Abstract
Before using nanoparticles for therapeutic applications, it is necessary to comprehensively investigate nanoparticle effects, both in vitro and in vivo. In the associated research article [1] we generate multimodal polymeric nanoparticles functionalized with an antibody, that are designed to deliver an anti-oxidant to astrocytes. Here we provide additional data demonstrating the effects of the nanoparticle preparations on an indicator of oxidative stress in an immortalized Müller cell line in vitro. We provide data demonstrating the use of nanoscale secondary ion mass spectroscopy (NanoSIMS) to identify specific ions in bulk dried NP. NanoSIMS is also used to visualize 40Ca microdomains in the z dimension of optic nerve that has been subjected to a partial optic nerve transection. The associated article [1] describes the use of NanoSIMS to quantify 40Ca microdomains in optic nerve from animals treated with various nanoparticle preparations and provides further interpretation and discussion of the findings.
Highlights
Before using nanoparticles for therapeutic applications, it is necessary to comprehensively investigate nanoparticle effects, both in vitro and in vivo
Lozić et al / Data in Brief 7 (2016) 152–156 animals treated with various nanoparticle preparations and provides further interpretation and discussion of the findings. & 2016 The Authors
Cells were incubated with H2O2 and various nanoparticle preparations prior to analysis of an oxidative stress indicator
Summary
Characterization of polymeric nanoparticles for treatment of partial injury to the central nervous system Ivan Lozić a,b, Richard V. In the associated research article [1] we generate multimodal polymeric nanoparticles functionalized with an antibody, that are designed to deliver an anti-oxidant to astrocytes. We provide additional data demonstrating the effects of the nanoparticle preparations on an indicator of oxidative stress in an immortalized Müller cell line in vitro. The associated article [1] describes the use of NanoSIMS to quantify 40Ca microdomains in optic nerve from. I. Lozić et al / Data in Brief 7 (2016) 152–156 animals treated with various nanoparticle preparations and provides further interpretation and discussion of the findings.
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