Training aimed at the development of power and physical performance of futsal players

Freitas, Victor Hugo de; Rinaldo, Márcio; Turquino, Guilherme Guimarães; Miloski, Bernardo; Ramos, Solange de Paula

doi:10.1590/1980-0037.2019v21e60119

Abstract

The aim of the study was to analyze the effect of a training period aimed at the development of lower limb power and physical performance of futsal players. The sample consisted of 10 futsal players from a professional team aged 23.70 ± 5.85 years, 72.33 ± 6.01 kg and 174.40 ± 0.05 cm. Players were monitored for a period of 4 training weeks, corresponding to the beginning of the competitive period. During this period, physical training sought to improve lower limb power. At the beginning and end of the training period, the following tests were performed: Squat jump (SJ), Countermovement jump (CMJ), 15-meter speed(Vel_15m) and Futsal Intermittent Endurance Test (FIET).The training load was monitored by the Session Perceived Exertion method.Weeks 1 and 3 presented higher training load than weeks 2 and 4 (p <0.01). In the post-training period, shorter running time in the Vel_15m test (p = 0.04), greater height in SJ (p <0.01) and CMJ (p <0.01) tests, and higher maximal speed in FIET (p = 0.04) were observed. It could be concluded that directing training at the beginning of the competitive season to improve power increases the lower limb power of futsal players, with consequent improvement of speed and the ability to perform intermittent actions at high intensities.

Key words
Sports; Monitoring; Exertion; Strength

Resumo

O objetivo do estudo foi analisar o efeito de um período de treinamento direcionado ao desenvolvimento de potência de membros inferiores no desempenho físico de jogadores de futsal. A amostra foi composta por 10 jogadores de futsal de uma equipe profissional com 23,70 ± 5,85 anos,72,33 ± 6,01 kg e 174,40 ± 0,05 cm. Os jogadores foram monitorados por um período de 4 semanas de treinamento, correspondente ao início do período competitivo. Neste período, o treinamento físico buscouaperfeiçoar a potência de membros inferiores. No início e ao término do período, foram realizados os testes: Squat jump (SJ), Countermovemt jump (CMJ), velocidade de 15 metros (Vel_15m) e Futsal Intermitente Endurance Test (FIET). A carga de treinamento foi monitorada pelo método da percepçãosubjetiva de esforço da sessão. As semanas 1 e 3 apresentaram maior CTST que as semanas 2 e 4 (p < 0,01). No momento pós treinamento, observou-se menor tempo de corrida no teste de Vel_15m (p = 0,04), maior altura nos testes SJ (p < 0,01) e CMJ (p < 0,01), e maior velocidade no FIET (p = 0,04). Pode-se concluir que direcionar o treinamento no início da temporada competitiva para melhorada potência proporciona incremento na potência de membros inferiores de jogadores de futsal, com consequente melhora da velocidade e na capacidade de realizar ações intermitentes em alta intensidade.

Palavras-chave
Esporte; Monitoramento; Esforço; força

INTRODUCTION

Futsal is a team sport in which multiple sprints and high-intensity actions occur intermittently during matches¹1 Beato M, Coratella G, Schena F. Brief review of the state of art in futsal. J Sports Med Phys Fitness 2016;56(4):428-32.. In addition to running approximately 3000-4000 m at intensity of 85-90% maximal heart rate (HR_max), futsal players perform sprint sequences (3-4 sprints) every 20-30s during matches¹1 Beato M, Coratella G, Schena F. Brief review of the state of art in futsal. J Sports Med Phys Fitness 2016;56(4):428-32.

2 Barbero-Alvarez JC, Soto VM, Barbero-Alvarez V, Granda-Vera J. Match analysisand heart rate of futsal players during competition. J Sports Sci 2008;26(1):63-73.

