Effect of Eight Weeks of FIFA 11+ Training on the Agility and Explosive Power of Male College Volleyball Players

Mehrdad Shah Hosseini; Reza Rajabi; Hooman  Minoonejad; Amir  Hossein Barati

doi:10.5812/amh.97233

Effect of Eight Weeks of FIFA 11+ Training on the Agility and Explosive Power of Male College Volleyball Players

authors:

Mehrdad Shah Hosseini ¹ , Reza Rajabi ^{2
, *} , Hooman Minoonejad ² , Amir Hossein Barati ^{3
, 4}

1 Department of Health and Sport Medicine, Kish International Campus, University of Tehran, Kish, Iran

2 Health and Sport Medicine Department, Physical Education Faculty, University of Tehran, Tehran, Iran

3 Department of Corrective Exercises and Sport Injury, Shahid Beheshti University of Medical Sciences, Tehran, Iran

4 Department of Corrective Exercises and Sport Injury, Shahid Radjae Teacher Training University, Tehran, Iran

Annals of Military and Health Sciences Research: Vol.17, issue 3; e97233

published online: October 14, 2019

article type: Research Article

received: August 16, 2019

revised: September 27, 2019

accepted: October 4, 2019

DOI: https://doi.org/10.5812/amh.97233

how to cite: Shah Hosseini M, Rajabi R, Minoonejad H , Hossein Barati A . Effect of Eight Weeks of FIFA 11+ Training on the Agility and Explosive Power of Male College Volleyball Players. Ann Mil Health Sci Res. 2019;17(3):e97233. https://doi.org/10.5812/amh.97233.

Abstract

Background:

FIFA 11+ training is a warm-up program for the prevention of athletic injuries, including slow running, active stretching, and player-controlled collisions designed to focus on central muscle stability, neuromuscular control, eccentric hamstring strength, and agility, and can improve sports performance.

Objectives:

This study aimed to investigate the effect of eight weeks of FIFA 11+ training on the agility and explosive power of male volleyball players.

Methods:

In this quasi-experimental study, 24 male volleyball players from the Islamic Azad University of Marvdasht were selected as the statistical sample and divided into two groups of 11+ training and control. The 11+ training group performed FIFA 11+ training for eight weeks, three sessions per week and 20 minutes each session. The control group only had their usual activities in this period. Agility and explosive power were measured before the start of training and 24 hours after the last session of training through Illinois test, horizontal jump test, and vertical Sargent test. The Shapiro-Wilk test and independent/dependent samples t-tests were used to analyze the data (P ≤ 0.05).

Results:

Eight weeks of 11+ training had a significant effect on agility (P = 0.008), horizontal jump (P = 0.001), and vertical jump (P = 0.001).

Conclusions:

It seems that 11+ training can be used to improve the agility and explosive power of male college volleyball players.

Keywords

Exercise Performance Volleyball

1. Background

Volleyball is one of the most popular sports in the world and because of its popularity, many studies have attempted to find the most comprehensive training program to improve the physical performance of volleyball players (1). In addition to tactical and technical skills, muscular strength and power have proven to be crucial to success in high-level volleyball competitions (2). On the other hand, this sport is considered a serious competitive sport with a high level of skeletal muscle injury. About 63% of musculoskeletal injuries are seen in jump and landing movements, which form an essential part of volleyball defense and attack (3). Deciding on having a training program is an important task for coaches. Among other things, coaches need to decide which type of physical activity is most effective for the athlete to perform and to prevent possible injuries. From this point of view, choosing the training that has a positive effect on more than one factor at a time seems interesting (4).

