Sportverletz Sportschaden 2014; 28(02): 85-107
DOI: 10.1055/s-0034-1366145
Originalarbeit
© Georg Thieme Verlag KG Stuttgart · New York

Effekte von Komplextraining auf Kraft- und Schnelligkeitsleistungen bei Sportlern: Ein systematischer Überblick

Effekte von Komplextraining auf sportliche LeistungenEffects of Complex Training on Strength and Speed Performance in Athletes: A Systematic ReviewEffects of Complex Training on Athletic Performance
M. Lesinski
1   Humanwissenschaftliche Fakultät, Exzellenzbereich Kognitionswissenschaften Universität Potsdam, Lehrstuhl für Trainings- und Bewegungswissenschaft
,
T. Muehlbauer
1   Humanwissenschaftliche Fakultät, Exzellenzbereich Kognitionswissenschaften Universität Potsdam, Lehrstuhl für Trainings- und Bewegungswissenschaft
,
D. Büsch
2   Institut für Angewandte Trainingswissenschaft Leipzig, Fachbereich Technik und Taktik
3   H:G Hochschule für Gesundheit & Sport, Technik & Kunst Berlin
,
U. Granacher
1   Humanwissenschaftliche Fakultät, Exzellenzbereich Kognitionswissenschaften Universität Potsdam, Lehrstuhl für Trainings- und Bewegungswissenschaft
› Author Affiliations
Further Information

Publication History

Publication Date:
05 March 2014 (online)

Zusammenfassung

Hintergrund: Die Postaktivierungspotenzierung (PAP) kann akut zu einer Verbesserung von Kraft- und Schnelligkeitsleistungen führen. Es ist jedoch unklar, ob die Überführung akuter PAP-Effekte in den Trainingsprozess mittels eines Komplextrainings zu größeren und letztendlich überdauernden Leistungssteigerungen im Vergleich zu isolierten Trainingsmethoden, z. B. einem Standardkrafttraining führt. Der vorliegende systematische Überblicksbeitrag fasst den aktuellen Forschungsstand zu den Effekten und dem Belastungsgefüge von Komplextrainingsprogrammen auf Kraft- und Schnelligkeitsleistungen von Sportlern mit unterschiedlichem Expertiseniveau zusammen.

Methode: Mithilfe der Datenbanken Pubmed, SportDiscus und Web of Science wurde eine systematische Literaturrecherche für den Zeitraum von 1995 bis September 2013 durchgeführt. Insgesamt konnten 17 relevante Studien identifiziert werden, von denen zehn ein alternierendes und sieben ein blockweises Komplextraining durchführten.

Ergebnisse: Im Ergebnis zeigte sich, dass sowohl alternierende (Hockstrecksprunghöhe: + 7,4 % [EGd = −0,43]; Strecksprunghöhe: + 9,8 % [EGd = −0,66]; Sprintzeit: −2,4 % [EGd = 0,63]) als auch blockweise (Hockstrecksprunghöhe: + 6,0 % [EGd = −0,83]; Strecksprunghöhe: + 11,9 % [EGd  = −0,97], Sprintzeit: −0,7 % [EGd = 0,52]) Komplextrainingsprogramme kleine bis große Effekte auf Kraft- und Schnelligkeitsleistungen hervorrufen können. Im Vergleich zu alternativen Trainingsmethoden zeigten alternierende und blockweise Komplextrainingsprogramme im Mittel lediglich kleine Effekte bzgl. Kraft- und Schnelligkeitsleistungen. Zudem wurden für alternierende Komplextrainingsprogramme höhere Effekte bzgl. der Hochstrecksprunghöhe bei Sportlern mit niedrigem (+ 9,7 % [EGd = −0,57]) versus mit mittlerem bis hohem (+ 2,7 % [EGd = −0,15]) Expertiseniveau berichtet. Fehlende Nennungen (z. B. zur Regenerationszeit) sowie heterogene Angaben (z. B. zur Belastungshöhe) zum gewählten Belastungsgefüge lassen derzeit keine evidente Dosis-Wirkung-Beziehung für das Komplextraining auf der Basis der aktuell zur Verfügung stehenden Literatur ableiten.

