The purpose of the study was to analyse the changes in muscle strength, power, and somatic parameters in elite volleyball players after a specific pre-season training programme aimed at improving jumping and strength performance and injury prevention. Twelve junior female volleyball players participated in an 8-week training programme.
Anthropometric characteristics, isokinetic peak torque (PT) single-joint knee flexion (H) and extension (Q) at 60o/s and 180o/s, counter movement jump (CMJ), squat jump (SJ), and reactive strength index (RSI) were measured before and after intervention. Significant moderate effects were found in flexor concentric PT at 60o/s and at 180 o/s in the dominant leg (DL) (18.3+-15.1%, likely; 17.8+-11.2%, very likely) and in extensor concentric PT at 180o/s (7.4%+-7.8%, very likely) in the DL.
In the non-dominant leg (NL) significant moderate effects were found in flexor concentric PT at 60o/s and at 180o/s (13.7+-11.3%, likely; 13.4+-8.0%, very likely) and in extensor concentric PT at 180o/s (10.7+-11.5%, very likely). Small to moderate changes were observed for H/QCONV in the DL at 60o/s and 180o/s (15.9+-14.1%; 9.6+-10.4%, both likely) and in the NL at 60o/s (moderate change, 9.6+-11.8%, likely), and small to moderate decreases were detected for H/QFUNC at 180o/s, in both the DL and NL (-7.0+-8.3%, likely; -9.5+-10.0%, likely).
Training-induced changes in jumping performance were trivial (for RSI) to small (for CMJ and SJ). The applied pre-season training programme induced a number of positive changes in physical performance and risk of injury, despite a lack of changes in body mass and composition.