The FIFA Medical Research and Evaluation Center, in collaboration with the Oslo Sports Injury and Research Center and the Santa Monica Sports Medicine and Orthopedic Center, has expanded a comprehensive 11+ warm-up program aiming at preventing injuries in football. The program consists of three parts: slow running training, strength training, plyometric, balance training and quick running training (5). Despite the success of the FIFA 11+ program in preventing sports injuries (6-8), it seems difficult to persuade athletes and coaches to perform this training solely to prevent injury, unless the training has a positive significant effect on their performance. There is evidence that training programs, including plyometric, balance training and lumbar pelvic stabilization training, can directly improve athlete performance variables, especially those associated with vertical jump height, strength, and agility (9, 10). In this regard, it was reported that although both plyometric and skill training programs made positive changes in athlete jumping and throwing capacity, plyometric training was more effective than skill training in improving these capacities in elite female volleyball players (11). Fazl Ersi et al. (12) stated that central stability is effective in power transfer during exercises; therefore, a greater emphasis on strengthening these muscles may be effective in improving athletic performance. Eight weeks of strength and plyometric training led to improved height jump in young female volleyball players (13). FIFA 11+ training improved the speed, jump, and stability of young amateur soccer players (14). Also, eight weeks (15), four weeks (16), and nine weeks (17) of the FIFA 11+ training resulted in improved jump height in young soccer players (15). However, contrary to the above results, some studies indicated the ineffectiveness of FIFA 11+ injury prevention program in promoting athletes' performance. For example, in Zarei et al. study (18), a 10-week FIFA 11+ injury prevention program had no significant effect on the improvement of zigzag dribbling, Illinois, sitting and reaching, vertical jump, 20 m sprint, and Planck sideways. Also, nine weeks of FIFA 11+ training had no significant effect on improving balance, speed, agility, and vertical jump (19).

2. Objectives

There has been a great deal of research on the impact of the FIFA 11+ injury prevention program on athletes’ performance in soccer (16, 17, 20). In this regard, researchers have recently conducted some research in other sports, including handball (21) and basketball (22), but a few studies have examined the impact of the FIFA 11+ program on the performance of volleyball players. Therefore, this study aimed to investigate the impact of this type of injury prevention program on the performance of male volleyball players. On the other hand, if FIFA 11+ training improves the agility and explosive power of volleyball players, which is an important factor in volleyball defense and spike movements, it can be expected that coaches and athletes are more inclined to accept this warm-up program.

3. Methods

In this quasi-experimental applied study, 24 male volleyball players from the Islamic Azad University of Marvdasht were selected as the sample. The inclusion criteria comprised having at least three years of teamwork in volleyball and being at a level of ability to play in the college team. The exclusion criteria included the subjects’ lack of consent and willingness to continue the research process, lack of participation in two consecutive training sessions, inappropriate cooperation during the study, and having injury and pain during the study and at the posttest.

Before starting the intervention program and learning how to perform correctly, all the players participated in a training workshop where they received video training and explanations about the intervention program. In the end, a summary of the training style guidelines was provided to the athletes and they were asked to study it and sign consent forms.

First, the agility (by Illinois test) and explosive power (by horizontal jump and vertical jump test) were measured (23, 24). The Illinois test was used to measure agility. The length of the Illinois test is 10 meters by 10 meters, which is determined by the cones of the track. Four cones were centered at a distance of 3.3 m from each other and the other four cones were 2.5 m away from the central cones. Participants lay behind the starter line on the abdomen as the hands were held next to the body and the head either turned sideways or looked forward. With the “move” command, participants stood on their feet and moved rapidly to the first marker cone, turned it around, and moved to the first central cone, and then they ran up and down the cones. The participants, then, rotated around the second marker on the endpoint at their maximum speed, and moved to the finish line and passed it. The duration of tests being performed correctly was recorded in seconds (25). To evaluate the Sargent jump, participants inked their right fingers, stood on the right side of a wall, and lifted their right hand as high as possible, marking the highest point they could touch. At the moment of jumping, participants could freely bend their lower limbs and use their upper limb movement to reach the peak of the jump. At the highest jump point, participants had to touch the highest possible point with their right hand against the wall. The height of the jump was the difference between the points marked on the wall.

All subjects completed three attempts with a minimum of 45-second intervals between each attempt and only the best jump was considered as their jump height (26). To measure the jump length, participants stood behind a line. They made the long jump by using their hands’ movement. The distance between the heel to the starting line was calculated as the length of the jump. Each subject made the jump twice and the maximum jump length was recorded (27). Subjects were then divided into two groups of 12, including 11+ training (Table 1) and control. The 11+ training group performed FIFA 11+ training for eight weeks, three sessions per week and 20 minutes each session (28). It is worth noting that this training was designed with a focus on central muscle stability, neuromuscular control, eccentric hamstring strength, and agility. During this period, the control group performed only their usual activities. Twenty-four hours after the last training session, similar to the pretest, the agility and explosive power of the subjects in the 11+ training and control groups were measured. The Shapiro-Wilk and independent/dependent sample t-tests were used to analyze the data (P ≤ 0.05).

