Reduced strength after passive stretch of the human plantarflexors

Fowles, Jonathon R.; Sale, D. G.; MacDougall, J. D.

doi:10.1152/jappl.2000.89.3.1179

Cited by 570 publications

(705 citation statements)

References 37 publications

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“…The amplitude values (rms) were calculated for a time period (2.00 seconds and 0.22 second for 30 and 270Њ·s Ϫ1 , respectively) that corresponded to a 60Њ range 7 of motion from approximately 60-120Њ of flexion at the elbow. The muscle action with the highest peak torque was used as the representative score for both EMG and MMG at each velocity.…”

Section: Signal Processingmentioning

confidence: 99%

Effect of Static Stretching of the Biceps Brachii on Torque, Electromyography, and Mechanomyography During Concentric Isokinetic Muscle Actions

Evetovich

Nauman²,

Conley³

et al. 2003

J Strength Cond Res

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The purpose of this study was to determine the effect of an acute static stretching bout of the biceps brachii on torque, electromyography (EMG), and mechanomyography (MMG) during concentric isokinetic muscle actions. Eighteen (men, n ϭ 10; women, n ϭ 8) adult subjects (M Ϯ SD age ϭ 22.7 Ϯ 2.8 years; weight ϭ 78.0 Ϯ 17.0 kg; height ϭ 177.9 Ϯ 11.0 cm) performed maximal isokinetic (30 and 270Њ·s Ϫ1 ) forearm flexion strength testing on 2 occasions while EMG and MMG were recorded. Subjects were randomly assigned to stretching (STR) or nonstretching (NSTR) protocols before strength testing. Two-way ANOVAs with repeated measures revealed significantly (p Յ 0.05) greater torque for NSTR (M Ϯ SEM ϭ 36.9 Ϯ 3.3 N·m) vs. STR (35.2 Ϯ 3.3 N·m), significantly greater MMG amplitude for STR vs. NSTR for 30Њ·s Ϫ1 (STR ϭ 93.5 Ϯ 14.4 mV; NSTR ϭ 63.1 Ϯ 10.6 mV) and 270Њ·s Ϫ1 (STR ϭ 207.6 Ϯ 35.6 mV; NSTR ϭ 136.4 Ϯ 31.7 mV), and no difference in EMG amplitude. These results indicate that a greater ability to produce torque without prior stretching is related to the musculotendinous stiffness of the muscle rather than the number of motor units activated. This suggests that performing activities that reduce muscle stiffness (such as stretching), may be detrimental to performance. Key Words: autogenic inhibition, musculotendinous stiffness, acuteReference Data: Evetovich, T.K., N.J. Nauman, D.S. Conley, and J.B. Todd. Effect of static stretching of the biceps brachii on torque, electromyography, and mechanomyography during concentric isokinetic muscle actions.

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Section: Signal Processingmentioning

confidence: 99%

Effect of Static Stretching of the Biceps Brachii on Torque, Electromyography, and Mechanomyography During Concentric Isokinetic Muscle Actions

Evetovich

Nauman²,

Conley³

et al. 2003

J Strength Cond Res

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“…Another theory to explain changes in performance through stretch modalities is that of changes in muscle stiffness. Static stretches have been shown to decrease the stiffness of the musculotendinous unit (MTU) (Avela et al 1999;Evetovich et al 2003;Kubo et al 2001;Rosenbaum andHennig 1995, Wilson et al 1991), leading to decreases in performance due to an alteration in the force-length relationship of a muscle (Fowles et al 2000). Static stretching may increase tendons' compliance which affects negatively jump performance due to the prolonged contact time and the non-effective transmission of energy during the stretch shortening cycle (SSC).…”

Section: Jpes ®mentioning

confidence: 99%

“…Although basketball coaches follow the aforementioned warm-up type, recent studies have examined the effect of static stretching during warm-up and found detrimental impact on performance (Faigenbaum et al 2006, Fletcher & Monte-Colombo 2010, Pearce et al 2009, Fowles et al 2000, Power et al 2004, Alikhajeh et al 2012, Little & Williams 2006, Chaouachi et al 2008, ο Nelson et al 2005, Sayers et al 2008, Fletcher & Jones 2004, Gelen 2010, Needman et al 2009, Winchester et al 2008Famisis 2015, Papadopoulos et al 2015. Reductions on vertical jump performance, lower limbs' power (Faigenbaum et al 2006, Fletcher & MonteColombo 2010, Pearce et al 2009), muscle strength (Fowles et al 2000;Power et al, 2004), power (Alikhajeh et al 2012, Little & Williams, 2006, acceleration (Chaouachi et al 2008, Nelson et al 2005, Sayers et al 2008)…”

