期刊
EUROPEAN JOURNAL OF APPLIED PHYSIOLOGY
卷 119, 期 7, 页码 1619-1632出版社
SPRINGER
DOI: 10.1007/s00421-019-04151-4
关键词
Electromyography; Mechanomyography; Isometric strength; Youth
资金
- University of Nebraska Agriculture Research Division
- Hatch Act (Agency: U.S. Department of Agriculture, National Institute of Food and Agriculture) [1000080, NEB-36-078]
- Abbott Nutrition, Columbus, OH
- NIFA [1000080, 688984] Funding Source: Federal RePORTER
PurposeTo compare measurements of muscle strength, size, and neuromuscular function among pre-adolescent and adolescent boys and girls with distinctly different strength capabilities.MethodsFifteen boys (mean ageconfidence interval: 13.01.0years) and 13 girls (12.9 +/- 1.1years) were categorized as low strength (LS, n=14) or high strength (HS, n=14) based on isometric maximal voluntary contraction strength of the leg extensors. Height (HT), seated height, and weight (WT) determined maturity offset, while percent body fat and fat-free mass (FFM) were estimated from skinfold measurements. Quadriceps femoris muscle cross-sectional area (CSA) was assessed from ultrasound images. Isometric ramp contractions of the leg extensors were performed while surface electromyographic amplitude (EMG(RMS)) and mechanomyographic amplitude (MMG(RMS)) were recorded for the vastus lateralis (VL). Neuromuscular efficiency from the EMG and MMG signals (NMEEMG and NMEMMG, respectively) and log-transformed EMG and MMG vs. torque relationships were also used to examine neuromuscular responses.Results HS was 99-117% stronger, 2.3-2.8 years older, 14.0-15.7cm taller, 20.9-22.3kg heavier, 2.3-2.4years more biologically mature, and exhibited 39-43% greater CSA than LS (p0.001). HS exhibited 74-81% higher NMEEMG than LS (p0.022), while HS girls exhibited the highest NMEMMG (p0.045). Even after scaling for HT, WT, CSA, and FFM, strength was still 36-90% greater for HS than LS (p0.031). The MMG(RMS) patterns in the LS group displayed more type I motor unit characteristics.Conclusions Neuromuscular adaptations likely influence strength increases from pre-adolescence to adolescence, particularly when examining large, force-producing muscles and large strength differences explained by biological maturity, rather than simply age.
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