Hormonal Balance in Stress, Fatigue, and Recovery: Dynamics of Pre-Competition Responses

Elite athletes frequently experience intense psychological and physiological stress before and during high-stakes competitions. While a certain level of pre-competitive stress is necessary for optimal performance, excessive or poorly regulated stress can negatively affect both performance outcomes and recovery. The body's response to stress involves complex neuroendocrine mechanisms, including the activation of the hypothalamic-pituitary-adrenal (HPA) axis and the release of stress-related hormones and neuromodulators. These include cortisol, testosterone, dopamine, serotonin, β-endorphins, and endocannabinoids such as anandamide and 2-arachidonoylglycerol (2-AG).

This observational cohort study aims to explore the dynamic changes in both hormonal and psychological stress responses across four time points-before, immediately after, 1 hour after, and 24 hours after-a standardized, high-intensity rowing performance test. This test is part of the official national team selection process and simulates the psychological and physical demands of real-world competition, making it an ecologically valid model for investigating stress.

Participants are elite rowers (men and women) who are current members of the national team. The test represents a critical selection tool for major championship events (e.g., World and National Championships), creating a natural, high-pressure environment to study pre-competitive stress. All participants provide blood samples at four time points and complete validated psychological questionnaires (including CSAI-2 and SCAT) before the test.

The study's primary outcomes include blood concentrations of stress- and motivation-related hormones (cortisol, testosterone, dopamine, serotonin, β-endorphin, anandamide, 2-AG), and scores from standardized psychological stress inventories assessing cognitive anxiety, somatic anxiety, and self-confidence. These variables are evaluated across the mobilization-fatigue-recovery cycle to capture both immediate and delayed responses to competitive stress.

Secondary outcomes include anthropometric measurements (height, body weight, body mass index, body composition, and training history), which will be used to describe the participant cohort and assess potential moderating factors.

This study is novel in its scope and methodology, integrating a broad panel of biological stress markers with subjective psychological assessments across multiple time points. While previous research has focused primarily on cortisol in isolated pre- or post-competition measures, this study tracks dynamic, time-resolved changes across the full stress-recovery spectrum. Furthermore, the inclusion of dopamine, β-endorphins, and endocannabinoids represents a rare and innovative attempt to explore less-studied but potentially critical components of the athlete stress response.

This study will provide new insights into the mechanisms of resilience, adaptation, and recovery in elite sport by evaluating how hormonal and psychological indicators shift together or diverge. Findings may help coaches, sports psychologists, and medical professionals better monitor athlete well-being, identify signs of overreaching or maladaptive stress, and develop more personalized strategies for performance readiness and mental support.