Joint kinetics in rearfoot versus forefoot running: implications of switching technique.

PURPOSE To better understand the mechanical factors differentiating forefoot and rearfoot strike (RFS) running, as well as the mechanical consequences of switching techniques, we assessed lower limb joint kinetics in habitual and imposed techniques in both groups. METHODS All participants performed both RFS and forefoot strike (FFS) techniques on an instrumented treadmill at 4.5 m·s while force and kinematic data were collected. RESULTS Total (sum of ankle, knee, and hip) lower limb work and average power did not differ between habitual RFS and FFS runners. However, moments, negative work and negative instantaneous and average power during stance were greater at the knee in RFS and at the ankle in FFS techniques. When habitual RFS runners switched to an imposed FFS, they were able to replicate the sagittal plane mechanics of a habitual FFS; however, the ankle internal rotation moment was increased by 33%, whereas the knee abduction moments were not reduced, remaining 48.5% higher than a habitual FFS. In addition, total positive and negative lower limb average power was increased by 17% and 9%, respectively. When habitual FFS runners switched to an imposed RFS, they were able to match the mechanics of habitual RFS runners with the exception of knee abduction moments, which remained 38% lower than a habitual RFS and, surprisingly, a reduction of total lower limb positive average power of 10.5%. CONCLUSIONS There appears to be no clear overall mechanical advantage of a habitual FFS or RFS. Switching techniques may have different injury implications given the altered distribution in loading between joints but should be weighed against the overall effects on limb mechanics; adopting an imposed RFS may prove the most beneficial given the absence of any clear mechanical performance decrements.

[1]  Caroline F. Finch,et al.  An Anterior Cruciate Ligament Injury Prevention Framework: Incorporating the Recent Evidence , 2012, Research in sports medicine.

[2]  K. Fields,et al.  Prevention of Running Injuries , 2010, Current sports medicine reports.

[3]  J. Avela,et al.  Forefoot strikers exhibit lower running-induced knee loading than rearfoot strikers. , 2013, Medicine and science in sports and exercise.

[4]  T. Fukunaga,et al.  In vivo behaviour of human muscle tendon during walking , 2001, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[5]  Johan Kärrholm,et al.  Hip and knee joint rotations differ between patients with medial and lateral knee osteoarthritis: Gait analysis of 30 patients and 15 controls , 2006, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[6]  Yo Shih,et al.  Is the foot striking pattern more important than barefoot or shod conditions in running? , 2013, Gait & posture.

[7]  G. Lichtwark,et al.  Muscle fascicle and series elastic element length changes along the length of the human gastrocnemius during walking and running. , 2007, Journal of biomechanics.

[8]  I. Davis,et al.  Foot strike patterns and collision forces in habitually barefoot versus shod runners , 2010, Nature.

[9]  P. Komi,et al.  Muscle-tendon interaction and elastic energy usage in human walking. , 2005, Journal of applied physiology.

[10]  Darren J. Stefanyshyn,et al.  Knee Angular Impulse as a Predictor of Patellofemoral Pain in Runners , 2006, The American journal of sports medicine.

[11]  S. Walter,et al.  The Ontario cohort study of running-related injuries. , 1989, Archives of internal medicine.

[12]  B. R. Umberger,et al.  Understanding Muscle Energetics in Locomotion: New Modeling and Experimental Approaches , 2011, Exercise and sport sciences reviews.

[13]  Antonie J van den Bogert,et al.  Effect of low pass filtering on joint moments from inverse dynamics: implications for injury prevention. , 2012, Journal of biomechanics.

[14]  W. Kraemer,et al.  FOOT STRIKE PATTERNS OF RUNNERS AT THE 15‐KM POINT DURING AN ELITE‐LEVEL HALF MARATHON , 2007, Journal of strength and conditioning research.

[15]  R. M. Alexander,et al.  Elastic mechanisms in animal movement , 1988 .

[16]  J. Duchateau,et al.  Muscle fatigue during concentric and eccentric contractions , 2000, Muscle & nerve.

[17]  Ba Kerr,et al.  Footstrike patterns in distance running , 1983 .

[18]  B. Koes,et al.  Incidence and determinants of lower extremity running injuries in long distance runners: a systematic review , 2007, British Journal of Sports Medicine.

[19]  Max R. Paquette,et al.  Acute effects of barefoot, minimal shoes and running shoes on lower limb mechanics in rear and forefoot strike runners , 2013 .

[20]  Juan García-López,et al.  Rearfoot striking runners are more economical than midfoot strikers. , 2014, Medicine and science in sports and exercise.

[21]  Jacqueline Alderson,et al.  Sports injury prevention: are we tilting at windmills? , 2012 .

[22]  P R Cavanagh,et al.  Ground reaction forces in distance running. , 1980, Journal of biomechanics.

[23]  Timothy R Derrick,et al.  Joint contact loading in forefoot and rearfoot strike patterns during running. , 2013, Journal of biomechanics.

[24]  K. Jackson,et al.  Predicting lower-extremity injuries among habitual runners. , 1989, Archives of internal medicine.

[25]  Kerstin Witte,et al.  DIFFERENCES BETWEEN FORE- AND REARFOOT STRIKE RUNNING PATTERNS BASED ON KINETICS AND KINEMATICS , 2007 .

[26]  D. Lieberman,et al.  Foot strike and injury rates in endurance runners: a retrospective study. , 2012, Medicine and science in sports and exercise.

[27]  David G Lloyd,et al.  Repeatability of gait data using a functional hip joint centre and a mean helical knee axis. , 2003, Journal of biomechanics.

[28]  Irene S. McClay,et al.  Lower Extremity Mechanics in Runners with a Converted Forefoot Strike Pattern , 2000 .

[29]  Allison H. Gruber,et al.  Lower extremity joint stiffness characteristics during running with different footfall patterns , 2014, European journal of sport science.

[30]  At L Hof,et al.  Handling of impact forces in inverse dynamics. , 2006, Journal of biomechanics.

[31]  Allison H. Gruber,et al.  Economy and rate of carbohydrate oxidation during running with rearfoot and forefoot strike patterns. , 2013, Journal of applied physiology.