CONTINUOUS WEIGHTED JUMPING: EFFECTS ON VERTICAL JUMP HEIGHT

T. G. Sevene, M. DeBeliso, C. Carson, J. M. Berning, C. Harris, K. J. Adams

Abstract


High intensity, near maximal exercise is a conditioning activity which can cause neural hyper-stimulation and lead to acute enhanced power production known as post-activation potentiation (PAP). Investigations need to be conducted to better understand the duration and intensity of the conditioning activity and subsequent effects on the fatigue-potentiation relationship. Purpose: To investigate the effect of 30 seconds of continuous vertical jumping while wearing a vest loaded with 30% of body weight on power output as measured with a maximal vertical jump (VJ). Methods: 14 volunteers (8 weight trained males [23.0+2.9 yrs, 79.8+13.8 kg, 179.9+8.6 cm] and 6 weight trained females [23.0+2.9 yrs, 69.9+13.3 kg, 171.6+7.0 cm]) participated in the study. Pre-testing consisted of each participant performing 3 VJs. The highest VJ was recorded as baseline. A weighted vest was then loaded equaling 30% of the individual's body weight; while wearing the weighted vest, participants performed 30 seconds of continuous VJs. Immediately after jumping participants were seated in a chair for 3 minutes; at 3 minutes, they performed a maximal VJ without the weighted vest in the same manner as done during pre-testing. Two additional VJs were repeated at 4 and 5 minutes post weighted jumping. A mixed design ANOVA with repeated measures was performed. Results: Results showed main effects for each of the independent variables tested, gender and jump. The posttest values at all 3 intervals for both males and females were significantly different from the pretest scores (F [3, 36] = 21.74, p < 0.05). Post hoc analysis indicated that the pretest VJ scores (M = 280.1±18.6 cm) decreased significantly at the 3 minute interval (M = 278.1±18.3 cm), followed by a significant increase in height at the 4 minute interval (M = 281.1±18.7 cm), and another increase at the 5 minute interval (M = 283.0±19.2 cm). Males jumped significantly higher than the females across all trials (p<0.05), however there was no significant difference between male and female VJ gain scores between pre-PAP VJ and 3, 4 and 5 minute post weighted exercise VJ. Conclusion: Results suggest that 30 seconds of weighted VJs causes fatigue which decreases VJ at 3 minutes post exercise. However, a PAP effect was seen at 4 and 5 minutes post weighted exercise significantly increasing VJ above pre testing. From a practical perspective, coaches must be aware of the complex nature of the fatigue-potentiation relationship when attempting to elicit a PAP effect in the individual athlete. 

 

Article visualizations:

Hit counter

DOI

Keywords


post-activation potentiation; power; jump

References


Ah Sue R, Adams KJ, DeBeliso M. (2016). Optimal timing for postactivation potentiation in women collegiate volleyball players. Sports 4(2): 27.

AlTarawneh G, Thorne S. (2017). A Pilot Study Exploring Spreadsheet Risk in Scientific Research. arXiv preprint arXiv:1703.09785.

Berning JM, Adams KJ, DeBeliso M, Sevene-Adams PG, Harris C, Stamford BA. (2010). Effect of functional isometric squats on vertical jump in trained and untrained men. J Strength Cond Res 24(9): 2285-2289.

Chattong C, Brown LE, Coburn JW, Noffal GJ. (2010). Effect of a dynamic loaded warm-up on vertical jump performance. J Strength Cond Res 24(7): 1751-1754.

Chiu ZF, Fry AC, Weiss LW, Schilling BK, Brown LE, Smith SL. (2003). Postactivation potentiation response in athletic and recreationally trained individuals. J Strength Cond Res 17(4): 671-677.

Deneke N, Sevene TG, DeBeliso M, Luke R, Berning JM, Adams KJ. (2017). Effect of weighted jump warm-up on vertical jump in female volleyball players. European J PE Sport Sci 3(9) : DOI: 10.5281/zenodo.841827

Docherty D, Hodgson MJ. (2007). The application of postactivation potentiation to elite sport. Int. J Sports Physiol Perf 2(4): 439-444.

Dolan M, Sevene TG, Berning J, Harris C, Climstein M, Adams KJ, DeBeliso M. (2017, In Press). Post-activation potentiation and the shot put throw. Int J Sport Sci August.

Enoka RM, Duchateau. (2016). Translating fatigue to human performance. Med Sci Sport Exerc 48(11): 2228-2238.

Evetich TK, Conley DS, McCawley PF. (2015). Postactivation potentiation enhances upper- and lower-body athletic performance in collegiate male and female athletes. J Strength Cond Res 29(2): 336-342.

Faulkinbury KJ, Stieg JL, Tran TT, Brown LE, Coburn JW, Judelson DA. (2011). Effects of depth jump vs. box jump warm-ups on vertical jump in collegiate vs. club female volleyball players. Med Sport 15(3): 103-106.

