Effects of loading on maximum vertical jumps: Selective effects of weight and inertia

Leontijević, Bojan; Pažin, Nemanja; Bozic, Predrag R.; Kukolj, Miloš; Ugarkovic, Dusan; Jarić, Slobodan

doi:10.1016/j.jelekin.2011.12.002

Cited by 23 publications

(25 citation statements)

References 36 publications

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“…In line with both the participants' reports and our recent studies performed according to a similar procedure (Pazin et al 2013; Markovic and Jaric 2007b; Leontijevic et al 2012), fatigue was never an issue. Subjects were also instructed to avoid any strenuous exercise over the course of study.…”

Section: Methodssupporting

confidence: 88%

“…Therefore, it remains possible that a more typical protocol that includes a higher number of trials and select the best one for analysis would provide even higher reliability and concurrent validity than we observed. Third, note that we only applied a constant loading force that mimics added weight, but not inertia, which could have markedly different effects on the force and power output in both vertical jumps and bench press throws (Leontijevic et al 2012; Leontijevic et al 2013). Fourth, we could not control for the possible effect the depth of countermovement that has been shown to affect both F and P of loaded vertical jumps (Samozino et al 2012; Markovic et al 2013).…”

Section: Discussionmentioning

confidence: 99%

“…The bands were attached at the lateral sides of a belt that was fixed approximately at the subject's waist and stretched over a system of low-friction and low-inertia plastic wheels. Therefore, the loading method allowed for unconstrained vertical jumps, while the relative change in their stretched length over the course of the tested jumps was only up 4%, yielding a similar maximum change in the loading force [for detailed description see (Pazin et al 2011; Leontijevic et al 2012)].…”

Section: Methodsmentioning

confidence: 99%

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Force–velocity relationship of leg extensors obtained from loaded and unloaded vertical jumps

et al. 2014

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Purpose Resent research has suggested that loaded multi-joint movements could reveal a linear force-velocity (F-V) relationship. The aim of the present study was to evaluate the F-V relationship both across different types of vertical jumps and across different F and V variables. Methods Ten healthy subjects performed maximum various vertical jumps that were either loaded or unloaded by constant external forces of up to 30% of their body weight. Both the maximum and averaged F and V data were recorded. Results The observed F-V relationships proved to be strong (median correlation coefficients ranged .78-.93) and quasi-linear. Their F- and V-intercepts and the calculated maximum power (P) were highly reliable (.85

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Section: Methodssupporting

confidence: 88%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Force–velocity relationship of leg extensors obtained from loaded and unloaded vertical jumps

et al. 2014

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“…This study attempted to determine the effect of body mass by recruiting two groups of participants with a mean body mass difference of approximately 30%. Previous studies investigating the effect of additional mass on VGRF variables during various jumping-related activities have utilised either an external load (5-10%, Makaruk & Sacewicz, 2011) or a pulley system (10-40%, Leontijevic et al, 2012) to vary the total mass. Markovic and Jaric (2007) proposed a maximum dynamic hypothesis, which suggested that the muscular system of the lower limbs is designed to optimise dynamic output when loaded with an individual's own weight.…”

Section: Body Mass Effect On Vgrfmentioning

confidence: 99%

Effect of body mass and midsole hardness on kinetic and perceptual variables during basketball landing manoeuvres

Nin

Lam

Kong

2015

Journal of Sports Sciences

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This study investigated the effects of body mass and shoe midsole hardness on kinetic and perceptual variables during the performance of three basketball movements: (1) the first and landing steps of layup, (2) shot-blocking landing and (3) drop landing. Thirty male basketball players, assigned into "heavy" (n = 15, mass 82.7 ± 4.3 kg) or "light" (n = 15, mass 63.1 ± 2.8 kg) groups, performed five trials of each movement in three identical shoes of varying midsole hardness (soft, medium, hard). Vertical ground reaction force (VGRF) during landing was sampled using multiple wooden-top force plates. Perceptual responses on five variables (forefoot cushioning, rearfoot cushioning, forefoot stability, rearfoot stability and overall comfort) were rated after each movement condition using a 150-mm Visual Analogue Scale (VAS). A mixed factorial analysis of variance (ANOVA) (Body Mass × Shoe) was applied to all kinetic and perceptual variables. During the first step of the layup, the loading rate associated with rearfoot contact was 40.7% higher in the "heavy" than "light" groups (P = .014) and 12.4% higher in hard compared with soft shoes (P = .011). Forefoot peak VGRF in a soft shoe was higher (P = .011) than in a hard shoe during shot-block landing. Both "heavy" and "light" groups preferred softer to harder shoes. Overall, body mass had little effect on kinetic or perceptual variables.

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“…Among the physical exercise programs, the vertical jumping training seems to be the most complete plyometric exercise, once during its execution it is used the major muscular groups, mainly the lower limbs muscles (Markovic 2007, Leontijevic et al 2012, Lamas et al 2012. Moreover, there are no specifi c data about lipid prolife determinations and vertical jumping training.…”

mentioning

confidence: 99%

The effects of coconut oil supplementation on the body composition and lipid profile of rats submitted to physical exercise

Resende

Félix

Soré

et al. 2016

An. Acad. Bras. Ciênc.

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This study aims to verify the effects of coconut oil supplementation (COS) in the body composition and lipid profi le of rats submitted to physical exercise. The animals (n=6 per group) were randomly assigned to: G1=Sedentary and Non-supplemented (Control Group), G2=Sedentary and Supplemented, G3=Exercised and Non-supplemented and G4=Exercised and Supplemented. The COS protocol used was 3 mL/Kg of body mass by gavage for 28 days. The physical exercise was the vertical jumping training for 28 days. It was determined the body mass parameters, Lee Index, blood glucose and lipid profi le. The COS did not interfere with body mass, but the lean body mass was lower in G3 compared to G2. The fi nal Lee Index classifi ed G1 and G2 as obese (>30g/cm). The lipid profi le showed total cholesterol was decreased in G3, LDL-c concentration was decreased in G2, triglycerides, VLDL-c and HDL-c concentrations were increased in G2 and G4 in relation to G1 and G3. The COS decreased LDL-c/HDL-c ratio. In conclusion, the COS associated or not to physical exercise worsen others lipid parameters, like triglycerides and VLDL-c level, showing the care with the use of lipid supplements.

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Effects of loading on maximum vertical jumps: Selective effects of weight and inertia

Cited by 23 publications

References 36 publications

Force–velocity relationship of leg extensors obtained from loaded and unloaded vertical jumps

Force–velocity relationship of leg extensors obtained from loaded and unloaded vertical jumps

Effect of body mass and midsole hardness on kinetic and perceptual variables during basketball landing manoeuvres

The effects of coconut oil supplementation on the body composition and lipid profile of rats submitted to physical exercise

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