Schlussfolgerung: Für das Training in schnellkraftorientierten Sportarten stellt das Komplextraining eine wirksame Methode zur Steigerung von Kraft- und Schnelligkeitsleistungen dar. Zukünftig sind Studien mit hoher methodischer Qualität notwendig, um eine mögliche Überlegenheit gegenüber isolierten Trainingsmethoden abzuleiten. Insbesondere sollte geprüft werden, ob die im Komplextraining gewählte Reihung der komplexen Übungspaare/-blöcke tatsächlich akute PAP-Effekte auslöst.

Abstract

Background: Post-activation potentiation (PAP) can elicit acute performance enhancements in variables of strength, power, and speed. However, it is unresolved whether the frequent integration of PAP eliciting conditioning activities in training (i. e., complex training) results in long-term adaptations. In this regard, it is of interest to know whether complex training results in larger performance enhancements as compared to more traditional and isolated training regimens (e. g., resistance training). Thus, this systematic literature review summarises the current state of the art regarding the effects of complex training on measures of strength, power, and speed in recreational, subelite, and elite athletes. Further, it provides information on training volume and intensities that proved to be effective.

Methods: Our literature search included the electronic databases Pubmed, SportDiscus, and Web of Science (1995 to September 2013). In total, 17 studies met the inclusionary criteria for review. Ten studies examined alternating complex training and 7 studies sequenced complex training.

Results: Our findings indicated small to large effects for both alternating complex training (countermovement jump height: + 7.4 % [ESd = −0.43]; squat jump height: + 9.8 % [ESd = −0.66]; sprint time: −2.4 % [ESd = 0.63]) and sequenced complex training (countermovement jump height: + 6.0 % [ESd = −0.83]; squat jump height: + 11.9 % [ESd  = −0.97], sprint time: −0.7 % [ESd = 0.52]) in measures of power and speed. As compared to more traditional training regimens, alternating and sequenced complex training showed only small effects in measures of strength, power, and speed. A more detailed analysis of alternating complex training revealed larger effects in countermovement jump height in recreational athletes (+ 9.7 % [ESd = −0.57]) as compared to subelite and elite athletes (+ 2.7 % [ESd = −0.15]). Based on the relevant and currently available literature, missing data (e. g., time for rest interval) and diverse information regarding training volume and intensity do not allow us to establish evidence-based dose-response relations for complex training.

Conclusion: Complex training represents an effective training regimen for athletes if the goal is to enhance strength, power, and speed. Studies with high methodological quality have to be conducted in the future to elucidate whether complex training is less, similar, or even more effective compared to more traditional training regimens. Finally, it should be clarified whether alternated and/or sequenced conditioning activities implemented in complex training actually elicit acute PAP effects.

