Purpose : This study explored the association between strength and power capacities and bat speed in female cricketers to inform strength and conditioning practices. Methods : Twenty-nine professional female cricketers volunteered for 3 testing sessions. Day 1: participant information, grip strength, medicine-ball push for maximum velocity, 10/5 Reactive Strength Index Hop Test. Day 2: isometric midthigh pull, vertical jump, 1-repetition-maximum (1RM) bench pull, and maximum-repetition body-weight push-up. Day 3: maximal bat speed for 4 cricket shots—cut (BS cut ), drive (BS drive ), pull (BS pull ), and slog (BS slog )—versus 3 delivery types (off-spin, medium, and fast). Statistical analysis ( α = .05) included Pearson r , multiple linear regression ( R -squared), and 1-way repeated-measures analysis of variance with Tukey HSD analysis. Results : Overall bat speed was associated with absolute 1RM bench pull ( r = .70, P < .0001), dominant medicine-ball push for maximum velocity ( r = .65, P < .0001), nondominant medicine-ball push for maximum velocity ( r = .60, P < .0001), and absolute isometric midthigh pull ( r = .47, P = .01). Physical capacities regression modeling explained 52.7% of variance in bat speed overall (adjusted R -squared = .5267, standard error of estimate = 2.40, P < .0001). BS cut was slower than all shots ( P < .0001). BS cut ( P < .0001), BS drive ( P < .0001), and BS pull ( P < .0001) were slower during fast versus off-spin deliveries. Conclusions : Absolute upper-body pulling strength, dominant rotational power, and absolute total-body isometric strength are critical qualities for power-hitting training in female cricketers. Practitioners may include these findings in their program design to better support female athletes.
Hardy et al. (Wed,) studied this question.