3 Bueno MJ, Caetano FG, Pereira TJ, De Souza NM, Moreira GD, Nakamura FY, et al. Analysis of the distance covered by Brazilian professional futsal players during official matches. Sports Biomech 2014;13(3):230-40.-⁴4 Castagna C, D’Ottavio S, Granda Vera J, Barbero Alvarez JC. Match demands of professional Futsal: a case study. J Sci Med Sport 2009;12(4):490-4.. Although much of the energy demand during matches is supplied by the aerobic system⁴4 Castagna C, D’Ottavio S, Granda Vera J, Barbero Alvarez JC. Match demands of professional Futsal: a case study. J Sci Med Sport 2009;12(4):490-4.,⁵5 Naser N, Ali A, Macadam P. Physical and physiological demands of futsal. J Exerc Sci Fitness 2017;15(2):76-80., constant sprints, abrupt stops, accelerations, decelerations, changes of direction and finalizations that occur during matches require from players well-trained neuromuscular system and anaerobic energy system⁴4 Castagna C, D’Ottavio S, Granda Vera J, Barbero Alvarez JC. Match demands of professional Futsal: a case study. J Sci Med Sport 2009;12(4):490-4.

5 Naser N, Ali A, Macadam P. Physical and physiological demands of futsal. J Exerc Sci Fitness 2017;15(2):76-80.

6 Makaje N, Ruangthai R, Arkarapanthu A, Yoopat P. Physiological demands and activity profiles during futsal match play according to competitive level. J Sports Med Phys Fitness 2012;52(4):366-74.-⁷7 Nogueira FC, De Freitas VH, Nogueira RA, Miloski B, Wernek FZ, Bara-Filho MG. Improvement of physical performance, hormonal profile, recovery-stress balance and increase of muscle damage in a specific futsal pre-season planning. Rev Andal Med Deporte 2018;11(2):63-8.. In this way, sessions aimed at strength and power training are fundamental components of the annual training planning for players of this modality.

Similarly to other team modalities, futsal presents short period of preparation and extended competitive period⁸8 Matveyev LP. Modern procedures for the construction of macrocycles Modern. Mod Athlete Coach 1992;30:32-4.

9 Miloski B, de Freitas VH, Bara-Filho MG. Monitoramento da carga interna de treinamento em jogadores de futsal ao longo de uma temporada. Rev Bras Cineantropom Desempenho Hum 2012;14:671-9.-¹⁰10 Moreira A. The training periodization and the emerged questions: the team sports’case. Rev Andal Med Deporte 2010;3(4):170-8.. In this way, coaches often direct training loads in the preparatory period for the improvement of players’ physical fitness, so that they are able to appropriately deal with the physical requirements of matches¹¹11 Freitas VH, Miloski B, Bara-Filho MG. Quantification of training load using session RPE method and performance in futsal. Rev Bras Cineantropom Desempenho Hum 2012;14(1):73-82.. Previous studies have shown that with the adoption of this strategy in preparatory periods, futsal players can present substantial improvements in physical tests with high aerobic demand (Yo-Yo Intermittent Recovery test, multistage 20-m shuttle-run)¹²12 de Freitas VH, Pereira LA, de Souza EA, Leicht AS, Bertollo M, Nakamura FY. Sensitivity of Yo-Yo IR and Cardiac Autonomic Responses to Training in Futsal Players. Int J Sports Physiol Perform 2015; 10(5):553-8.,¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33., while improvements in strength and power tests are limited¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.,¹⁴14 Soares-Caldeira LF, de Souza EA, de Freitas VH, de Moraes SM, Leicht AS, Nakamura FY. Effects of additional repeated sprint training during preseason on performance, heart rate variability, and stress symptoms in futsal players: a randomized controlled trial. J Strength Cond Res 2014;28(10):2815-26.. These results are attributed to the effect of concurrent training caused by the large volume of training sessions aimed at the development of aerobic capacity or sessions that substantially require this system (technical-tactical training) and / or the difficulty of directing training loads to the multiple physical needs of the modality during this period¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.,¹⁵15 Loturco I, Pereira LA, Kobal R, Zanetti V, Gil S, Kitamura K, et al. Half-squat or jump squat training under optimum power load conditions to counteract power and speed decrements in Brazilian elite soccer players during the preseason. J Sports Sci 2015;33(12):1283-92.. However, a previous study showed that after a preparatory period with reduction of training loads and with sessions aiming at the development of strength and power of lower limbs, futsal players improved performance in power and speed tests¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.. Despite the importance of previous findings, it is necessary to further investigate the physical performance responses of futsal players undergoing training periods with emphasis on strength and power development, as well as studies describing these training sessions in a detailed way so that they can be replicated or modified (in case of negative effect) by coaches.

