On the other hand, many studies have reported velocity - specific strength gains after
isokinetic strength training at different speeds, where the intent was maximal in all groups (Moffroid & Whipple, 1970; Caiozzo et al. 1981; Coyle et al. 1981; Jenkins et al. 1984; Garnica, 1986; Thomeé et al. 1987; Petersen et al. 1989; Bell et al. 1989; Ewing Jr et al. 1990), and also after constant load strength training at different speeds, where intent was maximal in all groups (Kaneko et al. 1983; Aaagaard et al. 1994; 1996; Moss et al. 1997; Ingebrigtsen et al. 2009).
In addition to cardiovascular training, which builds endurance, strength training is essential in preseason to regaining eccentric force, power, and
isokinetic strength.
Not exact matches
Many studies have shown that high velocity
isokinetic training leads to greater gains in
strength when tested at high
isokinetic velocities (Moffroid & Whipple, 1970; Caiozzo et al. 1981; Coyle et al. 1981; Jenkins et al. 1984; Garnica, 1986; Thomeé et al. 1987; Petersen et al. 1989; Bell et al. 1989; Ewing Jr et al. 1990), although this is not always true (Farthing & Chilibeck, 2003).
Most investigations have reported that long - term periods of Olympic weightlifting lead to increases in lower body
strength, which are most commonly measured by reference to the 1RM back squat (Hoffman et al. 2004; Tricoli et al. 2005) but also isometric force production (Häkkinen et al. 1988; Haff et al. 2008) and
isokinetic torque (Chaouachi et al. 2014).
The elite Olympic weightlifters did display a greater
isokinetic concentric knee flexion torque but the extent to which hamstring
strength is relevant to Olympic weightlifting is unclear.
There is good evidence that high velocity
isokinetic training leads to greater gains in
strength when tested at high
isokinetic velocities, and there is weaker evidence that the same effect occurs after constant load training.
There is good evidence that high velocity
isokinetic training leads to greater gains in
strength when tested at high
isokinetic velocities (Moffroid & Whipple, 1970; Caiozzo et al. 1981; Coyle et al. 1981; Jenkins et al. 1984; Garnica, 1986; Thomeé et al. 1987; Petersen et al. 1989; Bell et al. 1989; Ewing Jr et al. 1990), but it does not always happen (Farthing & Chilibeck, 2003).
Testing
strength when muscles are changing length (such as during
isokinetic dynamometry or during a conventional barbell lift) must necessarily involve a reduction in maximal force - generating capacity as a result of both of these relationships.
The hamstrings and quadriceps
strength was measured immediately after measurements of range of motion (ROM) and massage with Cybex - II
isokinetic dynamometer equipped with an x-y pen recorder.