FATIGUE IN EXERCISE 4

This sixth issue of Volume 19 of the Coaching Science Abstracts reviews articles concerned with types of exercise fatigue and their effects on bodily function. Three previous issues on this topic, Fatigue in Exercise, Fatigue in Exercise 2, and Fatigue in Exercise 3,can be accessed by clicking these links.

TABLE OF CONTENTS

GENERAL

1. STRETCH-SHORTENING CYCLE FATIGUE DECREASES PERFORMANCE BUT INCREASES PERFORMANCE AT THE END OF RECOVERY

   Cheilleachair, N. N., & Harrison, A. (2010). The acute effects of maximal fatigue on the subsequent performance of endurance trained athletes. Presentation 700 at the 2010 Annual Meeting of the American College of Sports Medicine, Baltimore, Maryland; June 2-5.

2. LIMB AND GENDER DIFFERENCES EXIST AFTER FATIGUING RESISTANCE EXERCISE

   Senefeld, J., Yoon, T., Bement, M. H., & Hunter, S. K. (2012). Sex differences in fatigue during dynamic contractions differ between arm and leg muscles. Presentation 1014 at the 59th Annual Meeting of the American College of Sports Medicine, San Francisco, California; May 29-June 2, 2012.

3. FATIGUE CAN BE CENTRAL, PERIPHERAL, AND NEURAL

   Davis, J. M., & Bailey, S. P. (1997). Possible mechanisms of central nervous system fatigue during exercise. Medicine and Science in Sports and Exercise, 29(1), 45-57.

4. FATIGUE IS SIMILAR IN ISOMETRIC AND CONCENTRIC MUSCLE ACTIONS

   Camic, C. L., Taddy, M. L., Zuniga, J. M., Housh, T. J., Traylor, D. A., Bergstrom, H. C., Schmidt, R. J., & Johnson, G. O. (2012). Electromyographic responses across repeated maximal isometric and concentric muscle actions. Presentation 2168 at the 59th Annual Meeting of the American College of Sports Medicine, San Francisco, California; May 29-June 2, 2012.
   FACTORS INVOLVED IN EXERCISE FATIGUE

5. FATIGUE IN EXTENDED PERFORMANCES IS DIFFERENT IN WOMEN WHEN COMPARED TO MEN

   Glace, B. W., Kremenic, I. J., Ben-Avi, S., Nicholas, S., McHugh, M. P. (2010). Gender differences in relative contributions of central and peripheral mechanisms to fatigue in cyclists. Presentation 2301 at the 2010 Annual Meeting of the American College of Sports Medicine, Baltimore, Maryland; June 2-5.

6. SPRINT PERFORMANCE LOSS IN REPEATED SPRINTING IS ASSOCIATED WITH LOSS OF MUSCLE STIFFNESS

   Girard, O., Micallef, J.-P., &Millet, G. P. (2010). Changes in spring-mass model characteristics during repeated running sprints. Presentation 695 at the 2010 Annual Meeting of the American College of Sports Medicine, Baltimore, Maryland; June 2-5.

7. SPRINTING FATIGUE HAS COMPLEX AFFECTS

   Morin, J-B., Samozino, P., Edouard, P., & Tomazinz, K. (2011). Sprint fatigue affects the technical ability of force application. Medicine and Science in Sports and Exercise, 43(5). Supplement abstract 841.

8. FATIGABILITY DIFFERS BETWEEN THE SHOULDER AND LEGS AND IS MODERATED BY AGE

   Yoon, T., Senefeld, J., Bement, M. H., & Hunter, S. K. (2012). Age differences in fatigue during dynamic contractions in arm and leg muscles. Presentation 1015 at the 59th Annual Meeting of the American College of Sports Medicine, San Francisco, California; May 29-June 2, 2012.

9. PHYSICAL FATIGUE HINDERS SKILL LEARNING

   Carron, A. V., & Ferchuk, A. D. (1971). The effect of fatigue on learning and performance of a gross motor task. Journal of Motor Behavior, 3, 62-68.

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