Little is known about the effect of whole body vibration (WBV) has on specific sports action such as taekwondo kicking technique. Fifteen individuals (10 males and 5 females; 18.6 ± 2.1 years), performed two experimental protocols on separate days: A) 1 minute exposure at 26 Hz frequency of WBV followed by countermovement jump (CMJ) test; B) 1 minute exposure at 26 Hz frequency of WBV followed by kick test. A Student’s t-Test analysis was performed to evaluate the difference between performance before and after vibration intervention. The CMJ height means (cm) were 34.1 ± 6.4 before and 34.2 ± 6.5 after WBV exposure. The CMJ maximal force means were 1582.6 ± 214.3 before WBV and 1595.7 ± 205.0 after WBV, while Impulse means (N.s) were 283.3 ± 48.6 before WBV and 282.6 ± 46.6 after WBV. The kick time means (ms) were 219.9±20.31 before WBV and 218.9±19.81 after WBV. No significant differences were found regarding the application of mechanical vibration for all variables. Thus, the vibration intervention (1 minute of WBV at 26 Hz and 6 mm) adopted in this present study may have not been substantial to improve Roundhouse kick time (p=0.73), jump height (p=0.80), maximal force (p=0.78) and impulse (p=0.38) of taekwondo athletes. Future studies should investigate new vibration protocols (amplitude, frequency) and training (intensity, exercise, duration) to determine optimal parameters.
Oliveira, MP, Menzel, H-JK, Cochrane, DJ, Drummond, MD, Demicheli, C, Lage, G, and Couto, BP. Individual responses to different vibration frequencies identified by electromyography and dynamometry in different types of vibration application. J Strength Cond Res 35(6): 1748–1759, 2021—The application of mechanical vibration is a common neuromuscular training technique used in sports training programs to generate acute increases in muscle strength. The principal aim of the study was to compare the individual optimal vibration frequency (IOVF) identified by electromyography (EMG) activity and force production in strength training. Twenty well-trained male volunteers (age: 23.8 ± 3.3 years) performed a familiarization and 2 interventions sessions, which included 5 maximal voluntary contractions (MVCs) of the elbow flexors with a duration of 10 seconds and 5-minute intervals between each MVC. The first MVC was performed without vibration followed by 4 randomized MVCs with application of vibration in the direction of the resultant muscle forces' vector (VDF) or whole-body vibration (WBV) at frequencies of 10, 20, 30, or 40 Hz. The mechanical vibration stimulus was superimposed during the MVC. Individual optimal vibration frequency, as identified by EMG, did not coincide with IOVF identified by force production; low agreement was observed between the vibration frequencies in generating the higher EMG activity, maximal force, and root mean square of force. These findings suggest that the magnitude of the vibratory stimulus response is individualized. Therefore, if the aim is to use acute vibration in conjunction with strength training, a preliminary vibration exposure should be conducted to determine the individualized vibratory stimulus of the subject, so that training effects can be optimized.
The study aim was to compare the chronic effects of maximal dynamic strength training with and without the addition of local vibration (LV) on maximal force generation and hypertrophy of the elbow flexor muscles in trained subjects. Twenty men were divided into 2 groups (conventional training [CT] group and vibration training [VT] group). The CT group performed conventional maximal dynamic strength training, and the VT group performed maximal dynamic strength training with mechanical vibrations (frequency of 26 Hz and amplitude of 6 mm). CT and VT groups performed 5 sets of 3-4 repetitions, with 2-minute rest intervals between sets. The subjects trained 3 times per week for 12 weeks. After the training period, the CT group presented a significant increase in the mean 1 repetition maximum (1RM) value in the elbow flexion exercise in the orthostatic position (EFO) (7.2 6 1.5%) (p , 0.0001) and elbow flexion exercise using the Scott bench (EFSB) (6.3 6 1.8%) (p , 0.0001). The VT group also showed significant increases in 1RM values in the EFO (6.87 6 0.8%) (p , 0.0001) and EFSB (6.56 6 1.4%) (p , 0.0001). The CT group presented a significant increase in the mean maximal voluntary isometric contraction (MVIC) value after the training period (8.2 6 2.3%) (p , 0.0001). The VT group also showed a significant increase in the mean MVIC value after training (9.1 6 2.4%) (p , 0.0001). After the training period, both groups presented a significant increase in the mean value of elbow flexor thickness (CT 5 5.6 6 3.5%, VT 5 5.1 6 2.8%) (p 5 0.001). The increases in 1RM, MVIC, and muscle thickness were statically similar between groups. Therefore, the addition of LV does not represent an additional stimulus for individuals trained in dynamic maximal strength training.
RESUMOA avaliação do desempenho físico de atletas é um dos complexos processos que envolvem o treinamento esportivo. O objetivo deste estudo foi verificar o efeito de três diferentes pausas (15, 30 e 60 segundos) entre as tentativas do teste de salto com contramovimento (SCM) de atletas nacionais do Centro de Treinamento esportivo da UFMG. A amostra foi composta por 12 atletas que participaram de cinco sessões: 2 familiarizações e 3 de protocolo experimental. O protocolo experimental consistiu de três sessões de teste de 15 SCM aleatorizado entre as diferentes pausas entre tentativas (15, 30 e 60 segundos). Não houve diferença significativa para a altura do salto entre os três protocolos de pausa adotados e entre as 15 tentativas de salto no mesmo protocolo. Estes resultados sugerem que, durações de pausas menores, como a de 15 segundos, são suficientes para a manutenção do desempenho em testes de SCM com uma série única de até 15 tentativas. Palavras-chave: Recuperação.Avaliação física. Desempenho esportivo.Familiarização. ABSTRACTThe evaluation of athlete's physical performance is one of the complex processes that involve sports training. The purpose of this study was to measure the effects of varied rest interval lengths on countermovement jump (CMJ) performance test. The subjects were 12 national athletes from UFMG Sport Training Center, who performed five sessions, two familiarization sessions and three CMJ experimental sessions. The experimental sessions consisted of three sessions with 15 CMJ attempts, each session with a different rest interval duration. The three rest intervals between CMJ attempts were 15, 30, and 60 seconds and were counterbalanced for each subject. No significant difference was founded in the jump height between the 3 pause protocols adopted and between the 15 attempts in the same protocol. Therefore, this study demonstrated a 15 seconds rest interval was sufficient for recovery during the performance of 15 CMJ attempts. Keywords: Recovery.Physical Evaluation.Sport perform.Familiarization. IntroduçãoA avaliação do desempenho físico de atletas é um dos complexos processos que envolvem o treinamento esportivo. Para um adequado monitoramento e controle das cargas de treinamento é indispensável estabelecer critérios de escolha das melhores estratégias de avaliação do desempenho físico. Nessa seleção de protocolos de testes para um esporte em particular, é necessário, sobretudo, identificar as principais capacidades e técnicas que determinam o sucesso competitivo, bem como as que representem as principais demandas energéticas requisitadas pelo esporte.Segundo Komi 1 o sucesso esportivo na maioria dos esportes, depende, especialmente, da capacidade de os atletas desenvolverem força explosiva por meio de movimentos que expressem o ciclo de alongamento-encurtamento. Nos esportes que usam predominantemente os membros inferiores, como o -tênis, futebol, taekwondo, atletismo -pesquisadores da ciência do esporte e treinadores vem utilizando técnicas de salto vertical para avaliar a força e potên...
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