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E Hibbert

Showing results (41-50 of 49) with videos related to

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Science Advances|February 13, 2026
Mechanical loading induces the longitudinal growth of muscle fibers via a rapamycin-insensitive mechanismJamie E Hibbert, Kent W Jorgenson, Ramy K A Sayed, et al.
Biorxiv : the Preprint Server for Biology|September 25, 2023
A Novel Imaging Method (FIM-ID) Reveals that Myofibrillogenesis Plays a Major Role in the Mechanically Induced Growth of Skeletal MuscleKent W Jorgenson, Jamie E Hibbert, Ramy K A Sayed, et al.
Elife|March 11, 2024
A novel imaging method (FIM-ID) reveals that myofibrillogenesis plays a major role in the mechanically induced growth of skeletal muscleKent W Jorgenson, Jamie E Hibbert, Ramy K A Sayed, et al.
International Journal of Technology Assessment in Health Care|April 16, 2009
The Alberta Hip and Knee Replacement Project: a model for health technology assessment based on comparative effectiveness of clinical pathwaysKatherine L Gooch, Douglas Smith, Tracy Wasylak, et al.
Biorxiv : the Preprint Server for Biology|June 5, 2026
High-purity stem cell-derived β-cells recapitulate key transcriptional and functional features of human isletsRémi B Fiancette, Junyue Huang, Christine Stephens, et al.
EMBO Reports|August 14, 2024
Satellite cell-derived TRIM28 is pivotal for mechanical load- and injury-induced myogenesisKuan-Hung Lin, Jamie E Hibbert, Corey Gk Flynn, et al.
Research Square|November 28, 2024
Identification of a Resistance Exercise-Specific Signaling Pathway that Drives Skeletal Muscle GrowthWenyuan G Zhu, Aaron Cq Thomas, Gary M Wilson, et al.
Biorxiv : the Preprint Server for Biology|February 27, 2026
Macroscopic to Ultrastructural Analyses Identify the Loss of Myofibrils as the Primary Mediator of Muscle Fiber Atrophy in Aging and DisuseRamy K A Sayed, Anthony N Lange, Hector G Paez, et al.
Nature Metabolism|May 15, 2025
Identification of a resistance-exercise-specific signalling pathway that drives skeletal muscle growthWenyuan G Zhu, Aaron C Q Thomas, Gary M Wilson, et al.
Pageof 5

Showing results (41-50 of 49) with videos related to

Sort By:
Pageof 5
You have reached the last page of results.This site can display upto 49 results.
Science Advances|February 13, 2026
Mechanical loading induces the longitudinal growth of muscle fibers via a rapamycin-insensitive mechanismJamie E Hibbert, Kent W Jorgenson, Ramy K A Sayed, et al.
Biorxiv : the Preprint Server for Biology|September 25, 2023
A Novel Imaging Method (FIM-ID) Reveals that Myofibrillogenesis Plays a Major Role in the Mechanically Induced Growth of Skeletal MuscleKent W Jorgenson, Jamie E Hibbert, Ramy K A Sayed, et al.
Elife|March 11, 2024
A novel imaging method (FIM-ID) reveals that myofibrillogenesis plays a major role in the mechanically induced growth of skeletal muscleKent W Jorgenson, Jamie E Hibbert, Ramy K A Sayed, et al.
International Journal of Technology Assessment in Health Care|April 16, 2009
The Alberta Hip and Knee Replacement Project: a model for health technology assessment based on comparative effectiveness of clinical pathwaysKatherine L Gooch, Douglas Smith, Tracy Wasylak, et al.
Biorxiv : the Preprint Server for Biology|June 5, 2026
High-purity stem cell-derived β-cells recapitulate key transcriptional and functional features of human isletsRémi B Fiancette, Junyue Huang, Christine Stephens, et al.
EMBO Reports|August 14, 2024
Satellite cell-derived TRIM28 is pivotal for mechanical load- and injury-induced myogenesisKuan-Hung Lin, Jamie E Hibbert, Corey Gk Flynn, et al.
Research Square|November 28, 2024
Identification of a Resistance Exercise-Specific Signaling Pathway that Drives Skeletal Muscle GrowthWenyuan G Zhu, Aaron Cq Thomas, Gary M Wilson, et al.
Biorxiv : the Preprint Server for Biology|February 27, 2026
Macroscopic to Ultrastructural Analyses Identify the Loss of Myofibrils as the Primary Mediator of Muscle Fiber Atrophy in Aging and DisuseRamy K A Sayed, Anthony N Lange, Hector G Paez, et al.
Nature Metabolism|May 15, 2025
Identification of a resistance-exercise-specific signalling pathway that drives skeletal muscle growthWenyuan G Zhu, Aaron C Q Thomas, Gary M Wilson, et al.
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