10.1055/s-0035-1569344

Orthopedics & Biomechanics

Impact Accelerations of Barefoot and Shod Running

M. Thompson

¹Fort Lewis College, Exercise Science, Durango, United States

,

J. Seegmiller

²WWAMI Medical Education, University of Idaho, Moscow, United States

,

C. P. McGowan

³WWAMI Medical Education Program, University of Idaho, Moscow, United States

› Author Affiliations

Abstract

During the ground contact phase of running, the body’s mass is rapidly decelerated resulting in forces that propagate through the musculoskeletal system. The repetitive attenuation of these impact forces is thought to contribute to overuse injuries. Modern running shoes are designed to reduce impact forces, with the goal to minimize running related overuse injuries. Additionally, the fore/mid foot strike pattern that is adopted by most individuals when running barefoot may reduce impact force transmission. The aim of the present study was to compare the effects of the barefoot running form (fore/mid foot strike & decreased stride length) and running shoes on running kinetics and impact accelerations. 10 healthy, physically active, heel strike runners ran in 3 conditions: shod, barefoot and barefoot while heel striking, during which 3-dimensional motion analysis, ground reaction force and accelerometer data were collected. Shod running was associated with increased ground reaction force and impact peak magnitudes, but decreased impact accelerations, suggesting that the midsole of running shoes helps to attenuate impact forces. Barefoot running exhibited a similar decrease in impact accelerations, as well as decreased impact peak magnitude, which appears to be due to a decrease in stride length and/or a more plantarflexed position at ground contact.

Key words

biomechanics - locomotion - heel strike - running - footstrike - impact

Full Text

References

References
1 Altman AR, Davis IS. A kinematic method for footstrike pattern detection in barefoot and shod runners. Gait Posture 2012; 35: 298-300
2 Altman AR, Davis IS. Barefoot running: biomechanics and implications for running injuries. Curr Sports Med Rep 2012; 11: 244-250
3 Bertelsen ML, Jensen JF, Nielsen MH, Nielsen RO, Rasmussen S. Footstrike patterns among novice runners wearing a conventional, neutral running shoe. Gait Posture 2013; 38: 354-356
4 Bobbert MF, Schamhardt HC, Nigg BN. Calculation of vertical ground reaction force estimates during running from positional data. J Biomech 1991; 24: 1095-1105
5 Bramble DM, Lieberman DD. Endurance running and the evolution of Homo. Nature 2004; 432: 345-352
6 Caspersen CJ, Powell KE, Koplan JP, Shirley RW, Campbell CC, Sikes RK. The incidence of injuries and hazards in recreational and fitness runners. Med Sci Sports Exerc 1984; 16: 113-114
7 Chi KJ, Schmitt D. Impacts and kinematic adjustments during an exhaustive run. J Biomech 2005; 38: 1387-1395
8 Denoth J. Load on the locomotor system and modelling. In Nigg (ed.) Biomechanics of Running Shoes. Champaign: Human Kinetics; 1986: 63-116
9 Derrick TR, Dereu D, McLean SP. Impacts and kinematic adjustments during an exhaustive run. Med Sci Sports Exerc 2002; 34: 998-1002
10 Derrick TR, Hamill J, Caldwell GE. Energy absorption of impacts during running at various stride lengths. Med Sci Sports Exerc 1998; 30: 128-135
11 Derrick TR. The effects of knee contact angle on impact forces and accelerations. Med Sci Sports Exerc 2004; 36: 832-837
12 Hamill J, Derrick T, Holt K. Shock attenuation and stride frequency during running. Hum Movement Sci 1995; 14: 45-60
13 Harriss DJ, Atkinson G. Ethical standards in sport and exercise science research: 2016 update. Int J Sports Med. 2015 36. 1121-1124
14 Johnston C, Taunton J, Lloyd-Smith D, McKenzie D. Preventing running injuries. Practical approach for family doctors. Can Fam Physician 2003; 49: 1101-1109
15 Kadaba MP, Ramakrishnan HK, Wootten ME. Measurement of lower extremity kinematics during level walking. J Orthopaed Res 1990; 8: 383-392
16 Lafortune MA. Three-dimensional acceleration of the tibia during walking and running. J Biomech 1991; 24: 877-886
17 Lieberman DE, Venkadesan M, Werbel WA, Daoud AI, D’Andrea S, Davis IS, Mang’Eni RO, Pitsiladis Y. Foot strike patterns and collision forces in habitually barefoot versus shod runners. Nature 2010; 463: 531-535
18 Lieberman DE. What we can learn about running from barefoot running: An evolutionary medical perspective. Exerc Sport Sci Rev 2012; 40: 63-72
19 Lysholm J, Wiklander J. Injuries in runners. Am J Sports Med 1987; 15: 168-171
20 McNair PJ, Marshall RN. Kinematic and kinetic parameters associated with running in different shoes. Br J Sports Med 1994; 28: 256-260
21 Milner CE, Ferber R, Pollard CD, Hamill J, Davis IS. Biomechanical factors associated with tibial stress fracture in female runners. Med Sci Sports Exerc 2006; 38: 323-328
22 Mizrahi J, Verbitsky O, Isakov E, Daily D. Effect of fatigue on leg kinematics and impact acceleration in long distance running. Hum Movement Sci 2000; 19: 139-151
23 Nigg BM, Cole GK, Bruggemann GP. Impact forces during heel-toe running. J Appl Biomech 1995; 11: 407-432
24 Nigg BM, Liu W. The effect of muscle stiffness and damping on simulated impact force peaks during running. J Biomech 1999; 32: 849-856
25 Pain MTG, Challis JH. The role of the heel pad and shank soft tissue during impacts: a further resolution of a paradox. J Biomech 2001; 34: 327-333
26 Pohl M, Hamill J, Davis I. Biomechanical and anatomic factors associated with a history of plantar fasciitis in female runners. Clin J Sports Med 2009; 19: 372-376
27 Richards CE, Magin PJ, Callister R. Is your prescription of distance running shoes evidence based?. Br J Sports Med 2009; 43: 159-162
28 Robbins SE, Hanna AM. Running-related injury prevention through barefoot adaptations. Med Sci Sports Exerc 1987; 19: 148-156
29 Verbitsky O, Mizrahi J, Voloshin A, Treiger J, Isakov E. Shock transmission and fatigue in human running. J Appl Biomech 1998; 14: 301-311
30 Voloshin A, Mizrahi J, Verbitsky O, Isakov E. Dynamic loading on the human musculoskeletal system – effect of fatigue. Clin Biomech 1998; 13: 515-520
31 Voloshin A, Wosk J, Brull M. Force wave transmission through the human locomotor system. J Biomech Eng 1981; 103: 48-50
32 Wright IC, Neptune RR, van den Bogert AJ, Nigg BM. Passive regulation of impact forces in heel-toe running. Clin Biomech 1998; 13: 521-531
33 Yan AF, Sinclair PJ, Hiller C, Wegener C, Smith RM. Impact attenuation during weight bearing activities in barefoot vs. shod conditions: A systematic review. Gait Posture 2012; 38: 175-186
34 Yeung SS, Yeung EW, Gillespie LD. Interventions for preventing lower limb soft-tissue running injuries. Cochrane Database of Systematic Reviews 2011; Art. No.: CD001256