https://www.selleckchem.com/products/tvb-3166.html
Under H2O2 exposure, the viability, neurite length, and neurite branch points of hiPSC-Neurons from AD patients reduced more significantly accompanied by more ROS release. H2O2 exposure caused hiPSC-MGLs from AD patients to release more ROS, cytokines, and stronger phagocytosis. Nevertheless, H2O2 exposure had no effect on viability of hiPSC-NSCs. Our results showed hiPSC-Neurons and hiPSC-MGLs were more sensitive to H2O2 than hiPSC-NSCs, which indicated the different response styles of hiPSC-NSCs, hiPSC-Neurons, and hiPSC-MGLs to oxid
Like
Comment
Share