Therefore, the aim of this study is to analyze the effect of a training period aimed at the development of lower limb power, performed at the beginning of the competitive season, on the physical performance of futsal players. The hypothesis raised is that, due to the lower training volume and to the application of loads for the training of lower limb power¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33., there will be an increase in performance in tests that demand this physical capacity (vertical jump and velocity) and performance maintenance in tests with great aerobic demand.

METHOD

Subjects

The sample of this study was composed of 10 futsal players of a professionalteam from the State of Paraná aged 23.70 ± 5.85 years, 72.33 ± 6.01 kg of weight and 174.40 ± 0.05 cm of height. Players have participated in official games in the main or base category for a minimum of 3 years. Inclusion criteria were: to be linked to the team involved in this study; 90% attendancein team training; being in full physical condition to participate in training sessions. Exclusion criteria were: presence of lesions; use of ergogenic resources or anti-inflammatory drugs; disconnection from the team during training sessions. Players were instructed by a nutrition professional on how to adjust meals according to individual nutritional needs. However, no nutritional recall was performed. This study was approved by the Ethics Research Committee of the local institution, and players signed a written informed consent prior to the beginning of data collections, informing them about the study procedures.

Experimental design

Players were monitored for a period of 4 weeks of habitual futsal training, corresponding to the beginning of the competitive period. The period immediately followed a 6-week preparatory period. The competition in which the team was participating was the “Gold Series” Championship, the first division of the main futsal championship of the state of Paraná. There have been 3 matches during the 4 weeks of training. During this period, physical training was planned with the aim of improving lower limb power. A one maximal repetition test (1 RM) was performed one week before the start of monitored training. On the first day of training of the first week and after the fourth week (first day of the fifth week), players were submitted to a battery of Physical Tests. Physical tests were: Squat jump (SJ), Countermovement jump (CMJ), 15-meter speed (Vel_15m) and Futsal Intermittent Endurance Test (FIET). For this, players performed warm-up exercises with light runs, lateral displacements, displacement with backward runs, small jumps and stretches with duration of approximately 10 minutes. All tests were performed in the gymnasium where training and matches are performed (40x20 m Paviflex ® type vinyl floor court) and after 48 hours without training. The training load was monitored by means of the session rating of perceived exertion (session-RPE) method¹⁶16 Foster C, Florhaug JA, Franklin J, Gottschall L, Hrovatin LA, Parker S, et al. A newapproach to monitoring exercise training. J Strength Cond Res 2001;15(1):109-15..

Training Description

Training sessions aimed at technical and tactical improvement were performed in a 40x20 m Paviflex® type vinyl floor court. The methodology adopted by the coach was to develop match strategies for the evolution of the following phases: defense, attack, transition and rehearsed ball plays. Neuromuscular training sessions were performed in a gym with strength training equipment. During the 4 weeks, 8 training sessions (2 sessions per week) were carried out with exercises aimed at developing power and strengthening of lower and upper limb muscles (table 2). Exercises were divided into two training sessions: session (A) and session (B). Session A was always held in the first weekly strength training session and session B in the second weekly session. Exercises prescribed in each session (A or B) are described in table 1. Activities were also carried out with a psychologist specialized in sports psychology. All activities developed in each shift (morning or afternoon) are described in table 2.

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Table 1
Distribution of power exercises performed in the two weekly sessions, A and B.

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Table 2
Training distribution during the training period analyzed.

In both sessions A and B, athletes performed the following exercises: Leg press, leg extension, abduction machine and adduction machine (table 1). In jumping exercises (Loaded jump squat, Unipodal Jump, Dead lift with jump), players were instructed to jump as high as possible, and the applied load was determined as the one in which players were able to jump at height of approximately 20 cm. Jumping height was visually measured by the coach using an object with height of 20 cm positioned next to the player. If players jumped above or below 20 cm, the load was set at 5%. In lateral jumps and horizontal jumps, players were instructed to jump as high as possible only with body weight. Exercises performed with lateral jumps, horizontal jumps, box jumps, unipodal jumps, jump squat, dead lift and Leg press were performed in 4 sets of 6 jumps per exercise, with intervals of 2 minutes per set. Other exercises were performed with 4 sets of 10 maximal repetitions, with loads of 65% of 1 maximal repetition (RM). Other exercises for upper limbs were added during the 4-week intervention (Table 1).