Table 1.

The 11+Training Protocol

Training	Part
Training	Part 1	Part 2	Part 3
Type of training	Slow running, active stretching, and player-controlled collisions	Six sets of training focusing on strength, balance, muscle control, and central muscle stability	High speed running with diversion
Duration, min	8	10	2

4. Results

The demographic characteristics of the subjects are presented in Table 2. Also, the pretest levels of agility and explosive power are presented in Table 3.

Table 2.

Demographic Characteristics of Subjects in Six Groups of Research at the Beginning of the Research Period

	Age, y	Height, cm	Weight, kg
Training	20.31 ± 1.16	189.75 ± 5.62	79.52 ± 7.71
Control	22.12 ± 2.53	191.31 ± 4.77	81.57 ± 9.88

Table 3.

The Results of Independent Samples t-Test and Dependent Samples t-Test to Examine the Effect of FIFA 11+ Training on Agility and Explosive Power

Variable	Group	Time	Mean ± SD	Dependent Samples t-Test	Independent Samples t-Test
Illinois test record	Training	Pretest	16.56 ± 0.73	P = 0.02, t = -2.55^a	P = 0.008, t = -2.91^c
	Training	Posttest	15.92 ± 0.81	P = 0.02, t = -2.55^a
	Control	Pretest	15.88 ± 0.97	P = 0.14, t = 1.56
	Control	Posttest	16.01 ± 1.06	P = 0.14, t = 1.56
Horizontal jump test record	Training	Pretest	60.30 ± 6.70	P = 0.001, t = 4.39^b	P = 0.001, t = 4.25^d
	Training	Posttest	63.67 ± 6.17	P = 0.001, t = 4.39^b
	Control	Pretest	62.60 ± 7.09	P = 0.77, t = 0.29
	Control	Posttest	62.53 ± 6.52	P = 0.77, t = 0.29
Vertical jump test record	Training	Pretest	2.55 ± 0.18	P = 0.001, t = 6.23^b	P = 0.001, t = 4.67^d
	Training	Posttest	2.74 ± 0.16	P = 0.001, t = 6.23^b
	Control	Pretest	2.47 ± 0.11	P = 0.90, t = -0.12
	Control	Posttest	2.48 ± 0.10	P = 0.90, t = -0.12

^aSignificant decrease in the posttest compared to the pretest

^bSignificant increase in the posttest compared to the pretest

^cSignificantly lower in the 11+ training group than in the control group

^dSignificantly higher in the 11+ training group than in the control group

The results of the independent samples t-test showed that the Illinois test record was significantly lower in the 11+ training group than in the control group (P = 0.008, t = -2.91). However, the horizontal jump test record (P = 0.001, t = 4.25) and vertical jump test record (P = 0.001, t = 4.67) were significantly higher in the 11+ training group than in the control group. The results of dependent samples t-test showed that in the 11+ training group, the Illinois test record at the posttest significantly decreased compared to the pretest (P = 0.02, t = - 2.55); however, the horizontal jump test record (P = 0.001, t = 4.39) and vertical jump test record (P = 0.001, t = 6.23) significantly increased at the posttest compared to the pretest. In the control group, there was no significant difference in the pretest and posttest results of Illinois test record (P = 0.14, t = 1.56), horizontal jump test record (P = 0.77, t = 0.29), and vertical jump test record (P = 0.90, t = -0.12). The results of the present study showed that eight weeks of FIFA 11+ training had a significant effect on improving vertical jump and long jump in young college volleyball players, implying that athletes who performed FIFA 11+ training had significantly better explosive performance (vertical and long jumps) than control subjects.