 
  • Literatur

  • 1 May CA, Cipriani D, Lorenz KA. Power development through complex training for the division I collegiate athlete. Strength Cond J 2010; 32: 30-43
  • 2 Young WB. Transfer of strength and power training to sports performance. Int J Sports Physiol Perform 2006; 1: 74-83
  • 3 Issurin VB. Training transfer: scientific background and insights for practical application. Sports Med 2013; 43: 675-694
  • 4 Kibele A. Maximalkraftzuwachs ohne Leistungsgewinn. Leistungssport 1998; 28: 45-49
  • 5 Markovic G. Does plyometric training improve vertical jump height? A meta-analytical review. Br J Sports Med 2007; 41: 349-355
  • 6 Saez de Villarreal E, Requena B, Newton RU. Does plyometric training improve strength performance? A meta-analysis. J Sci Med Sport 2009; 13: 513-522
  • 7 Ebben WP, Watts PB. A review of combined weight training and plyometric training modes: complex training. Strength Cond J 1998; 20: 18-27
  • 8 Mihalik JP, Libby JJ, Battaglini CL et al. Comparing short-term complex and compound training programs on vertical jump height and power output. J Strength Cond Res 2008; 22: 47-53
  • 9 Alves JM, Rebelo AN, Abrantes C et al. Short-term effects of complex and contrast training in soccer players' vertical jump, sprint, and agility abilities. J Strength Cond Res 2010; 24: 936-941
  • 10 Juárez D, Gonzál JM, Navarro F. Effects of complex vs non complex training programs on lower body maximum strength and power. Isokinet Exerc Sci 2009; 17: 233-241
  • 11 Ronnestad BR, Kvamme NH, Sunde A et al. Short-term effects of strength and plyometric training on sprint and jump performance in professional soccer players. J Strength Cond Res 2008; 22: 773-780
  • 12 Carlson K, Magnusen M, Walters P. Effect of various training modalities on vertical jump. Res Sports Med 2009; 17: 84-94
  • 13 Arabatzi F, Kellis E, Saez-Saez De Villarreal E. Vertical jump biomechanics after plyometric, weight lifting, and combined (weight lifting + plyometric) training. J Strength Cond Res 2010; 24: 2440-2448
  • 14 Sale DG. Postactivation potentiation: role in human performance. Exerc Sport Sci Rev 2002; 30: 138-143
  • 15 Lesinski M, Muehlbauer T, Busch D et al. Acute effects of postactivation potentiation on strength and speed performance in athletes. Sportverletz Sportschaden 2013; 27: 147-155
  • 16 Maher CG, Sherrington C, Herbert RD et al. Reliability of the PEDro scale for rating quality of randomized controlled trials. Phys Ther 2003; 83: 713-721
  • 17 Cohen J. Statistical power for the behavioral sciences. Hillsdale, NJ: Erlbaum; 1988
  • 18 Rhea MR. Determining the magnitude of treatment effects in strength training research through the use of the effect size. J Strength Cond Res 2004; 18: 918-920
  • 19 Lyttle AD, Wilson GJ, Ostrowski KJ. Enhancing performance: maximal power versus combined weights and plyometrics training. J Strength Cond Res 1996; 10: 173-179
  • 20 Voelzke M, Stutzig N, Thorhauer HA et al. Promoting lower extremity strength in elite volleyball players: effects of two combined training methods. J Sci Med Sport 2012; 15: 457-462
  • 21 Dodd DJ, Alvar BA. Analysis of acute explosive training modalities to improve lower-body power in baseball players. J Strength Cond Res 2007; 21: 1177-1182
  • 22 Tsimahidis K, Galazoulas C, Skoufas D et al. The effect of sprinting after each set of heavy resistance training on the running speed and jumping performance of young basketball players. J Strength Cond Res 2010; 24: 2102-2108
  • 23 Argus CK, Gill ND, Keogh JW et al. Effects of two contrast training programs on jump performance in rugby union players during a competition phase. Int J Sports Physiol Perform 2012; 7: 68-75
  • 24 Alemdaroglu U, Dündar U, Köklü Y et al. The effect of exercise order incorporating plyometric and resistance training on isokinetic leg strength and vertical jump performance: A comparative study. Isokinet Exerc Sci 2013; 21: 211-217
  • 25 Adams K, O'Shea JP, O'Shea KL et al. The effect of six weeks of squat, plyometric and squat-plyometric training on power production. J Strength Cond Res 1992; 6: 36-41
  • 26 Newton RU, Kraemer WJ, Hakkinen K. Effects of ballistic training on preseason preparation of elite volleyball players. Med Sci Sports Exerc 1999; 31: 323-330
  • 27 Robbins DW. Postactivation potentiation and its practical applicability: a brief review. J Strength Cond Res 2005; 19: 453-458
  • 28 Tsimachidis C, Patikas D, Galazoulas C et al. The post-activation potentiation effect on sprint performance after combined resistance/sprint training in junior basketball players. J Sports Sci 2013; 31: 1117-1124
  • 29 Crewther BT, Kilduff LP, Cook CJ et al. The acute potentiating effects of back squats on athlete performance. J Strength Cond Res 2011; 25: 3319-3325
  • 30 Tillin NA, Bishop D. Factors modulating post-activation potentiation and its effect on performance of subsequent explosive activities. Sports Med 2009; 39: 147-166
  • 31 Wilson JM, Duncan NM, Marin PJ et al. Meta-analysis of postactivation potentiation and power: effects of conditioning activity, volume, gender, rest periods, and training status. J Strength Cond Res 2013; 27: 854-859
  • 32 Chu DA. Explosive power & strength: complex training for maximum results. Champaign: Human Kinetics; 1996
  • 33 Faude O, Roth R, Di Giovine D et al. Combined strength and power training in high-level amateur football during the competitive season: a randomised-controlled trial. J Sports Sci 2013; 17: 17
  • 34 de Villarreal ES, Izquierdo M, Gonzalez-Badillo JJ. Enhancing jump performance after combined vs. maximal power, heavy-resistance, and plyometric training alone. J Strength Cond Res 2011; 25: 3274-3281
  • 35 Saez de Villarreal E, Requena B, Izquierdo M et al. Enhancing sprint and strength performance: combined versus maximal power, traditional heavy-resistance and plyometric training. J Sci Med Sport 2013; 16: 146-150