Browsing by Author "Schoenfeld, Brad J"

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    A Critical Evaluation of the Biological Construct Skeletal Muscle Hypertrophy: Size Matters but So Does the Measurement
    (Frontiers in Physiology) Haun, Cody T; Vann, Christopher G; Roberts, Brandon M; Vigotsky, Andrew D; Schoenfeld, Brad J; Roberts, Michael D
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    Beyond Mechanical Tension: A Review of Resistance Exercise-Induced Lactate Responses & Muscle Hypertrophy
    (Journal of Functional Morphology and Kinesiology) Lawson, Daniel; Vann, Christopher; Schoenfeld, Brad J; Haun, Cody
    The present review aims to explore and discuss recent research relating to the lactate response to resistance training and the potential mechanisms by which lactate may contribute to skeletal muscle hypertrophy or help to prevent muscle atrophy. First, we will discuss foundational information pertaining to lactate including metabolism, measurement, shuttling, and potential (although seemingly elusive) mechanisms for hypertrophy. We will then provide a brief analysis of resistance training protocols and the associated lactate response. Lastly, we will discuss potential shortcomings, resistance training considerations, and future research directions regarding lactate’s role as a potential anabolic agent for skeletal muscle hypertrophy.
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    Synergist ablation-induced hypertrophy occurs more rapidly in the plantaris than soleus muscle in rats due to different molecular mechanisms
    (American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 2020-02-01) Roberts, Michael D; Mobley, Christopher B; Vann, Christopher G; Haun, Cody T; Schoenfeld, Brad J; Young, Kaelin C; Kavazis, Andreas N
    We examined molecular mechanisms that were altered during rapid soleus (type I fiber-dominant) and plantaris (type II fiber-dominant) hypertrophy in rats. Twelve Wistar rats (3.5 mo old; 6 female, 6 male) were subjected to surgical right-leg soleus and plantaris dual overload [synergist ablation (SA)], and sham surgeries were performed on left legs (CTL). At 14 days after surgery, the muscles were dissected. Plantaris mass was 27% greater in the SA than CTL leg ( P < 0.001), soleus mass was 13% greater in the SA than CTL leg ( P < 0.001), and plantaris mass was higher than soleus mass in the SA leg ( P = 0.001). Plantaris total RNA concentrations and estimated total RNA levels (suggestive of ribosome density) were 19% and 47% greater in the SA than CTL leg ( P < 0.05), protein synthesis levels were 64% greater in the SA than CTL leg ( P = 0.038), and satellite cell number per fiber was 60% greater in the SA than CTL leg ( P = 0.003); no differences in these metrics were observed between soleus SA and CTL legs. Plantaris, as well as soleus, 20S proteasome activity was lower in the SA than CTL leg ( P < 0.05), although the degree of downregulation was greater in the plantaris than soleus muscle (−63% vs. −20%, P = 0.001). These data suggest that early-phase plantaris hypertrophy occurs more rapidly than soleus hypertrophy, which coincided with greater increases in ribosome biogenesis, protein synthesis, and satellite cell density, as well as greater decrements in 20S proteasome activity, in the plantaris muscle.