Velocity Drives Greater Power Observed During Back Squat Using Cluster Sets

Oliver, Jonathan M.; Kreutzer, Andreas; Jenke, S; Phillips, Melody D.; Mitchell, Joel B.; Jones, Margaret

doi:10.1519/jsc.0000000000001023

Cited by 58 publications

(88 citation statements)

References 26 publications

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“…Therefore, this study expands on our recent study examination of the kinetic and kinematic differences between TRD and CLU in RT and UT men (Oliver et al 2015) by examining the differences in those factors, mechanical, metabolic, and hormonal; that have been identified as potential contributors to the mechanism(s) responsible for differing adaptations observed between TRD and CLU. In following with our recent report (Oliver et al 2015), a secondary purpose was to examine if differences exist between trained and untrained males.…”

Section: Introductionmentioning

confidence: 91%

“…These data are those in which blood samples were able to be obtained. Data associated with the larger sample examining differences in the kinetics and kinematics of CLU and TRD is published elsewhere (Oliver et al 2015).…”

Section: Average Power Determinationmentioning

confidence: 99%

“…In following with our recent report (Oliver et al 2015), a secondary purpose was to examine if differences exist between trained and untrained males. With TRD, we hypothesized greater metabolic stress with a resultant larger hormonal response; whereas, CLU would attenuate the decline in power attributed to TRD.…”

Section: Introductionmentioning

confidence: 99%

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Acute response to cluster sets in trained and untrained men

et al. 2015

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Section: Introductionmentioning

confidence: 91%

Section: Average Power Determinationmentioning

confidence: 99%

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Acute response to cluster sets in trained and untrained men

et al. 2015

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“…Cluster sets (CLU) incorporate a brief rest (typically 15-30 s) between individual repetitions (inter-repetition rest) or group of repetitions (intra-set rest) with a set of resistive exercises. In contrast to traditional set configurations (TRD), which result in an almost linear decrease in force [9,24], velocity [9,24], and power [9,16,23], CLU maintain and/or attenuate the loss in power [9,16,23], primarily due to higher velocities [24]. This is facilitated by the ability of the phosphagen and glycolytic energy systems to recover during the brief rest periods as evidenced by lower blood lactate [5,6,23] following CLU compared to TRD, as well as greater intramuscular adenosine triphosphate (ATP) and phosphocreatine (PCr) [6].…”

Section: Introduction ▼mentioning

confidence: 94%

“…This is facilitated by the ability of the phosphagen and glycolytic energy systems to recover during the brief rest periods as evidenced by lower blood lactate [5,6,23] following CLU compared to TRD, as well as greater intramuscular adenosine triphosphate (ATP) and phosphocreatine (PCr) [6]. However, although the beneficial effects of CLU in the acute setting are unequivocal [9,16,24], long-term studies have failed to produce results superior to TRD [8,33], except when training was performed at or around the optimal load [22]. Following a 12-week periodized program designed to elicit hypertrophy, greater gains in strength and power were observed following CLU compared to TRD [22], likely due to neuromuscular adaptations (i. e., increase recruitment of type II fibers) [14] resulting from differences in mechanical stress [3].…”

Section: Introduction ▼mentioning

confidence: 99%

Acute Effect of Cluster and Traditional Set Configurations on Myokines Associated with Hypertrophy

et al. 2016

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This study compared the acute cytokine response, and kinetic and kinematic profile following back squat exercise in resistance-trained men. In a randomized, cross-over design, 10 resistance-trained men (27±4 y, 1.80±0.07 m, 82.8±6.7 kg, 16.3±3.5% fat) performed the back squat exercise using traditional and cluster set configurations. Kinetic and kinematic data were sampled throughout each condition. Venous blood was sampled prior, immediately post, 30 min, 60 min, 24 h, and 48 h post-exercise for plasma interleukin-6 (IL-6) and interleukin-15 (IL-15). Cluster sets allowed for greater mean power (mean difference, 110 W; 90% confidence interval, ±63 W; benefit odds, 41 447:1), driven by higher overall mean velocities (0.053 m∙s; 0.039 m∙s; 3 105:1) as evidenced by the lack of clear contrasts for mean force. IL-15 increased post-exercise in both conditions, but increased at 24 h (0.13 pg·mL; ±0.11 pg·mL; 486:1) and 48 h (0.12 pg·mL; ±0.10 pg·mL; 667:1) in traditional sets only. IL-6 increased similarly in both conditions, post-exercise through 60 min post. Cluster set configurations allow for greater mean power, attributed to higher velocities. Despite a similar response of IL-6, traditional set configuration may provide a greater stimulus for hypertrophy as evidenced by a secondary increase in IL-15.

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Acute mechanical, physiological and perceptual responses in older men to traditional-set or different cluster-set configuration resistance training protocols

2020

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Purpose The aims of this study were to compare mechanical outputs (i.e. power and impulse), physiological (i.e. heart rate) and perceptual (i.e. effort and fatigue) responses in older men to traditional-set or different cluster-set configuration resistance training protocols. Methods In a randomized cross-over design, 20 healthy old men (aged 67.2 ± 2.1 years) completed four resistance training sessions using the back squat exercise loaded with optimal power loads. Training configurations were: traditional (TRA), three sets of six repetitions with 120-s rest between each set; Cluster-set 1 (CLU1), 24 single-repetition clusters with 10 s of rest after every cluster; Cluster-set 2 (CLU2), 12 double-repetition clusters with 20-s rest after every cluster; and Cluster-set 4 (CLU4), 6 quadruple-repetition clusters with 40-s rest after every cluster. Results Cluster-set configurations resulted in greater power outputs compared to traditional-set configuration (range 2.6–9.2%, all p$$\le$$ ≤ 0.07 for main effect and protocol $$\times$$ × set interactions). CLU1 and CLU2 induced higher heart rate (range 7.1–10.5%, all p < 0.001 for main effect and protocol $$\times$$ × set interactions), lower rating of perceived exertion (range − 1.3 to − 3.2 AU, all p$$\le$$ ≤ 0.006 for pairwise comparisons) and lower ratings of fatigue (range − 0.15 to − 4 AU, all p$$\le$$ ≤ 0.012 for pairwise comparisons) compared to TRA and CLU4. Finally, an absolute preference for CLU2 was reported. Conclusions Findings presented here support the prescription of CLU2 as an optimal resistance training configuration for trained older men using the back squat.

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Velocity Drives Greater Power Observed During Back Squat Using Cluster Sets

Cited by 58 publications

References 26 publications

Acute response to cluster sets in trained and untrained men

Acute response to cluster sets in trained and untrained men

Acute Effect of Cluster and Traditional Set Configurations on Myokines Associated with Hypertrophy

Acute mechanical, physiological and perceptual responses in older men to traditional-set or different cluster-set configuration resistance training protocols

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