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A Anglin

Showing results (11-20 of 21) with videos related to

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International Journal of Molecular Sciences|November 27, 2024
Acute and Chronic Resistance Training, Acute Endurance Exercise, nor Physiologically Plausible Lactate In Vitro Affect Skeletal Muscle LactylationMadison L Mattingly, Derick A Anglin, Bradley A Ruple, et al.
Experimental Physiology|February 12, 2026
Skeletal muscle myosin heavy chain fragmentation following exercise may be linked to post-exercise inflammation and remodellingDakota R Tiede, Diego Bittencourt, J Max Michel, et al.
Journal of Applied Physiology (Bethesda, Md. : 1985)|June 6, 2025
Disuse and subsequent recovery resistance training affect skeletal muscle angiogenesis-related markers regardless of prior resistance training experienceMason C McIntosh, J Max Michel, Joshua S Godwin, et al.
Biorxiv : the Preprint Server for Biology|December 9, 2024
Leg immobilization and subsequent recovery resistance training affect skeletal muscle angiogenesis related markers in young healthy adults regardless of prior resistance training experienceMason C McIntosh, J Max Michel, Joshua S Godwin, et al.
Biorxiv : the Preprint Server for Biology|June 3, 2024
Skeletal muscle myosin heavy chain protein fragmentation as a potential marker of protein degradation in response to resistance training and disuse atrophyDaniel L Plotkin, Madison L Mattingly, Derick A Anglin, et al.
Frontiers in Physiology|October 16, 2023
Resistance training in humans and mechanical overload in rodents do not elevate muscle protein lactylationMadison L Mattingly, Bradley A Ruple, Casey L Sexton, et al.
Experimental Physiology|August 24, 2024
Skeletal muscle myosin heavy chain fragmentation as a potential marker of protein degradation in response to resistance training and disuse atrophyDaniel L Plotkin, Madison L Mattingly, Derick A Anglin, et al.
Journal of Applied Physiology (Bethesda, Md. : 1985)|January 17, 2025
Effects of leg immobilization and recovery resistance training on skeletal muscle-molecular markers in previously resistance-trained versus untrained adultsJ Max Michel, Joshua S Godwin, Daniel L Plotkin, et al.
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology|January 12, 2026
Limited effects of dietary nitrate supplementation with resistance training on skeletal muscle and vascular outcomes and in middle-aged and older adultsMason C McIntosh, Breanna J Mueller, Dakota R Tiede, et al.
Medrxiv : the Preprint Server for Health Sciences|March 24, 2021
Rapid implementation of a cohort for the study of post-acute sequelae of SARS-CoV-2 infection/COVID-19Michael J Peluso, J Daniel Kelly, Scott Lu, et al.
Pageof 3

Showing results (11-20 of 21) with videos related to

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Pageof 3
International Journal of Molecular Sciences|November 27, 2024
Acute and Chronic Resistance Training, Acute Endurance Exercise, nor Physiologically Plausible Lactate In Vitro Affect Skeletal Muscle LactylationMadison L Mattingly, Derick A Anglin, Bradley A Ruple, et al.
Experimental Physiology|February 12, 2026
Skeletal muscle myosin heavy chain fragmentation following exercise may be linked to post-exercise inflammation and remodellingDakota R Tiede, Diego Bittencourt, J Max Michel, et al.
Journal of Applied Physiology (Bethesda, Md. : 1985)|June 6, 2025
Disuse and subsequent recovery resistance training affect skeletal muscle angiogenesis-related markers regardless of prior resistance training experienceMason C McIntosh, J Max Michel, Joshua S Godwin, et al.
Biorxiv : the Preprint Server for Biology|December 9, 2024
Leg immobilization and subsequent recovery resistance training affect skeletal muscle angiogenesis related markers in young healthy adults regardless of prior resistance training experienceMason C McIntosh, J Max Michel, Joshua S Godwin, et al.
Biorxiv : the Preprint Server for Biology|June 3, 2024
Skeletal muscle myosin heavy chain protein fragmentation as a potential marker of protein degradation in response to resistance training and disuse atrophyDaniel L Plotkin, Madison L Mattingly, Derick A Anglin, et al.
Frontiers in Physiology|October 16, 2023
Resistance training in humans and mechanical overload in rodents do not elevate muscle protein lactylationMadison L Mattingly, Bradley A Ruple, Casey L Sexton, et al.
Experimental Physiology|August 24, 2024
Skeletal muscle myosin heavy chain fragmentation as a potential marker of protein degradation in response to resistance training and disuse atrophyDaniel L Plotkin, Madison L Mattingly, Derick A Anglin, et al.
Journal of Applied Physiology (Bethesda, Md. : 1985)|January 17, 2025
Effects of leg immobilization and recovery resistance training on skeletal muscle-molecular markers in previously resistance-trained versus untrained adultsJ Max Michel, Joshua S Godwin, Daniel L Plotkin, et al.
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology|January 12, 2026
Limited effects of dietary nitrate supplementation with resistance training on skeletal muscle and vascular outcomes and in middle-aged and older adultsMason C McIntosh, Breanna J Mueller, Dakota R Tiede, et al.
Medrxiv : the Preprint Server for Health Sciences|March 24, 2021
Rapid implementation of a cohort for the study of post-acute sequelae of SARS-CoV-2 infection/COVID-19Michael J Peluso, J Daniel Kelly, Scott Lu, et al.
Pageof 3