Predicting individual differences in motor learning: A critical review.

The ability to predict individual differences in motor learning has significant implications from both theoretical and applied perspectives. However, there is high variability in the methodological and analytical strategies employed as evidence for such predictions. Here, we critically examine the evidence for predictions of individual differences in motor learning by reviewing the literature from a 20-year period (2000-2020).

Lower Limb Force Asymmetries During Landing and Jumping Exercises: A Pilot Study.

Significant asymmetries can exist between the lower limbs' force production during the take-off phase of bilateral jumping exercises. Some studies have indicated that similar asymmetries can also exist during the landing phase. It has not been demonstrated if the magnitude of lower body asymmetry was similar between the landing (L) and take-off (TO) phases of bilateral jumping movements.

A biomechanical comparison of self-selected and experimentally controlled speeds and grip widths during the bench press exercise.

The purpose of this study was to compare one repetition maximum (1RM), a rating of discomfort, and myoelectric activity between self-selected and experimentally controlled speeds and grip widths during the bench press (BP). Four BP conditions used were self-selected speed and grip (SS), self-selected speed and experimentally controlled grip (SC), experimentally controlled speed and self-selected grip (CS), and experimentally controlled speed and grip (CC). Twenty male individuals completed 1RM measurements with each BP condition and then performed 16 BP trials (four trials per condition) for measuring myoelectric activity.