Objective: This study seeks to assess the functional status and central fatigue state of athletes in the Shanghai women's volleyball team during the training phase of the 2021 Shaanxi National Games. Employing a comprehensive methodology involving functional status assessment and catecholamine index analysis, the research aims to establish a scientific foundation for preparing for the 2025 National Games. Additionally, it aims to provide valuable insights for preventing excessive fatigue and promoting the rational elimination of fatigue.
Methods: (1) Participants: Twelve adult female volleyball players from Shanghai participated in the study. The average age of the participants was 26.23±3.39 years, and they had an average training period of 11.92±3.73 years. (2) Training Period: The study spanned a duration of 21 consecutive weeks, during which the training regimen was divided into eight distinct stages based on specific content and tasks. (3) Testing Procedures: Various tests were conducted at specific intervals throughout the training period. These included assessments performed at the conclusion of each upper training stage and the Metamorphosis stage. Additionally, comprehensive testing was carried out before and after both the preliminaries and championship matches of the National Games. Fasting elbow venous blood samples were collected for assessing functional status indicators, including Hemoglobin (HGB), Blood Urea Nitrogen (BUN), Creatine Kinase (CK), Serum Ferritin (SF), Testosterone (T), Cortisol (C), Testosterone/Cortisol ratio (T/C). Moreover, blood catecholamine indicators (Dopamine (DA), Norepinephrine (NE), Epinephrine (E) were analyzed before the National Games, at the end of Metamorphosis stage 2, and at the conclusion of upper phase 3. (4)Data Analysis: The collected data underwent rigorous statistical processing using SPSS 25.0 statistical software package and Microsoft Excel software. This comprehensive analysis was essential for deriving meaningful conclusions and identifying significant patterns in the athletes' functional status and central fatigue states.
Results: (1) HGB, T, and T/C showed the same trend throughout the whole period. The upper phase 1 drops significantly to the lowest value and the Metamorphosis stage increases. The training stage 2 fell again, but the decline was less than the training stage 1, and the Metamorphosis stage 2 increased significantly, and there was a significant difference between the basic value and the training stages (P < .05). Testosterone increased significantly to the maximum before the final of the National Games, and there was a significant difference between the baseline and the pre-match (P < .05). (2) At the end of the training stage, DA, and E decreased significantly, and there was no significant difference in NE decline. During the preliminaries of the National Games, DA, NE, and E all declined, but there was no significant difference. In the championship stage, DA, NE, and E both increased, but only NE was significantly different from the Metamorphosis stage and the championship (P < .05).
Conclusion: (1) Performance Enhancement: Recognizing and addressing performance dips in the training stage through targeted adjustments can optimize athlete performance. Athletes exhibit improved competitiveness during actual games, indicating the effectiveness of tailored interventions (2) Strategic Fatigue Management: Distinguishing between body and central fatigue is vital. Monitoring sensitive markers like blood dopamine and adrenaline in the training stage enables timely fatigue management. Understanding the relationship between blood testosterone and dopamine offers insights into energy levels and mental resilience, aiding in effective training strategies. (3) Efficient Evaluation Tools: Hemoglobin and blood testosterone serve as efficient markers for evaluating athletes' states. Regular assessment of these indicators allows for proactive adjustments in training, preventing excessive fatigue and promoting overall well-being.