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Full-Text Articles in Physiology
Tutorial For Using Sliceomatic To Calculate Thigh Area And Composition From Computed Tomography Images From Older Adults, Richard A. Dennis, Douglas E. Long, Reid D. Landes, Kalpana P. Padala, Prasad R. Padala, Kimberly K. Garner, James N. Wise, Charlotte A. Peterson, Dennis H. Sullivan
Tutorial For Using Sliceomatic To Calculate Thigh Area And Composition From Computed Tomography Images From Older Adults, Richard A. Dennis, Douglas E. Long, Reid D. Landes, Kalpana P. Padala, Prasad R. Padala, Kimberly K. Garner, James N. Wise, Charlotte A. Peterson, Dennis H. Sullivan
Center for Muscle Biology Faculty Publications
Objective
Area of muscle, fat, and bone is often measured in thigh CT scans when tissue composition is a key outcome. SliceOmatic software is commonly referenced for such analysis but published methods may be insufficient for new users. Thus, a quick start guide to calculating thigh composition using SliceOmatic has been developed.
Methods
CT images of the thigh were collected from older (69 ± 4 yrs, N = 24) adults before and after 12-weeks of resistance training. SliceOmatic was used to segment images into seven density regions encompassing fat, muscle, and bone from -190 to +2000 Hounsfield Units [HU]. The …
Myonuclear Domain Flexibility Challenges Rigid Assumptions On Satellite Cell Contribution To Skeletal Muscle Fiber Hypertrophy, Kevin A. Murach, Davis A. Englund, Esther E. Dupont-Versteegden, John J. Mccarthy, Charlotte A. Peterson
Myonuclear Domain Flexibility Challenges Rigid Assumptions On Satellite Cell Contribution To Skeletal Muscle Fiber Hypertrophy, Kevin A. Murach, Davis A. Englund, Esther E. Dupont-Versteegden, John J. Mccarthy, Charlotte A. Peterson
Center for Muscle Biology Faculty Publications
Satellite cell-mediated myonuclear accretion is thought to be required for skeletal muscle fiber hypertrophy, and even drive hypertrophy by preceding growth. Recent studies in humans and rodents provide evidence that challenge this axiom. Specifically, Type 2 muscle fibers reliably demonstrate a substantial capacity to hypertrophy in the absence of myonuclear accretion, challenging the notion of a tightly regulated myonuclear domain (i.e., area that each myonucleus transcriptionally governs). In fact, a “myonuclear domain ceiling”, or upper limit of transcriptional output per nucleus to support hypertrophy, has yet to be identified. Satellite cells respond to muscle damage, and also play an important …