30 research outputs found
The effect of concurrent resistance training on upper body strength, sprint swimming performance and kinematics in competitive adolescent swimmers: a randomized controlled trial
This study aimed to examine the effect of 9 weeks of concurrent resistance training (CRT) between resistance on dry land (bench press (BP) and medicine ball throw) and resistance in water (water parachute and hand paddles) on muscle strength, sprint swimming performance and kinematic variables compared by the usual training (standard in-water training). Twenty-two male competitive swimmers participated in this study and were randomly allocated to two groups. The CRT group (CRTG, age = 16.5 ± 0.30 years) performed a CRT program, and the control group (CG, age = 16.1 ± 0.32 years) completed their usual training. The independent variables were measured pre-and post-intervention. The findings showed that the one-repetition maximum bench press (1RM BP) was improved only after a CRT program (d = 2.18; +12.11 ± 1.79%). Moreover, all sprint swimming performances were optimized in the CRT group (d = 1.3 to 2.61; −4.22 ± 0.18% to −7.13 ± 0.23%). In addition, the findings revealed an increase in velocity and stroke rate (d = 1.67, d = 2.24; 9.36 ± 2.55%, 13.51 ± 4.22%, respectively) after the CRT program. The CRT program improved the muscle strength, which, in turn, improved the stroke rate, with no change in the stroke length. Then, the improved stroke rate increased the swimming velocity. Ultimately, a faster velocity leads to better swim performancesinfo:eu-repo/semantics/publishedVersio
Effect of concurrent resistance training on lower body strength, leg kick swimming, and sport-specific performance in competitive swimmers
The present study investigated the effect of 9 weeks of combined resistance training (aquatic and dry land resistance) on maximum lower body strength, leg kick, and swimming performance in competitive swimmers. Twenty-two male national competitive swimmers were randomly as-signed into two groups: experimental group (EG: age = 16.2 ± 0.3 years) or control group (CG: age = 16.3 ± 0.3 years). The EG performed a combined resistance training while the CG group com-pleted their usual training. One repetition maximum (1RM) back squat, 30 m leg kick, and swimming performance (100 m front crawl, start and turn) were evaluated in pre and post test. The findings showed a significant increase in 1RM back squat (d = 1.90; 14.94 ± 1.32%) after 9 weeks of combined resistance training. In addition, ours results revealed a significant improvement in 30 m leg kick swimming (d = 2.11; 5.84 ± 0.16%) and in all swimming, start and turn performances (d = 1.83 to 2.77; 2.69 ± 0.18% to 15.14 ± 1.06%) in EG. All dependent variables remained unchanged in the CG. To sum up, 9 weeks of combined resistance training can improve the maximum lower body strength and leg kick swimming performance. These improvements can be the essential factors that subsequently positively affected swimming, start and turn performances. Combined resistance training is an effective training that can be incorporated by coaches and swimmers into their programs to improve strength, leg kick swimming, and, subsequently, swimming performance in competitive swimmersThis research received no external funding. The authors thank all the subjects who participated in this studyinfo:eu-repo/semantics/publishedVersio
Effect of High-Volume Training on Psychological State and Performance in Competitive Swimmers
This study aimed to examine the effect of four weeks of aquatic high-volume training (HVT)
on the psychological state (somatic, cognitive anxiety, and self-confidence) and sprint swimming performance
(50 m front crawl) compared to the standard training program (moderate volume training)
in competitive swimmers. Twenty-eight male competitive swimmers participated in this study and
were randomly allocated into two groups: HVT group (n = 14; age = 16.4 0.31 years) and control
group that underwent the standard training program (n = 14; age = 16.1 0.30 years). All psychological
state variables and swimming performance were measured in pre and post-test. Our findings
showed a significant increase in anxiety state (34.13% to 45.83%; ES = 3.26 to 3.38) and a significant
decrease in self-confidence (18.43%; ES = 2.39) after four weeks of HVT, while all psychological state
variables remained unchanged in the control group (p > 0.05). In addition, our results showed no
significant enhancement in swimming performance in both groups (p > 0.05). The sudden increase
in training mileage negatively affected the anxiety, decreasing the state of self-confidence of the
participants. In addition, four weeks of high training volume are insufficient to improve swimming
performance. To conclude, gradually increasing the volume of the training load may be an adequate
solution to promote adaptation to the effort, thus maintaining the stability of the psychological state
of swimmers. In addition, it is recommended to integrate a concurrent mental preparation program
with high-volume training to monitor the psychological state of competitive swimmers.The authors thank all the subjects who participated in this studyinfo:eu-repo/semantics/publishedVersio