Determination of Vertical Jump as a Measure of Neuromuscular Readiness and Fatigue

Watkins, Casey M.; Barillas, Saldiam R.; Wong, Megan A.; Archer, David C.; Dobbs, Ian J.; Lockie, Robert G.; Coburn, Jared W.; Tran, Tai T.; Brown, Lee E.

doi:10.1519/jsc.0000000000002231

Cited by 69 publications

(63 citation statements)

References 30 publications

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“…In our investigation, we found the vertical jump test to have a high agreement between trials, although this measure was better among girls than among boys. Hypothetically, the differences in jump height between trials can be due to systematic bias, such as the athlete's emotional stress (Schaal et al, 2011) or fatigue (Watkins et al, 2017), and variation in jumping mechanics (Attia et al, 2017). However, our overall findings indicate that the horizontal jump test and the vertical jump test may be an appropriate ecologic alternative to laboratory tests examining lower limb strength.…”

Section: Discussionmentioning

confidence: 99%

Test–retest reliability of physical fitness tests among young athletes: The FITescola^® battery

Henriques‐Neto

Minderico

Peralta

et al. 2020

Clin Physio Funct Imaging

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Monitoring physical fitness in young athletes is essential to improve physical performance, identify talents and develop injury prevention programs. The aim of this investigation was to analyse the reliability of the physical fitness tests from the FITescola® battery in young athletes with different sports backgrounds and competition levels. Participants comprised of 138 young athletes (boys n = 92) aged 9 and 18 years old. Eight physical fitness tests assessing six components of physical fitness were performed: cardiorespiratory fitness (PACER); upper body muscular fitness (push‐up); flexibility (sit and reach); lower‐body muscular fitness (horizontal and vertical jump); agility (4 × 10 shuttle run); and speed (sprint at 20 m and 40 m). Each test was performed twice, with a one‐week interval (7 days) between duplicate tests. No differences between duplicate tests were found (p > .05), except for the speed at 20 m in boys (p < .001) and speed at 40 m in girls (p = .006). The battery of tests had good or excellent reliability and concordance of the ICC between the two trials (ICC ≥ 0.75) with exception for the 20 m speed run in girls that presented moderate reliability (ICC = 0.57). The Bland–Altman plots showed high reliability for all the fitness tests for both sexes. Hence, The FITescola® battery may be a novel tool to assess the physical fitness of large groups of young athletes from different sports backgrounds.

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Section: Discussionmentioning

confidence: 99%

Test–retest reliability of physical fitness tests among young athletes: The FITescola^® battery

Henriques‐Neto

Minderico

Peralta

et al. 2020

Clin Physio Funct Imaging

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“…For example, following exercise that heavily utilises the stretch shortening cycle (SSC), such as endurance running, reductions in drop jump, but not CMJ height, have been reported 9 . Additionally, fatigue-induced changes in CMJ height are correlated with the back-squat load but not any other mechanically dissimilar exercises 10 . The two wicket keepers in the study showed a relatively large change of 10% CMJ height.…”

Section: Discussionmentioning

confidence: 92%

“…In conjunction with further exploring the alterations in jump strategy associated with changing neuromuscular function, the suitability of one test to assess neuromuscular function within a team has not been fully explored. Previous research demonstrates that there appears to be a task specificity to assessing neuromuscular function 9,10 . Given the multitude of different biomechanical and physiological requirements in cricket 11 it may be the case a single test will not capture the neuromuscular demands of each position and consequently not be a suitable to detect changes in fatigue.…”

Section: Introductionmentioning

confidence: 99%

The Difference in Neuromuscular Fatigue and Workload During Competition and Training in Elite Cricketers