5. Discussion

The results showed that eight weeks of FIFA 11+ training had a significant effect on improving vertical jump and long jump in young volleyball players. Consistent with the findings of the present study, Ayala et al. (14), Akbari et al. (15), and Costa Silva et al. (17) reported that FIFA 11+ training improved vertical jump in young male soccer players. Fazl Ersi et al. (12) showed that strengthening the central stability of the body was effective in transmitting power in high jump motion. Also, Gjinovci et al. (11) reported that plyometric training improved the jumping capacity of female volleyball players. Similarly, Hale et al. (13), Marques et al. (2), and Pereira et al. (1) stated that strength training and plyometric training were effective on vertical jump in young female volleyball players. Nevertheless, inconsistence with the results of the present study, Gomes Neto et al. (20) in a systematic review and meta-analysis showed that FIFA 11+ training did not improve jump height among football players. Gatterer et al. (29) reported that five weeks of FIFA 11+ training did not affect standing long jump performance in children aged < 14 years. Inconsistency between the results of the present study and Gatterer et al. (29) study can be due to different samples. Since the second part of FIFA 11+ focuses on lower extremity strength, central stability, plyometric/agility, and balance training (19), it seems that one of the important reasons for the positive impact of FIFA 11+ on the explosive power of volleyball players could be the existence of a second part training.

The results of the present study also showed that eight weeks of FIFA 11+ training had a significant effect on improving (decreasing) the time of Illinois agility test in male college volleyball players. In line with the findings of the present study, Hale et al. (13) showed that plyometric and strength training improved the agility of young female volleyball players. Also, Daneshjoo et al. (30) suggested that the 11+ warm-up program could improve the Illinois agility test in soccer players. Besides, Pomares-Noguera et al. (16) reported that the 11+ training could improve the agility time in adolescent soccer players. In this respect, it can be stated that since the third part of the 11+ training involves running training with diversion (crop motions) (19), the agility time improvement was seen in these studies. However, contrary to the findings of the present study, Zarei et al. (18) reported that the FIFA 11+ program for children did not affect vertical jump performance and agility of adolescent soccer players. Moreover, Impellizzeri et al. (19) suggested that the 11+ training, despite its effect on knee flexing muscle strength, did not have a real impact on the agility and vertical jump of soccer players. One of the reasons why the findings of these two studies are inconsistent with the present study findings is the difference in age and exercise type (i.e., the two studies were performed on soccer players).

5.1. Conclusions

According to the findings of the present study, it seems that the 11+ training increases athletic performance by improving lower limb explosive power and Illinois agility in male volleyball players. Therefore, it is suggested that volleyball players, like football players, use this injury prevention program to improve their athletic performance in addition to reducing injury.

Acknowledgements

Footnotes

Authors' Contribution: All authors equally contributed to the writing and revision of this paper.
Conflict of Interests: The authors declare that they had no conflicts of interest.
Ethical Approval: Researchers received introduction letters from the Sports Sciences Research Institute of Iran.
Funding/Support: The Kish International Branch of Tehran University funded the study.
Informed Consent: All the players signed consent forms.

