Browsing by Author "Smith, Ian Curtis"
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Item Open Access The effects of inorganic phosphate on contractile function of slow skeletal muscle fibres are length-dependent(Elsevier : Biochemical & Biophysical Research Communications, 2020-09-26) Smith, Ian Curtis; Collao, Nicolás; Herzog, WalterMuscle operates across a wide range of sarcomere lengths. Inorganic phosphate (Pi) diminishes force output of striated muscle, with greater influence at short relative to long sarcomere lengths in fast skeletal and cardiac muscle fibres. The purpose of this study was to fill a gap in the literature regarding the length-dependent effects of Pi on contractile function of slow skeletal muscle fibres. Permeabilized slow skeletal muscle fibres from rabbit soleus were assessed at average sarcomere lengths of 2.0, 2.4, or 2.8 μm, with and without 20 mM Pi added to activating solutions (22±1 °C). The magnitude of Pi-induced reductions in peak force (43 ± 7% at 2.0 μm, 38 ± 7% at 2.4 μm, and 31 ± 8% at 2.8 μm) and peak stiffness (41 ± 9% at 2.0 μm, 36 ± 8% at 2.4 μm, and 26 ± 9% at 2.8 μm) were length-dependent. Peak stiffness was less affected by Pi than peak force. Pi diminished the Ca2+-sensitivity of the force-pCa and stiffness-pCa relationships to a greater extent at 2.8 μm than 2.0 μm. Comparable results were obtained from a cooperative model of Ca2+ and myosin binding to regulated actin. In conclusion, Pi is more detrimental to the peak force output of slow skeletal muscle fibres held at short relative to long sarcomere lengths, whereas Pi has a greater effect on the Ca2+-sensitivity of force production at long relative to short sarcomere lengths. Stiffness data suggest that Pi-induced reductions in force are primarily due to fewer bound cross-bridges, with a lesser contribution attributable to lower average force per cross-bridge.Item Open Access Nonlocalized postactivation performance enhancement (PAPE) effects in trained athletes: a pilot study(Applied Physiology Nutrition and Metabolism, 2017-10) Cuenca-Fernández, Francisco; Smith, Ian Curtis; Jordan, Matthew J.; MacIntosh, Brian R.; López-Contreras, Gracia; Arellano, Raúl; Herzog, WalterFifteen trained athletes were assessed for postactivation performance enhancement (PAPE) of squat jumps (SJs) and power push-ups (PPUs) following upper body activation, lower body activation, upper and lower body activation, and rest. SJ improved similarly across all 4 conditions. PPU could not be assessed. Since the test protocol of SJ and PPU involved upper and lower body activation and caused PAPE in SJ, future work is required to determine if a nonlocalized PAPE effect exists.