The Impact of Resistance Training Program on the Muscle Strength and Bone Density in Adolescent Athletes

Saša Bubanj; Milorad Mitković; Tomislav Gašić; Sanja Mazić; Ratko Stanković; Dragan Radovanović; Borislav Obradović; Goran Šekeljić; Milovan Stamatović; Jovan Marković; Slavoljub Uzunović

Original article

Published: 10.09.2018.

<< Prev | Next >>

PDF

The Impact of Resistance Training Program on the Muscle Strength and Bone Density in Adolescent Athletes

Abstract

Strength training and other modes of physical activity may be beneficial in osteoporosis prevention by maximizing bone mineral accrual in childhood and adolescence. This study focuses on the impact of the nine-month long program of resistant exercises with different level of external loads (low, middle and high) on the lower limbs explosive strength and bone tissue density in athletes adolescents aged 17 to 18 years. Sixty healthy, male athletes and non-athletes, divided into experimental (ES, sprinters, N = 45) and control sub-sample (CS, non-athletes, N = 15), were included in study. ES examinees (EG1, EG2 and EG3) were subjected to the program of resistance exercises with low level (60% of the One Repetition Maximum-1RM), middle level (70% 1RM), and high level (85% 1RM) of external loads, respectively. Bone Density values were determined by the use of a clinical sonometer „Sahara” (Hologic, Inc., MA 02154, USA). Explosive strength values of hip extensors and flexors, knee extensors and flexors, and ankle plantar and dorsiflexors were determined by the use of accelerometer „Myotest“ (Sion, Switzerland) and the means of Counter Movement Jump without arms swing (CMJ) and half squat. ANOVA method for repeated measures and ANCOVA method were used to determine significant differences and resistance program effects on the lower limbs explosive strength and bone tissue density. Resistance exercise does impact the explosive strength and bone parameters in a way to increase half squat 1RM values, but decreases CMJ values, and increases speed of sound (SOS), broadband ultrasound attenuation (BUA) and bone mineral density (BMD) values in athletes-adolescents, aged 17-18 years.

Keywords:

resistance exercise,

explosive strength,

bone density,

sprinters,

effects

References

Engebretsen L, Steffen K, Bahr R, Broderick C, Dvorak J, Janarv PM, et al. The International Olympic Committee Consensus Statement on age determination in high-level young athletes. British Journal of Sports Medicine. 2010;44(7):476–84.

Hinton PS, Nigh P, Thyfault J. Effectiveness of resistance training or jumping-exercise to increase bone mineral density in men with low bone mass: A 12-month randomized, clinical trial. Bone. 2015;79:203–12.

Frost HM. Bone “mass” and the “mechanostat”: A proposal. The Anatomical Record. 1987;219(1):1–9.

Ribeiro-dos-Santos MR, Lynch KR, Agostinete RR, Maillane-Vanegas S, Turi-Lynch B, Ito IH, et al. Prolonged Practice of Swimming Is Negatively Related to Bone Mineral Density Gains in Adolescents. Journal of Bone Metabolism. 2016;23(3):149.

Gómez‐Bruton A, González‐Agüero A, Gómez‐Cabello A, Matute‐Llorente A, Casajús JA, Vicente‐Rodríguez G. The effects of swimming training on bone tissue in adolescence. Scandinavian Journal of Medicine & Science in Sports. 2015;25(6).