Effects of an Uphill Marathon on Running Mechanics and Lower-Limb Muscle Fatigue.

PURPOSE To investigate the effects of an uphill marathon (43 km, 3063-m elevation gain) on running mechanics and neuromuscular fatigue in lower-limb muscles. METHODS Maximal mechanical power of lower limbs (MMP), temporal tensiomyographic (TMG) parameters, and muscle-belly displacement (Dm) were determined in the vastus lateralis muscle before and after the competition in 18 runners (age 42.8 ± 9.9 y, body mass 70.1 ± 7.3 kg, maximal oxygen uptake 55.5 ± 7.5 mL · kg-1 · min-1). Contact (tc) and aerial (ta) times, step frequency (f), and running velocity (v) were measured at 3, 14, and 30 km and after the finish line (POST). Peak vertical ground-reaction force (Fmax), vertical displacement of the center of mass (Δz), leg-length change (ΔL), and vertical (kvert) and leg (kleg) stiffness were calculated. RESULTS MMP was inversely related with race time (r = -.56, P = .016), tc (r = -.61, P = .008), and Δz (r = -.57, P = .012) and directly related with Fmax (r = .59, P = .010), ta (r = .48, P = .040), and kvert (r = .51, P = .027). In the fastest subgroup (n = 9) the following parameters were lower in POST (P < .05) than at km 3: ta (-14.1% ± 17.8%), Fmax (-6.2% ± 6.4%), kvert (-17.5% ± 17.2%), and kleg (-11.4% ± 10.9%). The slowest subgroup (n = 9) showed changes (P < .05) at km 30 and POST in Fmax (-5.5% ± 4.9% and -5.3% ± 4.1%), ta (-20.5% ± 16.2% and -21.5% ± 14.4%), tc (5.5% ± 7.5% and 3.2% ± 5.2%), kvert (-14.0% ± 12.8% and -11.8% ± 10.0%), and kleg (-8.9% ± 11.5% and -11.9% ± 12%). TMG temporal parameters decreased in all runners (-27.35% ± 18.0%, P < .001), while Dm increased (24.0% ± 35.0%, P = .005), showing lower-limb stiffness and higher muscle sensibility to the electrical stimulus. CONCLUSIONS Greater MMP was related with smaller changes in running mechanics induced by fatigue. Thus, lower-limb power training could improve running performance in uphill marathons.

[1]  R. Kram,et al.  Ground reaction forces during downhill and uphill running. , 2005, Journal of biomechanics.

[2]  R. Blickhan The spring-mass model for running and hopping. , 1989, Journal of biomechanics.

[3]  I. Davis,et al.  Comparison of lower extremity kinematic curves during overground and treadmill running. , 2010, Journal of applied biomechanics.

[4]  D. Dutto,et al.  Changes in spring-mass characteristics during treadmill running to exhaustion. , 2002, Medicine and science in sports and exercise.

[5]  G. Millet,et al.  Neuromuscular Consequences of an Extreme Mountain Ultra-Marathon , 2011, PloS one.

[6]  Paavo V. Komi,et al.  A simple method for measurement of mechanical power in jumping , 2004, European Journal of Applied Physiology and Occupational Physiology.

[7]  P. D. di Prampero,et al.  Effects of the Etna uphill ultramarathon on energy cost and mechanics of running. , 2015, International journal of sports physiology and performance.

[8]  Malcolm M Fairweather,et al.  Assessment of eccentric exercise-induced muscle damage of the elbow flexors by tensiomyography. , 2012, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[9]  M. Quiroga,et al.  Assessment of muscle fatigue after an ultra-endurance triathlon using tensiomyography (TMG) , 2011, Journal of sports sciences.

[10]  E. Evans,et al.  Lower extremity muscle activation during horizontal and uphill running. , 1997, Journal of applied physiology.

[11]  Rado Pišot,et al.  Noninvasive estimation of myosin heavy chain composition in human skeletal muscle. , 2011, Medicine and science in sports and exercise.

[12]  O. Girard,et al.  Spring-mass behavior during exhaustive run at constant velocity in elite triathletes. , 2011, Medicine and science in sports and exercise.

[13]  Pierre Samozino,et al.  Changes in running kinematics, kinetics, and spring-mass behavior over a 24-h run. , 2011, Medicine and science in sports and exercise.

[14]  K W Ranatunga,et al.  Contractions of a human skeletal muscle at different temperatures. , 1987, The Journal of physiology.

[15]  G. Millet,et al.  Changes in running mechanics and spring-mass behavior induced by a mountain ultra-marathon race. , 2011, Journal of biomechanics.

[16]  C. Hausswirth,et al.  Changes in spring-mass behavior and muscle activity during an exhaustive run at V̇O2max. , 2013, Journal of biomechanics.

[17]  P. D. di Prampero,et al.  Factors affecting metabolic cost of transport during a multi-stage running race , 2014, Journal of Experimental Biology.

[18]  G. Millet,et al.  Alterations of Neuromuscular Function after the World's Most Challenging Mountain Ultra-Marathon , 2013, PloS one.

[19]  A. Murphy,et al.  The effect of plyometric training on distance running performance , 2003, European Journal of Applied Physiology.

[20]  Daniel P. Ferris,et al.  Running in the real world: adjusting leg stiffness for different surfaces , 1998, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[21]  G. Millet,et al.  Alterations of neuromuscular function after an ultramarathon. , 2002, Journal of applied physiology.

[22]  D. Sale,et al.  Postactivation potentiation in endurance-trained male athletes. , 2000, Medicine and science in sports and exercise.

[23]  O. Girard,et al.  Changes in Running Mechanics and Spring-Mass Behaviour during a 5-km Time Trial , 2013, International Journal of Sports Medicine.

[24]  M. Kjaer,et al.  Passive energy absorption by human muscle-tendon unit is unaffected by increase in intramuscular temperature. , 2000, Journal of applied physiology.

[25]  David Rodríguez-Ruiz,et al.  Effect of high-load and high-volume resistance exercise on the tensiomyographic twitch response of biceps brachii. , 2012, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[26]  Alain Belli,et al.  Changes in mechanical work during severe exhausting running , 2003, European Journal of Applied Physiology.

[27]  Heikki Kyröläinen,et al.  A simple method for measuring stiffness during running. , 2005, Journal of applied biomechanics.

[28]  M. Bemben,et al.  INFLUENCE OF TYPE OF MUSCLE CONTRACTION, GENDER, AND LIFTING EXPERIENCE ON POSTACTIVATION POTENTIATION PERFORMANCE , 2007, Journal of strength and conditioning research.

[29]  Francis Degache,et al.  Changes in running mechanics and spring-mass behaviour induced by a 5-hour hilly running bout , 2013, Journal of sports sciences.

[30]  Romuald Lepers,et al.  Alterations of Neuromuscular Function After Prolonged Running, Cycling and Skiing Exercises , 2004, Sports medicine.