French DN, Kraemer WJ, Cooke CB. (2003). Changes in dynamic exercise performance following a sequence of preconditioning isometric muscle actions. J Strength Cond Res 17: 678–685.

Gouvêa AL, Fernandes IA, César EP, Silva WB, Gomes PC. (2013). The effects of rest intervals on jumping performance: A meta-analysis on post-activation potentiation studies. Journal of Sports Sciences 31(5): 459-467.

Gullich A, Schmidtbleicher D. (1996). MVC-induced short-term potentiation of explosive force. New Studies in Athletics 11: 67–81.

Hamilton C, Berning JM, Sevene TG, Adams KJ, DeBeliso M. (2016). The effects of post activation potentiation on the hang power clean. J Phys Ed Res 3(1): 1-9.

Healy R, Comyns TM. (2017). The application of postactivation potentiation methods to improve sprint speed. Strength Conditioning 39(1): 1-9.

Hodgson M, Docherty D, Robbins D. (2005). Postactivation potentiation: Underlying physiology and implications for motor performance. Sports Medicine 35: 585-595.

Kopp K, DeBeliso M. (2017). Post-Activation potentiation of a back squat to Romanian deadlift superset on vertical jump and sprint time. Int J Sports Sci 7(2): 34-36.

McCann MR, Flanagan SP. (2010). The effects of exercise selection and rest interval on postactivation potentiation of vertical jump performance. J Strength Cond Res 24(5): 1285-1291.

McMaster DT, Gill N, Cronin J, McGuigan MA. (2014). A brief review of strength and ballistic assessment methodologies in sport. Sports Medicine 44(5): 603-23.

Mitchell CJ, Sale DG. (2011). Enhancement of jump performance after a 5-RM squat is associated with postactivation potentiation. Euro J Applied Physiol: 111(8): 1957-1963.

NSCA (2016). NSCA Hot Topic: Post-activation potentiation (PAP). https://www.nsca.com/Education/Articles/Hot-Topic-Post-Activation-Potentiation-%28PAP%29/

Nuzzo JL, Anning JH, Scharfenberg JM. (2011). The reliability of three devices used for measuring vertical jump height. J Strength Cond Res 25(9): 2580-2590.

Rassier D, Macintosh B. (2000). Coexistence of potentiation and fatigue in skeletal muscle. Braz J Med Biol Res 33(5): 499-508.

Sale DG. (2002). Postactivation potentiation: role in human performance. Exer Sport Sci Rev 30(3): 138-143.

Seitz L, Haff G. (2016). Factors modulating post-activation potentiation of jump, sprint, throw, and upper-body ballistic performances: A systematic review with meta-analysis. Sports Medicine 46(2): 231-240.

Suchomel TM, Lamont HS, Moir GL. (2015). Understanding vertical jump potentiation: a deterministic model. Sports Med DOI 10.1007/s40279-015-0466-9.

Tano G, Bishop A, Berning J, Adams KJ, DeBeliso M. (2016). Post activation potentiation in North American high school football players. J Sports Sci 4(6): 346-352.

Thompson T, Berning J, Harris C, Adams KJ, DeBeliso M. (2017). The effects of complex training in male high school athletes on the back squat and vertical jump. Int J Sports Sci 7(2): 50-55 DOI: 10.5923/j.sports.20170702.05

Tillin NA, Bishop D. (2009). Factors modulating post-activation potentiation and its effect on performance of subsequent explosive activities. Sports Medicine 39(2): 147-166.

Tobin DP, Delahunt E. (2014). The acute effect of plyometric stimulus on jump performance in professional rugby players. J Strength Cond Res 28(2): 367-372.

Weber KR, Brown LE, Coburn JW, Zinder SM. (2008). Acute effects of heavy-load squats on consecutive squat jump performance. J Strength Cond Res 22(3): 726-730.

Witmer CA, Davis SE, Moir GL. (2010). The acute effects of back squats on vertical jump performance in men and women. J Sports Sci Med 9(2): 206-213.




DOI: http://dx.doi.org/10.46827/ejpe.v0i0.982

Refbacks

  • There are currently no refbacks.


Copyright (c) 2017 T. G. Sevene, M. DeBeliso, C. Carson, J. M. Berning, C. Harris, K. J. Adams

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright © 2015 - 2023. European Journal of Physical Education and Sport Science (ISSN 2501 - 1235) is a registered trademark of Open Access Publishing Group. All rights reserved.


This journal is a serial publication uniquely identified by an International Standard Serial Number (ISSN) serial number certificate issued by Romanian National Library (Biblioteca Nationala a Romaniei). All the research works are uniquely identified by a CrossRef DOI digital object identifier supplied by indexing and repository platforms. All authors who send their manuscripts to this journal and whose articles are published on this journal retain full copyright of their articles. All the research works published on this journal are meeting the Open Access Publishing requirements and can be freely accessed, shared, modified, distributed and used in educational, commercial and non-commercial purposes under a Creative Commons Attribution 4.0 International License (CC BY 4.0).