References

1.
Pereira A, Costa AM, Santos P, Figueiredo T, Joao PV. Training strategy of explosive strength in young female volleyball players. Medicina (Kaunas). 2015;51(2):126-31. [PubMed ID: 25975882]. https://doi.org/10.1016/j.medici.2015.03.004.
2.
Marques MC, Tillaar R, Vescovi JD, Gonzalez-Badillo JJ. Changes in strength and power performance in elite senior female professional volleyball players during the in-season: A case study. J Strength Cond Res. 2008;22(4):1147-55. [PubMed ID: 18545195]. https://doi.org/10.1519/JSC.0b013e31816a42d0.
3.
Salci Y, Kentel BB, Heycan C, Akin S, Korkusuz F. Comparison of landing maneuvers between male and female college volleyball players. Clin Biomech (Bristol, Avon). 2004;19(6):622-8. [PubMed ID: 15234487]. https://doi.org/10.1016/j.clinbiomech.2004.03.006.
4.
Leporace G, Praxedes J, Pereira GR, Pinto SM, Chagas D, Metsavaht L, et al. Influence of a preventive training program on lower limb kinematics and vertical jump height of male volleyball athletes. Phys Ther Sport. 2013;14(1):35-43. [PubMed ID: 23312730]. https://doi.org/10.1016/j.ptsp.2012.02.005.
5.
Soligard T, Myklebust G, Steffen K, Holme I, Silvers H, Bizzini M, et al. Comprehensive warm-up programme to prevent injuries in young female footballers: Cluster randomised controlled trial. BMJ. 2008;337. a2469. [PubMed ID: 19066253]. [PubMed Central ID: PMC2600961]. https://doi.org/10.1136/bmj.a2469.
6.
Nouni-Garcia R, Asensio-Garcia MR, Orozco-Beltran D, Lopez-Pineda A, Gil-Guillen VF, Quesada JA, et al. The FIFA 11 programme reduces the costs associated with ankle and hamstring injuries in amateur Spanish football players: A retrospective cohort study. Eur J Sport Sci. 2019;19(8):1150-6. [PubMed ID: 30829121]. https://doi.org/10.1080/17461391.2019.1577495.
7.
Barengo NC, Meneses-Echavez JF, Ramirez-Velez R, Cohen DD, Tovar G, Bautista JE. The impact of the FIFA 11+ training program on injury prevention in football players: A systematic review. Int J Environ Res Public Health. 2014;11(11):11986-2000. [PubMed ID: 25415209]. [PubMed Central ID: PMC4245655]. https://doi.org/10.3390/ijerph111111986.
8.
Nouni-Garcia R, Carratala-Munuera C, Orozco-Beltran D, Lopez-Pineda A, Asensio-Garcia MR, Gil-Guillen VF. Clinical benefit of the FIFA 11 programme for the prevention of hamstring and lateral ankle ligament injuries among amateur soccer players. Inj Prev. 2018;24(2):149-54. [PubMed ID: 28642247]. https://doi.org/10.1136/injuryprev-2016-042267.
9.
DiStefano LJ, Padua DA, Blackburn JT, Garrett WE, Guskiewicz KM, Marshall SW. Integrated injury prevention program improves balance and vertical jump height in children. J Strength Cond Res. 2010;24(2):332-42. [PubMed ID: 20072067]. https://doi.org/10.1519/JSC.0b013e3181cc2225.
10.
Myer GD, Ford KR, Palumbo JP, Hewett TE. Neuromuscular training improves performance and lower-extremity biomechanics in female athletes. J Strength Cond Res. 2005;19(1):51-60. [PubMed ID: 15705045]. https://doi.org/10.1519/13643.1.
11.
Gjinovci B, Idrizovic K, Uljevic O, Sekulic D. Plyometric training improves sprinting, jumping and throwing capacities of high level female volleyball players better than skill-based conditioning. J Sports Sci Med. 2017;16(4):527-35. [PubMed ID: 29238253]. [PubMed Central ID: PMC5721183].
12.
Fazli Ersi F, Eshrastaghi S, Mirkarimpour SH, Rezvan Khah N. The relation between central stability with power function of female athletics in vertical jumping performance. J Appl Exer Physiol. 2015;11(22):13-22. https://doi.org/10.22080/jaep.2016.1204.
13.
Hale WD, Kollock RO, Pace J. Vertical jump and agility performance improves after 8-week conditioning program in youth female volleyball athletes. Med Sci Sports Exercise. 2019;51(Supplement):808. https://doi.org/10.1249/01.mss.0000562913.82926.64.
14.
Ayala F, Pomares-Noguera C, Robles-Palazon FJ, Del Pilar Garcia-Vaquero M, Ruiz-Perez I, Hernandez-Sanchez S, et al. Training effects of the FIFA 11+ and Harmoknee on several neuromuscular parameters of physical performance measures. Int J Sports Med. 2017;38(4):278-89. [PubMed ID: 28192831]. https://doi.org/10.1055/s-0042-121260.
15.