Section: Introductionmentioning

confidence: 99%

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Untitled

2017

JPES

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The aim of the present study was to compare the acute effect of static and dynamic stretching on countermovement jump (CMJ) and ten meters sprint performance for basketball players. Twenty semiprofessional basketball players, 23.4 ± 0.5 yo, height 185.6 ± 2.8 cm, body mass 84.8 ± 6.2 kg, training age 10.4 ± 2.5 yr, performed a static (SS) and a dynamic (DS) stretching protocol in two different days, a week apart. Participants were randomly assigned to each protocol. Each session included: a) 10 min general basketball warm-up, b) initial evaluation of sprint and CMJ performance, c) five minutes static or dynamic stretching for the lower limbs, according to the protocol, and d) final evaluation of sprint and CMJ. The Photocells Powertimer 300 -PC Upgrade Kit and the jump mat (both from Newtest Powertimers, Oulu, Finland), were used for evaluating CMJ and sprint performance. Countermovement jumps with maximum effort were performed one minute after the intervention, with 30s recovery in between. Then athletes were asked to run 10 m with maximum speed. Athletes achieved better performance in both CMJ height and sprint time, with the DS protocol compared to the SS protocol. In conclusion, in sports of high strength and power demands, such as basketball, the use of dynamic stretching is preferable for its immediate effect on jumping and sprint performance.

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“…Static stretching reduces strength [7][8][9][10][11] , which raise concerns to its use prior to physical activity. Because of this, ballistic stretching has tended to replace static stretching in modern practices of warm up 12 .…”

Section: Introductionmentioning

confidence: 99%

Ballistic stretch or aerobic warm-up evoke postexercise hypotension after maximal exercise

Dos‐Santos

Costa

Ribeiro

et al. 2017

Rev. Bras. Cineantropom. Desempenho Hum.

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Warm-up is broadly used to increase performance and protect against injury in sports. However, the effects of different models of warm-up on maximal exercise and the subsequent recovery period are undetermined. This study aimed to assess the effects of different warm-ups on performance, blood pressure and autonomic control. Methods: 53 subjects rested for 5 minutes and then were randomly allocated to one of four experimental groups: Control (CTR), Aerobic Warm-up (AER), Static (SST) or Ballistic (BST) stretch. Immediately after warm-up, they performed a maximal cycling test and rested for 30 minutes. Heart rate variability (HRV), Systolic (SBP) and diastolic (DBP) blood pressure were assessed throughout the entire experiment. Statistical analysis was performed by one-way ANOVA with Tukey post-test or two-way ANOVA followed by either Bonferroni or Dunnet post-test, when appropriate. Warm-up did not change test performance or HRV (p>.05), however, when compared between-groups, SBP was higher in BST against all groups (p<.05) after warm-up, and lower in SST and AER after maximal test (p>.05). When compared to baseline values SST showed increased SBP in recovery (p<.05) while only AER and BST showed post-exercise hypotension at 30 minutes (p<.05). In conclusion, despite the lack of effects on performance, AER and BST seem to improve while SST seems to impair the recovery of cardiovascular parameters in an autonomic-independent mechanism.Key words: Blood pressure; Heart rate; Muscle stretching exercises. Resumo -Aquecimento é comumente utilizado para aumentar o desempenho e proteger contra lesões no esporte. No entanto, os efeitos de diferentes modalidades de aquecimento sobre o exercício máximo e subsequente período de recuperação não foram determinados. Este estudo objetivou avaliar o efeito de diferentes aquecimentos sobre o desempenho, pressão arterial e controle autonomico. 53 sujeitos descansavam por 5 minutos em seguida eram aleatoriamente alocados em um dos quatro grupos experimentais. Controle (CTR), Aquecimento aeróbio (AER) e alongamentos estático (SST) ou balístico (BST

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Reduced strength after passive stretch of the human plantarflexors

Cited by 570 publications

References 37 publications

Effect of Static Stretching of the Biceps Brachii on Torque, Electromyography, and Mechanomyography During Concentric Isokinetic Muscle Actions

Effect of Static Stretching of the Biceps Brachii on Torque, Electromyography, and Mechanomyography During Concentric Isokinetic Muscle Actions

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Ballistic stretch or aerobic warm-up evoke postexercise hypotension after maximal exercise

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