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W3005457744 abstract "Optimal procedures for reliable anti-cancer treatments involve the systematic delivery of zinc oxide nanoparticles, which spread through the circulatory system. The success of these procedures may largely depend on the NPs’ ability of self-adapting their physicochemical properties to overcome the different challenges facing at each stage on its way to the interior of a cancerous cell. In this article, we combine a multiscale approach, a unique nanoparticle model, and available experimental data to characterize the behavior of zinc oxide nanoparticles under different vessels rheology, pH levels, and biological environments. We investigate their ability to prevent aggregation, allow prolonged circulation time in the bloodstream, avoid clearance, conduct themselves through the capillarity system to reach damaged tissues, and selectively approach to target cancerous cells. Our results show that non-functionalized spherical zinc oxide nanoparticles with surface density N = 5.89 × 10−6 mol/m2, protonation and deprotonation rates pKa = 10.9 and pKb = −5.5, and NP size in the range of 20–50 nm are the most effective, smart anti-cancer agents for biomedical treatments." @default.
W3005457744 created "2020-02-14" @default.
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W3005457744 creator A5068409544 @default.
W3005457744 date "2020-02-05" @default.
W3005457744 modified "2023-10-17" @default.
W3005457744 title "The Self-Adaptation Ability of Zinc Oxide Nanoparticles Enables Reliable Cancer Treatments" @default.
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W3005457744 doi "https://doi.org/10.3390/nano10020269" @default.
W3005457744 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7075113" @default.
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