Instruments

1 maximum repetition test

The 1 maximum repetition test (1RM) was performed with all players in each of the exercises in which the load was calculated using this variable (table 1). In this test, players should perform an eccentric action followed by a concentric one. Load was increased by 5% for the next execution if it was not possible to perform a second concentric action, and decreased by 5% if it was not possible to perform a single repetition. Up to 5 attempts were made to identify the maximum load that the player could lift on one repetition for the same test day, considering 2-5 minutes as a rest interval. The first attempt was made with self-selected load.

Lower limb power test

To infer the lower limb power, Squat jump (SJ) and Countermovement jump (CMJ) tests were used. These tests were performed in a contactplatform (Cefise, Nova Odessa, SP, Brazil) with interface with the Jump system 1.0 software (Cefise, Nova Odessa, SP, Brazil). Three attempts were made and the best jump was considered. The first test performed was the SJ, in which athletes should start from a crouched position at an angle close to 90º in the knee joint. Then, the CMJ test was performed, which was started from the orthostatic position, with hands at the waist, performing countermovement near 90º.

Speed test

The speed of players was tested in a 15-m course. The test was performed on a straight course, in which players should travel in the shortest possible time. To verify the running time, a photocell was used (Cefise Biotecnologia esportiva, Speed Test fit, Brazil). Three attempts were made and the shortest time was considered as the performance variable.

Futsal Intermittent Endurance Test (FIET)

The Futsal Intermittent Endurance Test (FIET) was used to assess the ability of players to perform high-intensity actions¹⁷17 Castagna C, Barbero Alvarez JC. Physiological demands of an intermittent futsaloriented high-intensity test. J Strength Cond Res 2010;24(9):2322-9.. FIET consists of 45-meter shuttle runs (3 x 15 meters), which are interspersed by 10 seconds of active recovery. The test consists of 6 blocks, the first with 9 repetitions of 45 m and the others with 8 repetitions. A 30-s interval is respected between blocks. The test starts at 9 km / h and is increased by 0.33 km / h every 45 econds in the first block. In the other blocks, speed is increased by 0.20 km / h. The test is discontinued when the athlete reached exhaustion or is unable to reach the distances determined during the test (demarcated 3 m before the 15-meter line) for two consecutive times. The highest speed achieved in FIET was considered as performance value (PV_FIET).

Session rating of perceived exertion (session-RPE)

Session subjective exertion perception (session-RPE) was measured using the Subjective Exertion Perception Scale CR-10 (18), 30 minutes after each training session. The value obtained in the scale was multiplied by thetraining time in minutes to quantify the session training load¹⁶16 Foster C, Florhaug JA, Franklin J, Gottschall L, Hrovatin LA, Parker S, et al. A newapproach to monitoring exercise training. J Strength Cond Res 2001;15(1):109-15.. The load of all weekly sessions was summed up, and thus, the total weekly training load (TWTL) was quantified.

Statistical analysis

To test data normality, the Shapiro-Wilk test was used. Vel_15m and SJ were not normally distributed and were analyzed by the paired Wilcoxon test. Variables TWTL, CMJ and PV_FIET presented normal distribution. Therefore, TWTL was analyzed using the ANOVA test for repeated measures with Tukey Post Hoc. CMJ and VM_FIET were analyzed using the Test-t for dependent samples. The software used was Statistica (v.8.0, StatSoft®, Tulsa, Ok) considering difference p <0.05.

RESULTS

The four-week TWTL is described in figure 1. Week 1 presented higher TWTL compared to week 2 (p <0.01) and week 4 (p <0.01). Week 3 presented higher TWTL compared to weeks 2 (p <0.01) and 4 (p <0.01), but was not different from week 1 (p = 0.99). Weeks 2 and 4 presented similar presented higher TWTL value (p = 0.39).

At post-training period, players had shorter time in the Vel_15m test (p = 0.04), greater height in the SJ (p <0.01) and in the CMJ tests (p <0.01) and higher speed in FIET (p = 0.04; / Figure 2).

Figure 1
Total weekly training load (TWTL) from weeks 1 to 4. * p <0.01 different from week 1.

Figure 2
Performance in 15-meter speed tests (A), squat jump (B), countermovement jump (C) and FIET (D) at pre and post training moments. * p <0.05, ** p <0.01 - difference in the comparisons between pre and post moments.