Cooke¹,

Outram²,

Brandon³

et al. 2019

International Journal of Sports Physiology and Performance

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Purpose: First, to assess changes in neuromuscular function via alterations in countermovement-jump strategy after training and 2 forms of competition and second, to compare the relationship between workloads and fatigue in seam bowlers and nonseam bowlers. Methods: Twenty-two professional cricketers’ neuromuscular function was assessed at baseline, immediately post and +24 h posttraining, and after multiday and 1-day cricket events. In addition, perceptual (rating of perceived exertion [RPE] and soreness) measures and external loads (PlayerLoad™, number of sprints, total distance, and overs) were monitored across all formats. Results: Seam bowlers covered more distance, completed more sprints, and had a higher RPE in training (P < .05), without any difference in soreness compared with nonseam bowlers. Compared with seam bowlers, the nonseam bowlers’ peak force decreased post-24 h compared with baseline only in 1-d cricket (95% CI, 2.1–110.0 N; P < .04). There were no pre–post training or match differences in jump height or alterations in jump strategy (P > .05). Seam bowlers increased their peak jumping force from baseline to immediately posttraining or game (95% CI, 28.8–132.4 N; P < .01) but decreased between postcricket to +24 h (95% CI, 48.89–148.0 N; P < .001). Conclusion: Seam bowlers were more accustomed to high workloads than nonseamers and thus more fatigue resistant. Changes in jump height or strategy do not appear to be effective methods of assessing fatigue in professional crickets. More common metrics such as peak force are more sensitive.

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“…A simulation-based approach was adopted to quantify the effects of measurement error and testing frequency on fitness-fatigue model parameter estimates and performance prediction for two hypothetical athletes (intermediate and advanced). The vertical jump was selected as the performance measurement tool due to its popularity in athlete monitoring and potential to be used daily [20]. A range of mechanical variables including power, impulse and jump height were considered for the simulation study.…”

Section: Experimental Approach To the Problemmentioning

confidence: 99%

“…As a result, the ability to model and predict fitness of team sport athletes as suggested above, may require performance tests that can be completed at high weekly frequencies. The vertical jump is the most popular means of obtaining frequent assessments of an athlete's physical capability and can be used daily without causing acute or chronic declines in performance [20] Additionally, a range of mechanical variables (e.g. impulse, power, rate of force development) can be extracted during vertical jumps to assess various features of the neuromuscular system [17,21].…”

Section: Introductionmentioning

confidence: 99%

The effects of measurement error and testing frequency on the fitness-fatigue model applied to resistance training: A simulation approach

Hemingway

Burgess

Elyan

et al. 2019

International Journal of Sports Science & Coaching

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This study investigated the effects of measurement error and testing frequency on prediction accuracy of the standard fitness-fatigue model. A simulation-based approach was used to systematically assess measurement error and frequency inputs commonly used when monitoring the training of athletes. Two hypothetical athletes (intermediate and advanced) were developed and realistic training loads and daily ‘true’ power values were generated using the fitness-fatigue model across 16 weeks. Simulations were then completed by adding Gaussian measurement errors to true values with mean 0 and set standard deviations to recreate more and less reliable measurement practices used in real-world settings. Errors were added to the model training phase (weeks 1–8) and sampling of data was used to recreate different testing frequencies (every day to once per week) when obtaining parameter estimates. In total, 210 sets of simulations (N = 104 iterations) were completed using an iterative hill-climbing optimisation technique. Parameter estimates were then combined with training loads in the model testing phase (weeks 9–16) to quantify prediction errors. Regression analyses identified positive associations between prediction errors and the linear combination of measurement error and testing frequency ([Formula: see text]=0.87–0.94). Significant model improvements (P < 0.001) were obtained across all scenarios by including an interaction term demonstrating greater deleterious effects of measurement error at low testing frequencies.The findings of this simulation study represent a lower-bound case and indicate that in real-world settings, where a fitness-fatigue model is used to predict training response, measurement practices that generate coefficients of variation greater than [Formula: see text]4% will not provide satisfactory results.

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Determination of Vertical Jump as a Measure of Neuromuscular Readiness and Fatigue

Cited by 69 publications

References 30 publications

Test–retest reliability of physical fitness tests among young athletes: The FITescola^® battery

Test–retest reliability of physical fitness tests among young athletes: The FITescola^® battery

The Difference in Neuromuscular Fatigue and Workload During Competition and Training in Elite Cricketers

The effects of measurement error and testing frequency on the fitness-fatigue model applied to resistance training: A simulation approach

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Determination of Vertical Jump as a Measure of Neuromuscular Readiness and Fatigue

Cited by 69 publications

References 30 publications

Test–retest reliability of physical fitness tests among young athletes: The FITescola® battery

Test–retest reliability of physical fitness tests among young athletes: The FITescola® battery

The Difference in Neuromuscular Fatigue and Workload During Competition and Training in Elite Cricketers

The effects of measurement error and testing frequency on the fitness-fatigue model applied to resistance training: A simulation approach

Contact Info

Product

Resources

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Test–retest reliability of physical fitness tests among young athletes: The FITescola^® battery

Test–retest reliability of physical fitness tests among young athletes: The FITescola^® battery