https://sanghoon-yoon.netlify.app/projectcurrent/Project(current)sWowchemy (https://wowchemy.com)en-usFri, 20 Jan 2023 00:00:00 +0000https://sanghoon-yoon.netlify.app/media/icon_hua2ec155b4296a9c9791d015323e16eb5_11927_512x512_fill_lanczos_center_3.pnghttps://sanghoon-yoon.netlify.app/projectcurrent/https://sanghoon-yoon.netlify.app/projectcurrent/rse/Fri, 20 Jan 2023 00:00:00 +0000https://sanghoon-yoon.netlify.app/projectcurrent/rse/<p>Recent studies using animal models have revealed that muscle fatigue induced by potassium disturbances is exacerbated with lowered glycogen levels, i.e., potassium-glycogen interaction. It is likely that reduced muscle glycogen during exercise decrease the energy availability for Na+/K+-ATPase, exacerbating disturbances in potassium and muscle contractility. However, this interaction has only been studied in isolated muscle preparations. My PhD thesis aims to investigate the relationship between potassium/muscle excitability and glycogen in human exercise performance and whether this differs between females and males.</p>