Temporal changes in physiological and performance responses across game-specific simulated basketball activity

摘要

Purpose The aims of this study were to: (1) provide a comprehensive physiological profile of simulated basketball activity and (2) identify temporal changes in player responses in controlled settings. Methods State-level male basketball players ( n ?=?10) completed 4?×?10?min simulated quarters of basketball activity using a reliable and valid court-based test. A range of physiological (ratings of perceived exertion, blood lactate concentration ([BLa ? ]), blood glucose concentration ([BGlu]), heart rate (HR), and hydration) and physical (performance and fatigue indicators for sprint, circuit, and jump activity) measures were collected across testing. Results Significantly reduced [BLa ? ] (6.19?±?2.30 vs. 4.57?±?2.33?mmol/L; p ?=?0.016) and [BGlu] (6.91?±?1.57 vs. 5.25?±?0.81?mmol/L; p ?=?0.009) were evident in the second half. A mean HR of 180.1?±?5.7 beats/min (90.8%?±?4.0% HR max ) was observed, with a significant increase in vigorous activity (77%–95% HR max ) (11.31?±?6.91 vs. 13.50?±?6.75?min; p ?=?0.024) and moderate decrease in near-maximal activity (>95%?HR max ) (7.24?±?7.45 vs. 5.01?±?7.20?min) in the second half. Small increases in performance times accompanied by a significantly lower circuit decrement (11.67%?±?5.55% vs. 7.30%?±?2.16%; p ?=?0.032) were apparent in the second half. Conclusion These data indicate basketball activity imposes higher physiological demands than previously thought and temporal changes in responses might be due to adapted pacing strategies as well as fatigue-mediated mechanisms.