https://www.selleckchem.com/products/protac-tubulin-degrader-1.html 05) than in controls, whereas no differences were observed for hand grip strength. A positive relation was found between hand grip strength and whole-body and upper limbs PhA in all subjects, resulting stronger in volleyball players (r=0.696, P=0.012 and r=0.821, P=0.001, respectively). Conclusions The data confirmed that body composition differed between volleyball players and non-athletic subjects. In addition, a strong correlation between PhA and hand grip strength in both volleyball players and in controls was found. However, further evaluations are needed to investigate the use of hand grip strength in sport performance.Background The aim of this study was to evaluate the effect of 12 weeks of use of orthopedic insoles equipped with a metatarsal retro-capital bar (MRCB) on plantar pressure under the feet and lower limb kinematic variables during running. Methods Two groups of 10 runners used for 12 weeks while running orthopedic insoles without correction or equipped with a MRCB. All participants performed successively a standing posture (CoP displacement) test and a running test at 11 km.h-1 (lower limb kinematic variables) using with flat insoles and orthopedic neutral or MRCB insoles at the beginning (T0), after 4 (T4) and 12 weeks (T12) of use. Results For the MRCB group, CoP moved backwards while forefoot plantar pressure was decreased during standing position at T4 and T12 compared to T0. During running, the plantar pressure under the 2nd, 3rd and 4th metatarsal heads was reduced with MRCB at T0, T4 and T12. The one under the 1st metatarsal head was decreased at T4 and T12, when MRCB or flat insoles were used. The maximal extension and the total amplitude of ankle were slightly increased at T4 and T12 with or without wearing MRCB insoles. Similar changes in knee joint kinematics were observed but only at T12. Any significant changes were found in runners that used orthopedic insoles witho