DISCUSSION

The results obtained are in agreement with the hypothesis raised, since training aimed at the development of lower limb power, performed at the beginning of the competitive season, provided improvement in speed and vertical jump tests. In addition, an increase in performance was observed in test with high aerobic demand (ability to perform high-intensity actions specific of futsal matches). Thus, the results demonstrate that the applied training improved performance in all physical tests (vertical jump, speed and FIET).

Increased performance in vertical jump tests at the beginning of the competitive season has been demonstrated in previous studies, corroborating results of this study¹¹11 Freitas VH, Miloski B, Bara-Filho MG. Quantification of training load using session RPE method and performance in futsal. Rev Bras Cineantropom Desempenho Hum 2012;14(1):73-82.,¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.. A possible factor that may justify the increase in lower limb power observed in this study is the reduction of training volume aimed at other physical abilities, usually observed during the preparation period¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.,¹⁵15 Loturco I, Pereira LA, Kobal R, Zanetti V, Gil S, Kitamura K, et al. Half-squat or jump squat training under optimum power load conditions to counteract power and speed decrements in Brazilian elite soccer players during the preseason. J Sports Sci 2015;33(12):1283-92.. Due to the short preparation period in collective sports, training sessions in this period are aimed at the development of many motor skills, which may lead to competition in adaptations caused by training¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.,¹⁵15 Loturco I, Pereira LA, Kobal R, Zanetti V, Gil S, Kitamura K, et al. Half-squat or jump squat training under optimum power load conditions to counteract power and speed decrements in Brazilian elite soccer players during the preseason. J Sports Sci 2015;33(12):1283-92.. In addition, loads aimed at lower limb power training seems to be another important factor for improving this physical capacity¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.,¹⁹19 Meckel Y, Doron O, Eliakim E, Eliakim A. Seasonal Variations in Physical Fitnessand Performance Indices of Elite Soccer Players. Sports 2018;6(1): 14.. In soccer players, for example, training sessions in a preparation period aimed at the development of strength and power were suggested as possible responsible for improvements of performance in lower limb power tests, despite the high volume of trained skills¹⁹19 Meckel Y, Doron O, Eliakim E, Eliakim A. Seasonal Variations in Physical Fitnessand Performance Indices of Elite Soccer Players. Sports 2018;6(1): 14.. In the same study, the lack of sessions aimed at strength training was suggested as responsible for stagnation of this physical capacity during the competitive season¹⁹19 Meckel Y, Doron O, Eliakim E, Eliakim A. Seasonal Variations in Physical Fitnessand Performance Indices of Elite Soccer Players. Sports 2018;6(1): 14.. Improvement of lower limb power was also observed during the preparation of young volleyball players when training loads were aimed at increasing power²⁰20 de Freitas VH, Nakamura FY, de Andrade FC, Pereira LA, Coimbra DR, Bara-Filho M. Pre-competitive physical training and markers of performance, stress and recovery in young volleyball athletes. Rev Bras Cineantropom Desempenho Hum 2015;17(1):31-40.. In this way, training sessions aimed at few skills, as well as the training to improve lower limb power seems to be an important factor for the improvement of this physical capacity.

The improvement observed in lower limb power seems to be related to the improvement observed in the 15-m speed test. Apparently, speed in short-speed runs (<50 m, acceleration phase) is related to the capacity to produce force in the soil both horizontally and vertically²¹21 Loturco I, Contreras B, Kobal R, Fernandes V, Moura N, Siqueira F, et al. Vertically and horizontally directed muscle power exercises: Relationships with top-levelsprint performance. PLoS One 2018;13(7):e0201475.. A previous study showed that performance in tests performed in the optimum power zone (e.g., hip-thrust and jump after back squat) showed very large or near perfect correlation with performance in sprint tests at different speeds (10-, 20 -, 40-, 60-, 100-, 150-m). In addition, additional vertical and horizontal plyometric training in the training routine of U-20 soccer players provided speed improvements in 0-20m tests²²22 Loturco I, Pereira LA, Kobal R, Zanetti V, Kitamura K, Abad CC, et al. Transference effect of vertical and horizontal plyometrics on sprint performance of high-levelU-20 soccer players. J Sports Sci 2015;33(20):2182-91.. Jumping exercises, both vertically and horizontally, were added to the training routine of futsal players of the present study, and according to results shown in other studies, these exercises are related to the improved speed of players observed in this study. Increasing speed over short distances is important for futsal players, as these are actions taken at crucial moments of the match such as attack, counter attack, defensive return. Thus, the present study encourages the addition of training aimed at power development to increase the speed of futsal players.