Akbari H, Sahebozamani M, Daneshjoo A, Amiri-Khorasani M. Effect of the FIFA 11+ programme on vertical jump performance in elite male youth soccer players. Montenegrin J Sports Sci Med. 2018;7(2). https://doi.org/10.26773/mjssm.180903.
16.
Pomares-Noguera C, Ayala F, Robles-Palazon FJ, Alomoto-Burneo JF, Lopez-Valenciano A, Elvira JLL, et al. Training effects of the FIFA 11+ kids on physical performance in youth football players: A randomized control trial. Front Pediatr. 2018;6:40. [PubMed ID: 29556489]. [PubMed Central ID: PMC5844920]. https://doi.org/10.3389/fped.2018.00040.
17.
Costa Silva JRL, Silva JF, Salvador PCN, Freitas CR. O efeito do “FIFA 11+” na performance de saltos verticais em atletas de futebol. Revista Brasileira de Cineantropometria e Desempenho Humano. 2015;17(6):733. https://doi.org/10.5007/1980-0037.2015v17n6p733.
18.
Zarei M, Namazi P, Abbasi H, Noruzyan M, Mahmoodzade S, Seifbarghi T. The effect of ten-week FIFA 11+ injury prevention program for kids on performance and fitness of adolescent soccer players. Asian J Sports Med. 2018;9(3). https://doi.org/10.5812/asjsm.61013.
19.
Impellizzeri FM, Bizzini M, Dvorak J, Pellegrini B, Schena F, Junge A. Physiological and performance responses to the FIFA 11+ (part 2): A randomised controlled trial on the training effects. J Sports Sci. 2013;31(13):1491-502. [PubMed ID: 23855764]. https://doi.org/10.1080/02640414.2013.802926.
20.
Gomes Neto M, Conceicao CS, de Lima Brasileiro AJA, de Sousa CS, Carvalho VO, de Jesus FLA. Effects of the FIFA 11 training program on injury prevention and performance in football players: A systematic review and meta-analysis. Clin Rehabil. 2017;31(5):651-9. [PubMed ID: 27811329]. https://doi.org/10.1177/0269215516675906.
21.
Oliano VJ, Teixeira LP, Lara S, Balk RS, Fagundes SG. [Effect of FIFA 11+ in addition to conventional handball training on balance and isokinetic strength]. Rev Bras Cineantropom Desempenho. 2017;19(4):406. Portuguese. https://doi.org/10.5007/1980-0037.2017v19n4p406.
22.
Sahin NE, Gürses VV, Baydil B, Akgül MŞ, Feka K, İovane AN. The effect of comprehensive warm up (FIFA 11+ program) on motor abilities in young basketball players: A pilot study. Acta Medica. 2018;34:703. https://doi.org/10.19193/0393-6384_2018_3_108.
23.
Greco G, Messina G, Angiulli A, Patti A, Iovane A, Fischetti F. A preliminary comparative study on the effects of pilates training on physical fitness of young female volleyball players. Acta Medica Mediterranea. 2019;35(2):783-9.
24.
Hashem Mohammed MH. Effect of a volleyball course on health-related fitness components of university students. Sport Mont. 2018;16(1):41-3. https://doi.org/10.26773/smj.180209.
25.
Raya MA, Gailey RS, Gaunaurd IA, Jayne DM, Campbell SM, Gagne E, et al. Comparison of three agility tests with male servicemembers: Edgren Side Step Test, T-Test, and Illinois Agility Test. J Rehabil Res Dev. 2013;50(7):951-60. [PubMed ID: 24301432]. https://doi.org/10.1682/JRRD.2012.05.0096.
26.
de Salles PG, Vasconcellos FV, de Salles GF, Fonseca RT, Dantas EH. Validity and reproducibility of the sargent jump test in the assessment of explosive strength in soccer players. J Hum Kinet. 2012;33:115-21. [PubMed ID: 23487354]. [PubMed Central ID: PMC3588680]. https://doi.org/10.2478/v10078-012-0050-4.
27.
Mirmiran E, Lotfi G, Hatami F. The effect of different focus of attention as verbal cues on performance and retention of standing long jump. Broad Res Artif Intell Neurosci. 2019;10(3):126-33.
28.
Minoonejad H, Kheiroddin F, Alizadeh MH, Panahibakhsh M, Zareei M. Comparison of the effects of modified FIFA 11+ program and FIFA 11+ on the prevention of lower extremity injuries in young male soccer players. J Res Sport Rehabil. 2014;2(3):1-9.
29.
Gatterer H, Lorenzi D, Ruedl G, Burtscher M. The "FIFA 11+" injury prevention program improves body stability in child (10 year old) soccer players. Biol Sport. 2018;35(2):153-8. [PubMed ID: 30455543]. [PubMed Central ID: PMC6234308]. https://doi.org/10.5114/biolsport.2018.71604.
30.
Daneshjoo A, Mokhtar AH, Rahnama N, Yusof A. Effects of the 11+ and Harmoknee warm-up programs on physical performance measures in professional soccer players. J Sports Sci Med. 2013;12(3):489-96. [PubMed ID: 24149156]. [PubMed Central ID: PMC3772593].

comments