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Journal of Human Kinetics

The Journal of Academy of Physical Education in Katowice

4 Issues per year


IMPACT FACTOR 2016: 0.798
5-year IMPACT FACTOR: 1.252

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1899-7562
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Volume 45, Issue 1 (Mar 2015)

Issues

Acute Effects of Different Stretching Techniques on the Number of Repetitions in A Single Lower Body Resistance Training Session

Marcos A. Sá
  • Federal University of Rio de Janeiro. Postgraduate Program in Physical Education Stricto Sensu/ UFRJ. Rio de Janeiro, Brazil
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Gabriel R. Neto
  • Federal University of Rio de Janeiro. Postgraduate Program in Physical Education Stricto Sensu/ UFRJ. Rio de Janeiro, Brazil Department of Physical Education, Associate Graduate Program in Physical Education UPE / UFPB, João Pessoa, Paraíba -Brazil
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Pablo B. Costa / Thiago M. Gomes
  • Federal University of Rio de Janeiro. Postgraduate Program in Physical Education Stricto Sensu/ UFRJ. Rio de Janeiro, Brazil
  • University Estacio de Sá, Rio de Janeiro, Rio de Janeiro - Brazil
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Cláudio M. Bentes
  • Federal University of Rio de Janeiro. Postgraduate Program in Physical Education Stricto Sensu/ UFRJ. Rio de Janeiro, Brazil.
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Amanda F. Brown
  • Federal University of Rio de Janeiro. Postgraduate Program in Physical Education Stricto Sensu/ UFRJ. Rio de Janeiro, Brazil.
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  • De Gruyter OnlineGoogle Scholar
/ Jefferson S. Novaes
  • Federal University of Rio de Janeiro. Postgraduate Program in Physical Education Stricto Sensu/ UFRJ. Rio de Janeiro, Brazil.
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
Published Online: 2015-04-07 | DOI: https://doi.org/10.1515/hukin-2015-0018

Abstract

This study aimed to investigate the acute effects of passive static and ballistic stretching on maximal repetition performance during a resistance training session (RTS). Nine male subjects underwent three experimental conditions: ballistic stretching (BS); passive static stretching (PSS); and a specific warm-up (SW). The RTS was composed of three sets of 12RM for the following exercises: leg press 45 (LP), leg extension (LE), leg curl (LC), and plantar flexors (PF). Performance of six sessions was assessed 48 hours apart. The first visit consisted of a familiarization session including stretching methods and exercises used in the RTS. On the second and third visit, a strength test and retest were performed. During the fourth to the sixth visit, the volunteers randomly performed the following protocols: BS+RTS; PSS+RTS; or SW+RTS. For the sum of the RM number of each three-set exercise, significant differences were found between PSS vs. SW for the LP (p = 0.001); LE (p = 0.005); MF (p = 0.001); and PF (p = 0.038). For the comparison between the methods of stretching PSS vs. BS, significant differences were found only for the FP (p = 0.019). When analyzing the method of stretching BS vs. SW, significant differences were found for the LP (p = 0.014) and MF (p = 0.002). For the total sum of the RM number of three sets of the four exercises that composed the RTS, significant differences were observed (p < 0.05) in the following comparisons: PPS vs. SW (p = 0.001), PPS vs. BS (p = 0.008), and BS vs. SW (p = 0.002). Accordingly, the methods of passive static and ballistic stretching should not be recommended before a RTS.

Keywords: warm-up; ballistic stretching; passive stretching; muscular strength; lower limbs

References

  • Abellaneda S, Guissard N, Duchateau J. The relative lengthening of the myotendinous structures in the medial gastrocnemius during passive stretching differs among individuals. J Appl Physiol, 2009; 106: 169-177Web of SciencePubMedGoogle Scholar

  • American College of Sports Medicine. ACSM ́s position stand. Quantity and quality of exercise for developing and maintaining cardiorespiratory, musculoskeletal, and neuromotor fitness in apparently healthy adults: guidance for prescribing exercise. Med Sci Sports Exerc, 2011; 43: 1334-1359Web of ScienceGoogle Scholar

  • Ayala F, Ste CM, Sainz BP, Santonja F. Acute effects of static and dynamic stretching on hamstring eccentric isokinetic strength and unilateral hamstring to quadriceps strength ratios. J Sports Sci, 2013; 31: 831-839PubMedWeb of ScienceCrossrefGoogle Scholar

  • Bacurau RFP, Monteiro GA, Ugrinowitsch C, Tricoli V, Cabral LF, Aoki MS. Acute effect of a ballistic and a static stretching exercise bout on flexibility and maximal strength. J Strength Cond Res, 2009; 23: 304-308CrossrefPubMedWeb of ScienceGoogle Scholar

  • Barroso R, Tricoli V, Dos Santos Gil S, Ugrinowitsch C, Roschel H. Maximal strength, number of repetitions, and total volume are differently affected by static-, ballistic-, and proprioceptive neuromuscular facilitation stretching. J Strength Cond Res, 2012; 26: 2432-2437PubMedWeb of ScienceCrossrefGoogle Scholar

  • Beedle B, Rytter SJ, Healy RC, Ward TR. Pretesting static and dynamic stretching does not affect maximal strength. J Strength Cond Res, 2008; 22: 1838-1843PubMedCrossrefWeb of ScienceGoogle Scholar

