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210   $aBuenos Aires$cInstituto biologico de la sociedad rural Argentina$d1923
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200 00$aNanoparticle-Macrophage Interactions$eImplications for Nanosafety and Nanomedicine
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 online resource (208 p.)
311 08$a3-0365-4599-9 
330   $aNanoparticles (NPs) offer unique properties for biomedical applications, leading to new nanomedicines. Recent examples of advanced nanoparticle-based nanomedicines are COVID-19 RNA vaccines. Regardless of the delivery route of the NPs into the body (intravenous or subcutaneous injection, oral, intranasal, etc.), NPs inevitably come into contact with immune cells, such as macrophages. Macrophages are phagocytizing cells that determine the fate and the lifetime of NPs in relevant biological fluids or tissues, which has consequences for both nanosafety and nanomedicine. The aim of this Special Issue is to cover recent advancements in our understanding of NP-macrophage interactions, with a focus on in vitro models for nanosafety and novel nanomedicine approaches that allow the modulation of the immunological profile of macrophages. The current Special Issue compiles nine papers: seven research articles and two review articles. The original articles include studies on the interaction of different nanomaterials, such as multi-walled carbon nanotubes (MWCNTs), amorphous silica, gold nanoparticles, lipid carriers, and microspheres, with macrophages in different scenarios.
517   $aNanoparticle-Macrophage Interactions 
606   $aMedicine and Nursing$2bicssc
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610   $aCrohn's disease
610   $acytotoxicity
610   $adevice
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610   $agold nanoparticles
610   $aICP-MS analysis of cell bound SiO2
610   $aimmune system
610   $ain vitro models
610   $ain vitro testing
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610   $ainnate immunity
610   $ainnate memory
610   $amacrophage
610   $amacrophage-nanoparticle interaction
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610   $azebrafish
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