FIET is an intermittent high-intensity field test that requires both anaerobic and aerobic systems¹⁷17 Castagna C, Barbero Alvarez JC. Physiological demands of an intermittent futsaloriented high-intensity test. J Strength Cond Res 2010;24(9):2322-9.. In a previous study, in which reduction in the total training volume during the competitive period (compared to the training period) was also observed, as well as the directing of training loads for strength and power, performance of futsal players in the multistage shuttle-run test did not change¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.. It is believed that the short distance traveled (15m) and the large number of changes of direction movements during the match makes the anaerobic system, as well as neuromuscular components, to have great effect on FIET¹⁷17 Castagna C, Barbero Alvarez JC. Physiological demands of an intermittent futsaloriented high-intensity test. J Strength Cond Res 2010;24(9):2322-9.. Previous study have shown that a twelve-week field training combining strength and power increased performance in the Yo-Yo intermittent endurance run test, without significant changes in the maximum oxygen uptake of young soccer players²³23 Wong PL, Chamari K, Wisloff U. Effects of 12-week on-field combined strength and power training on physical performance among U-14 young soccer players. J Strength Cond Res 2010;24(3):644-52.. Thus, it is believed that training aimed at the improvement of lower limb power may have contributed to the improvement in decelerations and accelerations involved in the constant changes of direction during FIET, as well as in moments of high intensities in the test, justifying performance improvement. This result reinforces the application of periods with this training characteristic.

The main limitation of this study is the absence of a control group. Certainly, a control group could strengthen the results demonstrated in this study, proving that the results found were due to the directing of training loads for the improvement of strength and power. However, the results found here deserve attention, since they have a positive effect on all physical tests performed, which suggests a positive effect of the training applied. One factor that could justify the absence of control group would be the low number of athletes in a futsal team, participating in important state-level championships. Further studies should be performed with the presence of a control group to confirm the results found here.

CONCLUSION

Based on the results found, it could be concluded that training at the beginning of the competitive season aimed at improving power provides an increase in the lower limb power of futsal players, with consequent improvement in speed and in the ability to intermittently perform high-intensity actions. Moreover, these results demonstrate that training aimed at to lower limb power applied at the beginning of the competitive period may complement results usually observed in the preparation period¹³13 Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33., since it usually has short duration.

How to cite this article

Freitas VH, Rinaldo M, Turquino GG,Miloski B, Ramos SP. Training aimed atthe development of power and physicalperformance of futsal players. RevBras Cineantropom Desempenho Hum2019, 21:e60119. DOI: http://dx.doi.org/10.1590/1980-0037.2019v21e60119.

COMPLIANCE WITH ETHICAL STANDARDS

Funding

This research did not receive any specific grant from funding agencies in the public, commercial, or non-profit sectors. This study was funded by the authors.
Ethical approval

Ethical approval was obtained from the local Human Research Ethics Committee – Integrado College and the protocol (No. 1.982.224) waswritten in accordance with standards set by the Declaration of Helsinki.

