RSS-Feed abonnieren
DOI: 10.1055/s-2004-821110
© Georg Thieme Verlag KG Stuttgart · New York
Intracyclic Velocity Variations and Arm Coordination During Exhaustive Exercise in Front Crawl Stroke
Publikationsverlauf
Accepted after revision: April 21, 2004
Publikationsdatum:
22. Dezember 2004 (online)
Abstract
The purpose of this study was to analyse the effects of an exhaustive exercise on arm coordination and intracyclic velocity variations (IVV) to better understand the ways in which they are modified under fatigue conditions. Seventeen competitive swimmers performed a 200-m all-out test and a set of two 25-m (before and after the 200-m) at maximal intensity to measure stroking parameters, IVV, and the relative duration of the different parts of the stroke cycle and identify the model of arm coordination by using the index of coordination (IdC). Results showed an increase in the relative duration of the propulsive time, which induced a change in arm coordination as fatigue developed in relation to a decrease in stroke length (SL) and stroke rate (SR) (p < 0.05). The evolution of IdC corresponds to a reduction of the non-propulsive lag time between the two arms' propulsive actions. Despite these modifications, IVV were not significantly modified (p < 0.05). The present results highlighted that IdC and relative durations of each part of the cycle (particularly the pull phase) could be assessed to complete the “SL × SR” model and to partly understand the technique modifications under fatigue condition.
Key words
Hip velocity - arm coordination - fatigue - swimming
References
-
1 Alberty M, Sidney M, Hespel J M, Dekerle J, Pelayo P, Potdevin F.
Effects of an exhaustive exercise on upper limb coordination and intracyclic velocity variations in front crawl stroke. Chatard JC Biomechanics and Medicine in Swimming: Swimming Science IX. Saint-Etienne; Publication de l'Université de Saint-Etienne 2003: 81-85 -
2 Alves F.
Analyse de la technique de nage en situation de compétition. Pelayo P, Sidney M 2 èmes journées spécialisées de natation. Lille; Publication Grimbert 1999: 3-8 - 3 Alves F, Santos P M, Veloso A, Pinto Correia, Gomes-Pereira J. Measurement of intracycle power variation in swimming. Motricidad Humana. 1994; 10 69-75
- 4 Arellano R, Brown P, Cappaert J, Nelson R C. Analysis of 50-, 100-, and 200-m freestyle swimmers at the 1992 Olympic games. J Appl Biomech. 1994; 10 189-199
- 5 Ballreich R, Gabel H. Influence de la longueur et de la fréquence des foulées sur la performance en sprint. Traduction INSEP. Leitungssport. 1975; 5 346-351
- 6 Chollet D, Pelayo P, Delaplace C, Sidney M. Stroking characteristic variations in the 100-m freestyle for male swimmers of differing skill. Percept Motor Skill. 1997; 85 167-177
- 7 Chollet D, Chalies S, Chatard J C. New index of coordination for the crawl: description and usefulness. Int J Sports Med. 2000; 20 54-59
- 8 Costill D L, Lee G, D'Aquisto L. Video-computer analysis of swimming technique. J Swim Res. 1987; 3 5-9
- 9 Craig A B, Pendergast D R. Relationships of stroke rate, distance per stroke and velocity in competitive swimming. Med Sci Sports Exerc. 1979; 11 278-283
- 10 Craig A B, Skehan P L, Pawelczyk J A, Boomer W L. Velocity, stroke rate, and distance per stroke during elite swimming competition. Med Sci Sports Exerc. 1985; 17 625-634
- 11 Deschodt V. Modifications de la trajectoire aquatique du poignet liées à l'apparition de la fatigue lors d'exercises intermittents en natation. Science et Motricité. 1999; 37 19-25
- 12 Hay B G, Guimaraes C S. A quantitative look at swimming biomechanics. Swimming technique. 1983; 8 11-17
-
13 Holmer I.
Analysis of acceleration as a measure of swimming proficiency. Terauds J, Bedingfield EW Swimming Science III. Champaign, IL; Human Kinetics Publishers 1979: 119-125 -
