Journal of strength and conditioning research
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J Strength Cond Res · May 2009
Randomized Controlled Trial Comparative StudyComparison of two lower-body modes of endurance training on lower-body strength development while concurrently training.
The most recent American College of Sports Medicine (1998) recommendations for quantity and quality of exercise includes both resistance and endurance exercise components. Skeletal muscle adaptations to resistance-only and endurance-only programs may be different and possibly antagonistic when both types of training are imposed concurrently. The present study examined the effect of two different modes of lower-body endurance exercise (i.e., cycle ergometry and incline treadmill walking) on lower-body strength development with concurrent resistance training designed to improve lower-body strength (i.e., bilateral leg press 1 repetition maximum [RM]). ⋯ The findings confirm previous studies that reported attenuated strength development with concurrent resistance and endurance training compared with resistance-only training. More importantly, this study indicates that the mode of endurance exercise in concurrent training regimens may play a role in the development of strength. Specifically, it seems that cycling is superior to treadmill endurance training for an individual with the goal of developing strength in a multijoint movement (i.e., leg press or squat) in the lower-body because it more closely mimics the biomechanical movement of these exercises.
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J Strength Cond Res · May 2009
Alterations in pain perception after resistance exercise performed in the morning and evening.
The purpose of the present study was to examine whether changes in experimentally induced pain perception after acute resistance exercise (RE) are influenced by the time of day that RE is performed. Twenty-one recreationally trained (>1 year of regular recreational RE participation) young men (mean age = 21 years) completed 2 acute RE sessions at different times of day. One RE session was performed between 6:00 and 8:00 in the morning, and the other was performed between 6:00 and 8:00 in the evening. ⋯ The results revealed that, irrespective of the time of day RE was performed, pain threshold increased significantly (p < 0.01) at 1 minute after exercise. Pain ratings were also found to be significantly (p < 0.01) lower at 1 minute after RE in both the morning and evening. It is concluded that acute RE results in alterations in the perception of experimentally induced pressure pain and that this hypoalgesic response is not influenced by the time of day that RE is performed.