Child—Adult Differences in Muscle Activation — A Review

Dotan, Raffy; Mitchell, Cameron; Cohen, Rotem; Klentrou, Panagiota; Gabriel, David A.; Falk, Bareket

doi:10.1123/pes.24.1.2

Cited by 178 publications

(152 citation statements)

References 87 publications

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“…As we have previously suggested, we also believe that children recruit their type-II motor units to a lesser degree compared with men (e.g., Dotan et al 2012). Certainly, these attributes could both be true.…”

Section: Raffy Dotan and Bareket Falksupporting

confidence: 60%

Discussion: “The kinetics of blood lactate in boys during and following a single and repeated all-out sprints of cycling are different than in men” — Do children indeed release and remove lactate faster than adults?

Dotan

Falk

2015

Appl. Physiol. Nutr. Metab.

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Discussion: "The kinetics of blood lactate in boys during and following a single and repeated all-out sprints of cycling are different than in men" O Do children indeed release and remove lactate faster than adults? Raffy Dotan and Bareket FalkIn their just-published paper, Engel et al. (2015) re-establish 2 very important facts in the realm of pediatric exercise physiology: First, that pre-pubertal boys, even when trained, do not reach the levels of blood lactate (La) concentrations attained by men. Second, that in repeated short-term high-intensity exercise, boys fatigue considerably less than do their adult counterparts.The authors, however, go beyond comparing La concentrations and performance capacities and venture into the more complex topic of child-adult differences in La kinetics. The boys' La kinetics is clearly different than that of the men ( Fig. 2; Engel et al. 2015), with the boys' La concentration peaking earlier, but at considerably lower levels than the men's. Less obvious are the reasons for these differences and this is where, we believe, the authors went astray. As the first of their study's main findings, the authors claim that boys demonstrated "…a faster release of lactate into the blood and more rapid subsequent removal from the blood…" As will be explained below, we consider this claim and its reasoning to be largely unacceptable.The root problem appears to be the authors' stated reliance on a model previously employed by Beneke et al. for the very same purpose (Beneke et al. 2005). That model, in turn, was one earlier used by Dost to assess pharmacokinetics (Dost 1968). While the 2 may appear similar, there is an important distinction between drug and La kinetics. While drug kinetics is typically measured in hours and days, La responses are timed in minutes and seconds. Therefore, in typical pharmacokinetics, a factor that affects the kinetics by a few seconds or minutes would be imperceptible and thus inconsequential for how a drug would be administered. On the other hand, a comparable effect on La kinetics does make a considerable difference. Such a factor does indeed exist. It has been termed "circulation time" or "transit time". It has long been shown that circulation (out and back transit) time increases with body mass and blood volume from infancy to adulthood (Seckel 1936), and Cumming, for example, showed it to be shorter in children versus adults during exercise (Cumming 1978). In this respect, children's faster La response to exercise is not much different than their corresponding faster oxygen uptake kinetics (Carter et al. 2005).The Dost/Beneke model has 2 components (i.e., release into the blood and elimination from the blood) and it may be suitable when comparing drug or La kinetics in individuals of similar body dimensions. Indeed, Engel et al. confirm that the model they used (i.e., the Dost/Beneke model) has been validated for men, but not for boys. Thus, in view of the known differences in transit times between children and adults, both Engel et al. and Beneke et al. ...

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Section: Raffy Dotan and Bareket Falksupporting

confidence: 60%

Discussion: “The kinetics of blood lactate in boys during and following a single and repeated all-out sprints of cycling are different than in men” — Do children indeed release and remove lactate faster than adults?

Dotan

Falk

2015

Appl. Physiol. Nutr. Metab.

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“…According to the size principle (Henneman et al 1965), the lower level of voluntary recruitment implies that children activate their higher threshold, fast-twitch, type-II MUs to a lesser extent than do adults. The lesser activation of type-II MUs and greater reliance on slow-twitch, type-I MUs may, in turn, explain many performance, metabolic, and neuro-motor childadult differences beyond just isometric muscle strength (Dotan et al 2012). Direct supportive evidence for this differential MU activation hypothesis is lacking due to technical or ethical constraints associated with invasive techniques.…”

Section: Introductionmentioning

confidence: 97%

The electromyographic threshold in boys and men

et al. 2015

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“…These characteristics can be directly influenced by the age of the participant as children possess less voluntary muscle speed, strength, and power, even when corrected for age or maturation state (Van Praagh & Dore, 2002). Likewise, children and adolescents possess less quantity of type II muscle fibres in the vastus lateralis muscle compared to adults (Lexell, Sjöström, Nordlund, & Taylor, 1992;Sjöström, Lexell, & Downham, 1992) and have a reduced ability to utilise these higher-threshold motor units (Cohen et al, 2010;Dotan et al, 2012) which are more responsive to heavy resistance exercise (Hamada, Sale, MacDougall, & Tarnopolsky, 2000;Howarth & Kravitz, 2008). The combination of these factors may influence the ability of adolescent participants to derive benefits from heavy resistance exercise.…”

Section: Introductionmentioning

confidence: 94%

The effect of heavy resistance exercise on repeated sprint performance in youth athletes

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Harsley

Shaw

et al. 2015

Journal of Sports Sciences

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This investigation assessed whether prior heavy resistance exercise would improve the repeated sprint performance of 16 trained youth soccer players (Age 17.05 ± 0.65 years; height 182.6 ± 8.9 cm; body mass 77.8 ± 8.2 kg). In session 1, individual 1 repetition max was measured utilising a squat movement. In sessions 2 and 3, participants performed a running-based repeated anaerobic sprint test with and without prior heavy resistance exercise of 91% of their 1 repetition max. Times were recorded for each of the 6 sprints performed in the repeated sprint test and summed to provide total time. T-tests compared the two exercise conditions via differences in corresponding sprint times and total time. Analysis revealed significantly reduced total time with use of heavy resistance exercise (33.48 (±1.27) vs. 33.59 (±1.27); P = 0.01). Sprints 1 (P = 0.05) and 2 (P = 0.02) were also faster in the heavy resistance exercise condition (5.09 (±0.16) vs. 5.11 (±0.16) and 5.36 (±0.24) vs. 5.45 (±0.26) seconds respectively) although no other differences were shown. Findings demonstrate improved sprint times of trained adolescent soccer players after heavy resistance exercise although benefits appear not as sustained as in adult participants.

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Child—Adult Differences in Muscle Activation — A Review

Cited by 178 publications

References 87 publications

Discussion: “The kinetics of blood lactate in boys during and following a single and repeated all-out sprints of cycling are different than in men” — Do children indeed release and remove lactate faster than adults?

Discussion: “The kinetics of blood lactate in boys during and following a single and repeated all-out sprints of cycling are different than in men” — Do children indeed release and remove lactate faster than adults?

The electromyographic threshold in boys and men

The effect of heavy resistance exercise on repeated sprint performance in youth athletes

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