Andrew C. Fry
University of Kansas
245 Papers
1K Citations
Andrew C. Fry is an academic researcher from University of Kansas. The author has contributed to research in topics: Medicine & Squat. The author has an hindex of 52, co-authored 213 publications. Previous affiliations of Andrew C. Fry include University of Oklahoma & Oral Roberts University.
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Papers
Influence of Resistance Training Volume and Periodization on Physiological and Performance Adaptations in Collegiate Women Tennis Players
William J. Kraemer,Nicholas A. Ratamess,Andrew C. Fry,Travis Triplett-McBride,L. Perry Koziris,Jeffrey A. Bauer,James M. Lynch,Steven J. Fleck +7 more
TL;DR: The data demonstrate that sport-specific resistance training using a periodized multiple-set training method is superior to low-volume single-set resistance exercise protocols in the development of physical abilities in competitive, collegiate women tennis players.
Sex‐related differences in motor unit behavior are influenced by myosin heavy chain during high‐ but not moderate‐intensity contractions
Alex A. Olmos,Adam J Sterczala,Mandy E. Parra,Hannah L. Dimmick,Jonathan M. Miller,Jake A. Deckert,Stephanie Sontag,Philip M. Gallagher,Andrew C. Fry,Trent J. Herda,Michael A. Trevino +10 more
TL;DR: Sex-related differences in motor unit behavior during high-intensity contractions are influenced by myosin heavy chain composition, with females exhibiting greater type I myosin heavy chain and faster firing rates, but not during moderate-intensity contractions.
Measurement of Resistance Exercise Force Expression
TL;DR: In this article, a linear position transducer (LPT) is attached to the barbell to measure displacement and a double differentiation technique is used to determine acceleration, and the LPT appears to be a valid method of assessing force under these experimental conditions.
High-power resistance exercise induces MAPK phosphorylation in weightlifting trained men.
Andrew J. Galpin,Andrew C. Fry,Loren Z.F. Chiu,Loren Z.F. Chiu,Donald B. Thomason,Brian K. Schilling +5 more
TL;DR: Data indicate MAPK pathways are activated early and remain elevated throughout the duration of high power resistance exercise, which helps describe the mechanisms partially responsible for chronic adaptations in response to high intensity, highPower resistance training in humans.
Skeletal muscle and hormonal adaptations to circuit weight training in untrained men.
TL;DR: The data indicate that for untrained subjects, CWT of the type used resulted in improved muscular strength and a tendency toward increased lean mass compared with other types of weight training, and fewer adaptations of the muscle fibers were evident.