Influence of midsole bending stiffness on joint energy and jump height performance

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Stefanyshyn, Darren J.¹; Nigg, Benno M.¹

Influence of midsole bending stiffness on joint energy and jump height performance

Med Sci Sports Exer. February 2000;32(2):471-476

©2000 The American College of Sports Medicine

Affiliations

¹Human Performance Laboratory, The University of Calgary, Calgary, Alberta, CANADA
Abstract and keywords

Purpose: A substantial amount of rotational energy is lost at the metatarsophalangeal joint during running and jumping. We hypothesized that the lost energy could be decreased by increasing the bending stiffness of shoe midsoles. The purposes of this investigation were to determine the influence of stiff shoe midsoles on changes in lower extremity joint power during running and jumping and to determine the influence of stiff shoe midsoles on vertical jump performance.

Methods: Carbon fiber plates were inserted into shoe midsoles and data were collected on five subjects during running and vertical jumping.

Results: The data showed that energy generation and absorption at each of the ankle, knee, and hip joints was not influenced by the stiffness of the shoe midsole. The stiff shoes with the carbon fiber plates did not increase the amount of energy stored and reused at the metatarsophalangeal joint; however, they reduced the amount of energy lost at this joint during both running and jumping. Vertical jump height was significantly higher (average, 1.7 cm for a group of 25 subjects) while wearing the stiff shoes.

Conclusions: Increasing the bending stiffness of the metatarsophalangeal joint reduced the amount of energy lost at that joint and resulted in a corresponding improvement of performance.

Keywords: athletic shoes; joint power; vertical jump; running
Links

DOI: 10.1097/00005768-200002000-00032

PubMed: 10694134

WoS: 000085291400032

Ovid: 00005768-200002000-00032
History

Received: 1998-05

Accepted: 1999-04

Cited Works (3)

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1997	Stefanyshyn DJ, Nigg BM. Mechanical energy contribution of the metatarsophalangeal joint to running and sprinting. J Biomech. November–December 1997;30(11-12):1081-1085.

Cited By (24)

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2002	Vertullo CJ, Nunley JA. Participation in sports after arthrodesis of the foot or ankle. Foot Ankle Int. July 2002;23(7):625-628.
2015	Crandall J, Frederick EC, Kent R, Lessley D, Sherwood C. Apparatus for measuring the forefoot bending stiffness of cleated American football shoes. Footwear Sci. 2015;7(suppl 1):S23-S25.
2015	Ford KR, Taylor JB, Baellow AL, Arpante AK, Wright KE, Nguyen A-D. Differences in anatomical within cleat toe dorsiflexion compared to footwear measured toe dorsiflexion during football movements. Footwear Sci. 2015;7(suppl 1):S47-S48.
2015	Wannop JW, Schrier N, Worobets J, Stefanyshyn D. Influence of forefoot bending stiffness on American football performance. Footwear Sci. 2015;7(suppl 1):S141-S142.
2015	Crandall J, Frederick EC, Kent R, Lessley DJ, Sherwood C. Forefoot bending stiffness of cleated American football shoes. Footwear Sci. 2015;7(3):139-148.
2016	Wannop JW, Stefanyshyn DJ. Special issue: bending stiffness: performance and injury effects. Footwear Sci. 2016;8(2):49-50.
2016	Stefanyshyn DJ, Wannop JW. The influence of forefoot bending stiffness of footwear on athletic injury and performance. Footwear Sci. 2016;8(2):51-63.
2016	Lessley DJ, Crandall J, Frederick EC, Kent R, Sherwood C. Quantifying the forefoot bending stiffness of cleated American football shoes using the Football American Shoe Tester (FAST). Footwear Sci. 2016;8(2):65-74.
2016	Ford KR, Taylor JB, Baellow AL, Arpante AK, Wright KE, Nguyen A-D. Effects of plate stiffness on first metatarsophalangeal joint motion during unanticipated cutting and resisted sled pushing in football players. Footwear Sci. 2016;8(2):75-82.
2020	Luczak T, Burch RF, Smith B, Lamberth J, Carruth D, Crane C, Hoppa M, Burgos B. Perception of comfort, fit, and jumping performance of elite NCAA Division 1 student-athletes: the effect of basketball shoe design – Part II. Int J Kinesiol Sports Sci. July 31, 2020;8(3):45-57.
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2023	Song Y, Cen X, Chen H, Sun D, Munivrana G, Bálint K, Bíró I, Gu Y. The influence of running shoe with different carbon-fiber plate designs on internal foot mechanics: a pilot computational analysis. J Biomech. May 2023;153:111597.
2006	Krell JB, Stefanyshyn DJ. The relationship between extension of the metatarsophalangeal joint and sprint time for 100 m Olympic athletes. J Sports Sci. February 2006;24(2):175-180.
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2017	Jastifer J, Kent R, Crandall J, Sherwood C, Lessley D, McCullough KA, Coughlin MJ, Anderson RB. The athletic shoe in football: apparel or protective equipment? Sports Health. March–April 2017;9(2):126-131.
2011	Sterner EG. The Effect of Shoe Forefoot Stiffness on the Windlass Mechanism in Running [Master's thesis]. Iowa State University; 2011.
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2021	Čigoja S. Shoe Bending Stiffness and Muscle-Tendon Unit Function in Running [PhD thesis]. Calgary, AB: University of Calgary; January 2021.
2021	Firminger CR. Experimental Measurement and Applied Modelling of Patellar Tendon Strain [PhD thesis]. Calgary, AB: University of Calgary; May 2021.
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