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Progression of total training volume in resistance training studies and its application to skeletal muscle growth.

William B HammertRyo KataokaYujiro YamadaJun Seob SongAnna KangRobert W SpitzJeremy P Loenneke
Published in: Physiological measurement (2024)
Progressive overload describes the gradual increase of stress placed on the body during exercise training, and is often quantified (i.e., in resistance training studies) through increases in total training volume (i.e., sets x repetitions x load) from the first to final week of the exercise training intervention. Within the literature, it has become increasingly common for authors to discuss skeletal muscle growth adaptations in the context of increases in total training volume (i.e., the magnitude progression in total training volume). The present manuscript discusses a physiological rationale for progressive overload and then explains why, in our opinion, quantifying the progression of total training volume within research investigations tells very little about muscle growth adaptations to resistance training. Our opinion is based on the following research findings: (1) a noncausal connection between increases in total training volume (i.e., progressively overloading the resistance exercise stimulus) and increases in skeletal muscle size; (2) similar changes in total training volume may not always produce similar increases in muscle size; and (3) the ability to exercise more and consequently amass larger increases in total training volume may not inherently produce more skeletal muscle growth. The methodology of quantifying changes in total training volume may therefore provide a means through which researchers can mathematically determine the total amount of external "work" performed within a resistance training study. It may not, however, always explain muscle growth adaptations. &#xD.
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