REFERENCES

¹
Beato M, Coratella G, Schena F. Brief review of the state of art in futsal. J Sports Med Phys Fitness 2016;56(4):428-32.
²
Barbero-Alvarez JC, Soto VM, Barbero-Alvarez V, Granda-Vera J. Match analysisand heart rate of futsal players during competition. J Sports Sci 2008;26(1):63-73.
³
Bueno MJ, Caetano FG, Pereira TJ, De Souza NM, Moreira GD, Nakamura FY, et al. Analysis of the distance covered by Brazilian professional futsal players during official matches. Sports Biomech 2014;13(3):230-40.
⁴
Castagna C, D’Ottavio S, Granda Vera J, Barbero Alvarez JC. Match demands of professional Futsal: a case study. J Sci Med Sport 2009;12(4):490-4.
⁵
Naser N, Ali A, Macadam P. Physical and physiological demands of futsal. J Exerc Sci Fitness 2017;15(2):76-80.
⁶
Makaje N, Ruangthai R, Arkarapanthu A, Yoopat P. Physiological demands and activity profiles during futsal match play according to competitive level. J Sports Med Phys Fitness 2012;52(4):366-74.
⁷
Nogueira FC, De Freitas VH, Nogueira RA, Miloski B, Wernek FZ, Bara-Filho MG. Improvement of physical performance, hormonal profile, recovery-stress balance and increase of muscle damage in a specific futsal pre-season planning. Rev Andal Med Deporte 2018;11(2):63-8.
⁸
Matveyev LP. Modern procedures for the construction of macrocycles Modern. Mod Athlete Coach 1992;30:32-4.
⁹
Miloski B, de Freitas VH, Bara-Filho MG. Monitoramento da carga interna de treinamento em jogadores de futsal ao longo de uma temporada. Rev Bras Cineantropom Desempenho Hum 2012;14:671-9.
¹⁰
Moreira A. The training periodization and the emerged questions: the team sports’case. Rev Andal Med Deporte 2010;3(4):170-8.
¹¹
Freitas VH, Miloski B, Bara-Filho MG. Quantification of training load using session RPE method and performance in futsal. Rev Bras Cineantropom Desempenho Hum 2012;14(1):73-82.
¹²
de Freitas VH, Pereira LA, de Souza EA, Leicht AS, Bertollo M, Nakamura FY. Sensitivity of Yo-Yo IR and Cardiac Autonomic Responses to Training in Futsal Players. Int J Sports Physiol Perform 2015; 10(5):553-8.
¹³
Miloski B, de Freitas VH, Nakamura FY, de ANFC, Bara-Filho MG. Seasonal Training Load Distribution of Professional Futsal Players: Effects onPhysical Fitness, Muscle Damage and Hormonal Status. J Strength Cond Res 2016;30(6):1525-33.
¹⁴
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Publication Dates

Publication in this collection
08 Aug 2019
Date of issue
2019

History

Received
08 Nov 2018
Accepted
08 Apr 2019

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Freitas VH, Rinaldo M, Turquino GG,Miloski B, Ramos SP. Training aimed atthe development of power and physicalperformance of futsal players. RevBras Cineantropom Desempenho Hum2019, 21:e60119. DOI: http://dx.doi.org/10.1590/1980-0037.2019v21e60119.

Exercises	Sessions	Intensity	Series	Repetitions
Loaded jump squat	A	20 cm	4	6
Unipodal Jump	A	20 cm	4	6
Dead lift with jump	A	20 cm	4	6
Lateral jump	B	Max	4	6
		(Body weight)
Box jump	B	60 cm	4	6
		(Body weight)
Horizontal jump	B	Max	4	6
		(Body weight)
Leg Press	A-B	80% 1RM	4	6
Adduction machine	A-B	65% 1RM	4	10
Abduction machine	A-B	65% 1RM	4	10
Leg extension	A-B	65% 1RM	4	10
Bench press in guided bar	A	65% 1RM	4	10
Incline bench in guided bar	A	65% 1RM	4	10
Arm curl	A	65% 1RM	4	10
Biceps Pulley	A	65% 1RM	4	10
Overhead press	A	65% 1RM	4	10
Dumbbell lateral raise	A	65% 1RM	4	10
Lat pull down	B	65% 1RM	4	10
Upper back Row	B	65% 1RM	4	10
Pulley triceps (Bar)	B	65% 1RM	4	10
Pulley triceps (Rope)	B	65% 1RM	4	10
Abdominal crunch	A-B	Body weight	4	25

		Monday	Tuesday	Wednesday	Thursday	Friday	Saturday	Sunday
Week 1	Morning	TF	TP	TT	TP	F	R	F
Week 1	Afternoon	TT	TT	TT	AP/TT	TT	J	F
Week 2	Morning	F	TP	TT	TP	TT/R	F	F
Week 2	Afternoon	F	TT	TT	AP/TT	F	J	F
Week 3	Morning	F	TP	TT	TP	F	TT	F
Week 3	Afternoon	F	TT	TT	AP/TT	TT	TT	F
Week 4	Morning	R	F	TP	TT	TP	F	F
Week 4	Afternoon	J	F	TT	AP/TT	TT	F	F
Week 5	Morning	TF

Brasil