Aim: A large fraction of the administered dose of nanoparticles (NPs) localizes into nontarget tissue, which could be due to the heterogeneous population of NPs.
Materials & Methods: To investigate the impact of the above issue, we simultaneously tracked the biodistribution using optical imaging of two different sized poly(d,l-lactide co-glycolide) NPs, which also varied in their surface charge and texture, in a prostate tumor xenograft mouse model.
Results: Although formulated using the same polymer and emulsifier concentration, small NPs were neutral (S-neutral-NPs), whereas large NPs were anionic (L-anionic-NPs). Simultaneous injection of these NPs, representing heterogeneity, shows significantly different biodistribution. S-neutral-NPs demonstrated longer circulation time than L-anionic-NPs (t1/2 = 96 vs 13 min); accounted for 75% of total NPs accumulated in the tumor; and showed 13-fold greater tumor to liver signal intensity ratio than L-anionic-NPs.
Conclusion: The data underscore the importance of formulating nanocarriers of specific properties to enhance their targeting efficacy.
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| http://dx.doi.org/10.2217/nnm.13.70 | DOI Listing |
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