Performance and Hormonal Responses to Different Training Modalities in Young Weightlifters: A Randomised Controlled Trial

Not Applicable

Completed

• Conditions: Weightlifting; Hormone; Young; Performance; Anaerobic Power; Strength Training Effects

• Registration Number: NCT07088627
• Lead Sponsor: Selcuk University

Brief Summary

Olympic weightlifting is a sport that requires high levels of force production, technical skill, and intermuscular coordination. The effects of strength training during adolescence on performance, anaerobic power, and hormonal responses are critically important for athlete health and development.

This study investigated the effects of different strength training methods on snatch (SN) and clean \& jerk (C\&J) performance, anaerobic power levels, and selected hormonal parameters (growth hormone (GH), insulin-like growth factor 1 \[IGF-1\], total testosterone (TT), insulin (INS), thyroid-stimulating hormone (TSH)) in young male weightlifters. A total of 32 male weightlifters participated in the study. The participants were randomly assigned to one of four groups: undulating strength training (UG) (age: 17.6 ± 1.6 years), serial strength training (SG) (age: 16.9 ± 1.3 years), maximal strength training (MG) (age: 17.3 ± 1.4 years), and a control group (CG) (age: 17.1 ± 1.2 years). The experimental groups underwent sport-specific strength training five days per week for eight weeks. The performance assessments included one-repetition maximum (1RM) tests for the SN and C\&J lifts, whereas the anaerobic power was measured via the vertical jump test. Hormonal parameters were analyzed via a chemiluminescent autoanalyzer. Paired samples t tests were used for within-group comparisons, and one-way analysis of variance (ANOVA) was employed for between-group comparisons.

The findings revealed significant improvements in SN, C\&J, and anaerobic power performance in the groups subjected to UG, SG, and MG strength training. However, no significant differences were observed between the training groups in terms of performance or hormonal response. While some hormonal parameters increased, others did not significantly change.

Various strength training approaches contribute to improvements in the technical performance and anaerobic power of young weightlifters; however, their effects on hormonal responses appear to be limited. Planning training programs according to individual needs and developmental stages is essential for safeguarding athlete health and supporting long-term performance development.

Detailed Description

This experimental study examined the effects of three different strength training methods-undulating, serial, and maximal-on Olympic weightlifting performance, anaerobic power, and hormonal responses in adolescent male athletes. A total of 32 licensed male weightlifters with similar training backgrounds and weight categories were randomly assigned to four groups using stratified randomization. To maintain internal validity, group allocation was based on baseline metrics including age, training history, body weight, and performance measures.

The 8-week training intervention was delivered five days per week, with standardized session structures and rest intervals tailored to each protocol's physiological goals. Training programs targeted the SN and C\&J exercises and were adjusted weekly based on reassessed one-repetition maximum (1RM) values. All sessions were conducted under the supervision of certified coaches to ensure technical consistency.

Anaerobic power was assessed using vertical jump tests, and hormonal measurements (GH, IGF-1, TT, INS and TSH) were obtained through venous blood samples analyzed via chemiluminescence autoanalyzers. To reduce variability, all blood samples were collected in a fasted state at the same time of day before and after the training period.

Blinded testers conducted all performance assessments, and standard operating procedures were applied to enhance reliability. Data were analyzed using parametric statistical tests (paired t-tests, ANOVA with Tukey post hoc analysis) to evaluate within- and between-group differences.

The study received ethical approval from the Non-Interventional Clinical Research Ethics Committee of the Faculty of Sport Sciences at Selçuk University (Decision No: 07, Date: 28.01.2021). Written informed consent was obtained from all participants, and confidentiality was strictly maintained throughout the research process.

Study Timeline

• Study Start: 2021-02-02
• Primary Completion: 2021-11-19
• Study Completion: 2022-08-03
• Status Verified: 2025-07
• Study First Submitted: 2025-07-18
• Study First Submitted QC: 2025-07-25
• Last Update Submitted: 2025-07-25
• Study First Posted: 2025-07-28
• Last Update Posted: 2025-07-28

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Male
• Target Recruitment: 32

Inclusion Criteria

• Male sex
• At least three years of licensed weightlifting experience
• No serious musculoskeletal injuries in the past year
• No use of medications, hormones, or supplements during the study
• Voluntary participation with signed informed consent

Exclusion Criteria

• Participants outside the specified age range or with noncompliance to inclusion criteria

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
1. SN Performance	Baseline (Week 0) and Post-Intervention (Week 8)	SN performance is assessed by the maximum weight (in kilograms) successfully lifted in a 1RM test, recorded according to official International Weightlifting Federation (IWF) standards. The direction of improvement is indicated by an increase in lifted weight (kg).
2. C&J Performance	Baseline (Week 0) and Post-Intervention (Week 8)	C\&J performance is assessed by the maximum weight (in kilograms) successfully lifted in a 1RM test according to IWF standards. The direction of improvement is indicated by an increase in lifted weight (kg).
3. Anaerobic Power Performance	Baseline (Week 0) and Post-Intervention (Week 8)	Anaerobic power is estimated using the Sayers equation, calculated from vertical jump height and body weight: Anaerobic Power (Watts) = (60.7 × jump height \[cm\]) + (45.3 × body weight \[kg\]) - 2055 Higher watt values indicate greater anaerobic power output.

Secondary Outcome Measures

Name	Time	Method
1. Serum GH Level	Baseline and 24 hours post-final training session	Venous blood samples were collected between 08:00-09:00 following an overnight fast, both prior to the first training session and 24 hours after the final session. Serum GH levels (ng/mL) were analyzed using chemiluminescence-based autoanalyzers (Roche Elecsys 2010) in a certified laboratory, known for their high sensitivity and specificity. Each sample was measured twice, and the highest value was recorded. An increase or modulation in GH levels was considered indicative of endocrine adaptation.
2. Serum IGF-1 Level	Baseline and 24 hours post-final training session	Venous blood samples were collected and processed in the same manner as for GH-between 08:00-09:00 following an overnight fast, prior to the first and 24 hours after the final training session. Serum IGF-1 levels (ng/mL) were measured using chemiluminescence-based autoanalyzers (Roche Elecsys 2010) in a certified laboratory. Each sample was analyzed twice, and the highest value was recorded. An increase in IGF-1 level was interpreted as an indication of anabolic response.
3. Serum TT Level	Baseline and 24 hours post-final training session	TT levels were measured from venous serum samples collected under the same standardized conditions-between 08:00-09:00 following an overnight fast, prior to the first and 24 hours after the final training session. Measurements were performed using high-sensitivity chemiluminescence-based autoanalyzers (Roche Elecsys 2010) in a certified laboratory. Each sample was analyzed twice, and the highest value was recorded. An increase in testosterone levels was considered indicative of anabolic adaptation.
4. Serum INS Level	Baseline and 24 hours post-final training session	INS concentration in serum was measured using the Roche Elecsys 2010 autoanalyzer following the same protocol-venous blood samples collected between 08:00-09:00 after an overnight fast, before the first and 24 hours after the final training session. Each sample was analyzed twice, and the highest value was used. Changes in insulin levels were interpreted as reflecting metabolic adjustment.
5. Serum TSH Level	Baseline and 24 hours post-final training session	TSH levels were determined using certified chemiluminescence-based analysis. Venous blood samples were collected between 08:00-09:00 following an overnight fast, both before the first and 24 hours after the final training session. Each sample was measured twice, with the highest value recorded. Changes in TSH levels were interpreted as the thyroid regulatory hormone response to training stress.

Trial Locations

Locations (1)

Selçuk University, Faculty of Sport Sciences; 🇹🇷 Konya, Turkey