Sentences with phrase «peak knee extensor»

Bryanton et al. (2012) reported that peak knee extensor moments did not increase with increasing relative load (data reported but not analysed directly), but Cotter et al. (2013) noted an increase with increasing load.

McLaughlin et al. (1978) similarly noted that peak knee extensor moments were smaller in individuals who displayed greater trunk lean and more acute hip angles, which is associated with this type of exercise cue.

Wretenberg et al. (1996) found that peak knee extensor moments were greater during both powerlifting squats and during Olympic weightlifting - style squats when performed with greater depth (deep = maximal knee flexion vs. parallel = posterior of the hamstrings parallel to the ground).

Similarly, Wallace et al. (2002) noted that peak knee extensor moment increased between squats with no load to squats with a barbell load equal to 35 % of bodyweight.

Exploring the effects of cues, Fry et al. (2003), Hirata and Duarte (2007) and Lorenzetti et al. (2010) all found that peak knee extensor moments were smaller when lifters were visibly or forcibly cued to prevent the knee from moving forward over the toes, compared to when they were allowed to lift normally.

Wretenberg et al. (1996) found that peak knee extensor moments were lower during powerlifting squats than during Olympic weightlifting - style squats, even though the powerlifting squats involved the use of greater absolute loads; Swinton et al. (2012) reported that peak knee extensor moments were greater in the box squat variation than in either the traditional or powerlifting squat variations, but there was no difference between traditional and powerlifting squats.

Exploring the effects of training variables, Bryanton et al. (2012) and Cotter et al. (2013) found that peak knee extensor moments increased with increasing depth (albeit with the same absolute loads).

Assessing the effects of cues, Fry et al. (2003) and Lorenzetti et al. (2010) found that peak hip extensor moments were greater when lifters were visibly or forcibly cued to prevent the knee from moving forward over the toes, compared to when they were allowed to lift normally but Hirata and Duarte (2007) found the opposite.

Bryanton et al. (2012) found that peak hip extensor moments increased with increasing depth (albeit with the same absolute loads) but Wretenberg et al. (1996) reported that peak hip extensor moments during both powerlifting squats and during Olympic weightlifting - style squats did not differ substantially between deep and parallel versions (deep = maximal knee flexion vs. parallel = posterior of the hamstrings parallel to the ground).