14 Keskinen K L, Komi P V.
Interaction between aerobic/anaerobic loading and biomechanical performance in free style swimming. Ungerechts BE, Wilke K, Reische K Swimming Sciences V. International Series on Sport Sciences. Vol. 18. Champaign, IL; Human Kinetics 1988: 285-293 - 15 Keskinen K L, Komi P V. Stroking characteristics of front crawl swimming during exercise. J Appl Biomech. 1993; 9 219-226
-
16 Letzelter H, Freitag W.
Stroke length and stroke frequency variation in men's and woman's 100-m freestyle swimming. Hollander AP, Huijing PA, De Groot G Swimming Science IV. Champaign, IL; Human Kinetics 1983: 315-322 -
17 Miyashita M.
An analysis of fluctuations of swimming speed. Lewillie L, Clarys JP Proceeding of the First International Symposium on “Biomechanics in Swimming, Waterpolo and Diving”. Bruxelles; Université Libre de Bruxelles 1971: 53-58 - 18 Miller D. Biomechanics of swimming. Exerc Sport Sci Rev. 1975; 3 219-248
- 19 Monteil K M, Rouard A H, Troup J P. Etude des paramètres cinématiques du nageur de crawl au cours d'un exercise maximal dans un «flume». STAPS. 1994; 33 57-68
- 20 Pai Y C, Hay J G, Wilson B D. Stroking techniques of elite swimmers. J Sports Sci. 1984; 2 225-239
- 21 Pelayo P, Moretto P, Robin H, Sidney M, Gerbeaux M, Latour M G, Lavoie J M. Adaptation of maximal aerobic and anaerobic tests for disabled swimmers. Eur J Appl Physiol. 1995; 71 512-517
-
22 Potdevin F, Delignières D, Dekerle J, Alberty M, Sidney M, Pelayo P.
Does stroke rate determine swimming velocity values and coordinations? . Chatard JC Biomechanics and Medicine in Swimming: Swimming Science IX. Saint-Etienne; Publication de l'Université de Saint-Etienne 2003: 163-167 -
23 Sanders R H.
New analysis procedures for giving feedback to swimming coaches and swimmers. Gianikellis KE, Mason BR, Toussaint HM, Arellano R, Sanders RH Scientific Proceedings - Applied Program - XXth International Symposium on Biomechanics in Sports - Swimming. Caceres, Spain; University of Extramedura 2002: 1-14 -
24 Sidney M, Delhaye B, Baillon M, Pelayo P.
Stroke frequency evolution during 100-m and 200-m events front crawl swimming. Keskinen et al. Biomechanics and Medicine in Swimming: Swimming Science VIII. Jyväskylä, Finland; Gummerus Printing 1999: 71-76 -
25 Toussaint H M, de Hollander A P, van den Berg C, Vorontsov R A.
Biomechanics of swimming. Garret WE Jr, Kirkendall DT Exercise and Sport Science. Philadelphia; Lippincott Williams & Wilkins 2000: 639-659 -
26 Vilas-Boas J P.
A photo-optical method for the acquisition of biomechanical data in swimmers. Ronado R, Ferringo G, Santambrogio G X Symposium of the International Society of Biomechanics in Sports. Milan; Edi. Ermes 1992: 142-146 -
27 Vilas-Boas J P.
Speed fluctuations and energy cost of different breaststroke techniques. Troup JP, Hollander AP, Strass D, Trappe SW, Cappaert JM, Trappe TA Biomechanics and Medicine in Swimming: Swimming Science VII. London; E. & F. N. Spon 1996: 167-171 -
28 Wakayoshi K, D'Acquisto L J, Troup J P.
Relationship between metabolic parameters and stroking technique characteristics in front crawl. Troup JP, Hollander AP, Strasse D, Trappe SW, Cappaert JM, Trappe TA Biomechanics and Medicine in Swimming: Swimming Science VII. International Series on Sport Sciences. Vol. 18. London; E. & F. N. Spon 1996: 285-293 -
29 Weiss M, Reischle K, Boows N, Simon G, Wiecker H.
Relationship of blood lactate accumulation to stroke rate and distance per stroke in top female swimmers. Ungerechts BE, Wilke K, Reische K Swimming Science V. International Series on Sport Sciences. Vol. 18. Champaign, IL; Human Kinetics 1988: 285-293
M. Sidney
Faculté des Sciences du Sport
9 rue de l'Université
59790 Ronchin
France
Telefon: + 33320887390
Fax: + 33 3 20 88 73 63
eMail: sidney@hp-sc.univ-lille2.fr