  • Chen CH, Chen TC, Jan MH, Lin JJ. Acute Effects of Static Active or Dynamic Active Stretching on Eccentric Exercise-Induced Hamstring Muscle Damage. Int J Sports Physiol Perform, 2014; 9Web of SciencePubMedGoogle Scholar

  • Costa PB, Herda TJ, Herda AA, Cramer JT. Effects of dynamic stretching on strength, muscle imbalance, and muscle activation. Med Sci Sports Exerc, 2014; 46: 586-593Web of ScienceCrossrefPubMedGoogle Scholar

  • Cramer JT, Beck TW, Housh TJ, Massey LL, Marek SM, Danglemeier S, Purkayasthac S, Culbertsond JY, Fitzc KA, Egana AD. Acute effects of static stretching on characteristics of the isokinetic angle-torque relationship, surface electromyography, and mechanomyography. J Sports Sci, 2007; 25: 687-698Web of ScienceCrossrefPubMedGoogle Scholar

  • Cramer JT, Housh TJ, Coburn JW, Beck TW, Johnson GO. Acute effects of static stretching on maximal eccentric torque production in women. J Strength Cond Res, 2006; 20: 354- 358PubMedGoogle Scholar

  • Cramer JT, Housh TJ, Johnson GO, Miller JM, Coburn JW, Beck TW. Acute effects of static stretching on peak torque in women. J Strength Cond Res, 2004; 18: 236- 241PubMedGoogle Scholar

  • Fowles J, Sale D, MacDougall J. Reduced strength after passive stretch of the human plantar flexors. J Appl Physiol, 2000; 89: 1179-1188Web of ScienceGoogle Scholar

  • Franco BL, Signorelli GR, Trajano GS, Oliveira CG. Acute effects of different stretching exercises on muscular endurance. J Strength Cond Res, 2008; 22: 1832-1837PubMedCrossrefWeb of ScienceGoogle Scholar

  • Gomes TM, Simão R, Marques MC, Costa PB, Novaes JS. Acute effects of two different stretching methods on local muscular endurance performance. J Strength Cond Res, 2011; 25: 745-752CrossrefPubMedGoogle Scholar

  • Hindle KB, Whitcomb TJ, Briggs WO, Hong J. Proprioceptive neuromuscular facilitation (PNF): Its Mechanisms and effects on range of motion a and muscular function. J Hum Kinet, 2012; 31: 105- 113PubMedGoogle Scholar

  • Kato E, Vieillevoye S, Balestra C, Guissard N, Duchateau J. Acute effect of muscle stretching on the steadiness of sustained submaximal contractions of the plantar flexor muscles. J Appl Physiol, 2011; 110: 407-415Web of ScienceCrossrefPubMedGoogle Scholar

  • Lieber RL. The physiological basis of rehabilitation: skeletal muscle structure, function, & plasticity. Lippincott Williams & Wilkins; 2010Google Scholar

  • Manoel ME, Harris-Love MO, Danoff JV, Miller TA. Acute effects of static, dynamic, and proprioceptive neuromuscular facilitation stretching on muscle power in women. J Strength Cond Res, 2008; 22: 1528-1534CrossrefPubMedWeb of ScienceGoogle Scholar

  • Nelson AG, Kokkonen J, Arnall DA. Acute muscle stretching inhibits muscle strength endurance performance. J Strength Cond Res, 2005; 19: 338-343PubMedGoogle Scholar

  • Ogura Y, Miyahara Y, Naito H, Katamoto S, Aoki J. Duration of static stretching influences muscle force production in hamstring muscles. J Strength Cond Res, 2007; 21: 788PubMedGoogle Scholar

  • 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: 918-920PubMedGoogle Scholar

  • Rubini EC, André LLC, Paulo SCG. Effects of stretching on strength performance. Sports Med, 2007; 37: 213-224CrossrefPubMedGoogle Scholar

  • Sá MA, Gomes TM, Bentes CM, Costa e Silva G, Rodrigues Neto G, Novaes JS. Acute effect of static and proprioceptive neuromuscular facilitation stretching methods in the maximum number of repetitions in a single strength training session performance. Motricidade, 2013; 9: 73-81Google Scholar

  • Sekir U, Arabaci R, Akova B, Kadagan SM. Acute effects of static and dynamic stretching on leg flexor and extensor isokinetic strength in elite women athletes. Scand J Med Sci Sports, 2010; 20: 268-81Web of SciencePubMedGoogle Scholar

  • Wallmann HW, Christensen SD, Perry C, Hoover DL. The acute effects of various types of stretching static, dynamic, ballistic, and no stretch of the iliopsoas on 40-yard sprint times in recreational runners. Int J Sports Phys Ther, 2012; 7: 540-547PubMedGoogle Scholar

  • Winchester JB, Nelson AG, Kokkonen J. A single 30-s stretch is sufficient to inhibit maximal voluntary strength. Res Q Exerc Sport, 2009; 80: 257-261CrossrefWeb of ScienceGoogle Scholar

  • Yamaguchi T, Ishii K, Yamanaka M, Yasuda K. Acute effect of static stretching on power output during concentric dynamic constant external resistance leg extension. J Strength Cond Res, 2006; 20: 804-810 PubMedGoogle Scholar

About the article

Published Online: 2015-04-07

Published in Print: 2015-03-01


Citation Information: Journal of Human Kinetics, ISSN (Online) 1899-7562, DOI: https://doi.org/10.1515/hukin-2015-0018.

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© by Pablo B. Costa. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License. BY-NC-ND 3.0

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