Gürkan Alper Cenk, Eraslan Meriç, Aydın Serhat, Altuğ Tolga, Türkmen Mustafa, Söyler Mehmet, Mülhim Mustafa Alper, Şahin Musa, Karataş Baykal, Akcan İbrahim Orkun, Küçük Hamza
Vocational School of Healthy Services, Gazi University, Ankara, Türkiye.
Department of Sport Sciences Faculty, Akdeniz University, Antalya, Türkiye.
Front Physiol. 2025 May 30;16:1536885. doi: 10.3389/fphys.2025.1536885. eCollection 2025.
Functional strength training (FST) has gained considerable attention due to its potential in enhancing muscle strength, endurance, and body composition, especially among athletes. The purpose of this study was to assess the effects of a 12-week FST program on performance outcomes such as muscle strength, muscular endurance, and body composition in elite male field hockey players.
The study involved 28 male athletes from the Türkiye Hockey Federation Super League, with a mean age of 27.54 ± 1.34 years and an average athletic experience of 7.62 ± 0.48 years. The mean height of participants was 180.28 ± 4.54 cm, and their mean weight was 75.59 ± 3.08 kg. Participants were randomly divided into two groups: the experimental group (n = 14) and the control group (n = 14). Pre-intervention assessments were conducted to evaluate muscle strength (Leg Extension, Leg Curl, Bench Press, Pushdown), muscular endurance (30-s Sit-up and Push-up tests), and body composition [Body Mass Index (BMI) and Body Fat Percentage (BFP)]. The experimental group participated in the FST program three times per week for 12 weeks, while the control group maintained their usual training regimen. Post-test evaluations were performed using the same testing protocols. Statistical Analysis: Data were analyzed using two-way repeated measures ANOVA to assess the interaction effects of group and time (pre-test vs post-test). Partial eta squared (η) values were used to report effect sizes, and statistical significance was set at p < 0.05. Data analysis was carried out using SPSS 22.0 software. Normality was assessed through the Shapiro-Wilk test, and data distribution was further examined through skewness-kurtosis values, histograms, box plots, and Q-Q plots. Paired sample t-tests were performed for pairwise comparisons, with Cohen's d used to determine the effect sizes. The classification for effect sizes followed Hopkins' (2002) guidelines: small (≥0.01), moderate (≥0.06), and large (≥0.14).
Significant group × time interaction effects were found for all measured variables (p < 0.05). The experimental group showed greater improvements in body composition, muscle strength, and muscular endurance compared to the control group. Specifically, the experimental group experienced a significant reduction in BMI (pre-test: 21.17 ± 0.64 kg/m, post-test: 19.84 ± 0.85 kg/m, p < 0.001) and BFP (pre-test: 15.36% ± 0.62%, post-test: 12.13% ± 0.47%, p < 0.001), while the control group showed minimal changes in these variables. Muscle strength improvements in the experimental group were significant for Leg Extension (pre-test: 83.93 ± 4.87 kg, post-test: 66.07 ± 4.01 kg, p = 0.003), Leg Curl (pre-test: 99.29 ± 7.81 kg, post-test: 118.21 ± 5.04 kg, p < 0.001), and Bench Press (pre-test: 66.43 ± 6.91 kg, post-test: 87.14 ± 4.69 kg, p < 0.001). In contrast, the control group did not show significant improvements in these tests. Muscular endurance was also superior in the experimental group for both the 30-s Sit-up (pre-test: 19.21 ± 0.97, post-test: 23.36 ± 1.28, p < 0.001) and Push-up (pre-test: 24.66 ± 2.53, post-test: 27.04 ± 0.81, p < 0.001) tests. Effect sizes (Cohen's d) indicated moderate to large effects for all measured variables, with d values ranging from 0.46 to 1.14 for strength and endurance improvements.
The findings of this study demonstrate that a 12-week FST program significantly improves muscle strength, endurance, and body composition in elite male field hockey players. These results suggest that incorporating FST into athletic training regimens may optimize performance and enhance overall physical fitness in athletes.
功能性力量训练(FST)因其在增强肌肉力量、耐力和身体成分方面的潜力而受到广泛关注,尤其是在运动员中。本研究的目的是评估为期12周的FST计划对精英男子曲棍球运动员的肌肉力量、肌肉耐力和身体成分等运动表现指标的影响。
该研究涉及来自土耳其曲棍球联合会超级联赛的28名男性运动员,平均年龄为27.54±1.34岁,平均运动经验为7.62±0.48年。参与者的平均身高为180.28±4.54厘米,平均体重为75.59±3.08千克。参与者被随机分为两组:实验组(n = 14)和对照组(n = 14)。在干预前进行评估,以评估肌肉力量(腿伸展、腿弯举、卧推、下压)、肌肉耐力(30秒仰卧起坐和俯卧撑测试)和身体成分[体重指数(BMI)和体脂百分比(BFP)]。实验组每周参加3次FST计划,为期12周,而对照组维持其常规训练方案。使用相同的测试方案进行测试后评估。统计分析:使用双向重复测量方差分析来评估组和时间(测试前与测试后)的交互作用。部分 eta 平方(η)值用于报告效应大小,统计学显著性设定为p < 0.05。使用SPSS 22.0软件进行数据分析。通过 Shapiro-Wilk 检验评估正态性,并通过偏度-峰度值、直方图、箱线图和 Q-Q 图进一步检查数据分布。进行配对样本t检验进行成对比较,使用 Cohen's d 来确定效应大小。效应大小的分类遵循霍普金斯(2002年)的指南:小(≥0.01)、中(≥0.06)和大(≥0.14)。
在所有测量变量中均发现了显著的组×时间交互作用效应(p < 0.05)。与对照组相比,实验组在身体成分、肌肉力量和肌肉耐力方面有更大的改善。具体而言,实验组的BMI(测试前:21.17±0.64千克/米,测试后:19.84±0.85千克/米,p < 0.001)和BFP(测试前:15.36%±0.62%,测试后:12.13%±0.47%,p < 0.001)显著降低,而对照组在这些变量上变化极小。实验组的腿伸展(测试前:83.93±4.87千克,测试后:66.07±4.01千克,p = 0.003)、腿弯举(测试前:99.29±7.81千克,测试后:118.21±5.04千克,p < 0.001)和卧推(测试前:66.43±6.91千克,测试后:87.14±4.69千克,p < 0.001)的肌肉力量改善显著。相比之下,对照组在这些测试中没有显示出显著改善。实验组在30秒仰卧起坐(测试前:19.21±0.97,测试后:23.36±1.28,p < 0.001)和俯卧撑(测试前:24.66±2.53,测试后:27.04±0.81,p < 0.001)测试中的肌肉耐力也更优。效应大小(Cohen's d)表明所有测量变量的效应为中等至较大,力量和耐力改善的d值范围为0.46至1.14。
本研究结果表明,为期12周的FST计划可显著提高精英男子曲棍球运动员的肌肉力量、耐力和身体成分。这些结果表明,将FST纳入运动训练方案可能会优化运动员的表现并增强其整体身体素质。
