Nanoparticle Polydispersity Can Strongly Affect In Vitro Dose

In this communication, we present a streamlined, reproducible synthetic method for the production of size-tunable poly(methyl methacrylate) (PMMA) nanoparticles (PMMANPs) and amine-functionalized block-copolymer PMMANPs (H2N-PMMANPs) by varying subcritical concentrations (i.e., below the concentration required to form micelles at 1 atm and 20 °C) of sodium dodecyl sulfate (SDS). We plotted the Z-average size data against SDS concentration, which revealed a second-order exponential decay function, expressed as A 1 e − x t 1 + A 2 e − x t 2 + y 0 . The surfactant concentration (wt./wt.%) has been selected as independent variable x. This function is valid at least for the size range of 20 nm to 97 nm (PMMANPs) and 20 nm to 133 nm (H2N-PMMANPs).

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“…The low dispersity is beneficial for biological studies, where size dispersity affects the cytotoxicity of nanoparticle therapies [25][26][27].…”

Section: Resultsmentioning

confidence: 99%

Formula-Driven, Size-Tunable Synthesis of PMMA Nanoparticles by Varying Surfactant Concentration

et al. 2020

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“…They are very reactive or catalytic. High diffusion rate, enhanced chemical and biological activity associated with penetrating capabilities through cell membranes are characteristics of nanoparticles less than a few 10 nm in diameter and less owing to their large area to volume ratio (Guzman, Dille, & Godet, 2012;Marambio-Jones & Hoek, 2010;Park et al, 2011;Rodriguez-Lorenzo, Rothen-Rutishauser, Petri-Fink, & Balog, 2014). At present the total market for composites with nanoparticles is expected to grow.…”

Section: Introductionmentioning

confidence: 99%

Combination of thresholding and fitting methods for measuring nanoparticle sizes and size distributions in (S)TEM

Shvedchenko

Suvorova

2017

Microscopy Res & Technique

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The practical need for a simple and reliable tool for routine size analysis of nanoparticles with diameters down to a few nm embedded in a polymer matrix motivated the development of a new approach. The idea underlying the method proposed in this work is to combine intensity thresholding and contrast fitting procedures in the same software for particle recognition and measurements of sizes and size distributions of nanoparticles in transmission and scanning transmission electron microscopy images. Particle recognition in images is performed in an interactive process of manual setting the numerical threshold level after image preprocessing. We show that fitting the calculated gray level distribution to the real images is able to provide a maximum accuracy in measurements of the particle diameters in contrast to thresholding approaches. The fitting procedure is applied in the vicinity of nanoparticle images with the mass-thickness, diffraction, and chemical contrast. The grayscale function associated to the nanoparticle thickness is described using polynomial gt=g0+g1t+g2t2+g3t3… with degree ⩾ 2 and undetermined coefficients. The program for particle detection and size measurement-Analyzer of Nanoparticles (AnNa)-has been written and is described here. It was successfully tested on systems containing Ag nanoparticles grown and stabilized in aqueous solutions of different polymers for biomedical use and is available from the authors.

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“…Even at the early stage of any advanced models, the calculation of the proper dosing of the investigated nanomaterials is examined and potential scenarios have been outlined. The model has been extended by RodriguezLorenzo and colleagues, who included heterogeneity, including polydispersity both in size and mass density to study the influence of heterogeneity on the particokinetics of nanoparticles and on the corresponding delivered dose (79). Therefore it will be essential that at least a full set of dosing-relevant characteristics is given in a publication so that in the future a direct comparisons of results of the different approaches is feasible.…”

Section: Qualification Of Reliable and Accurate In Vitro Modelsmentioning

confidence: 99%

In vitro-ex vivo model systems for nanosafety assessment

Wick

Chortarea

Guénat³

et al. 2015

European Journal of Nanomedicine

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Engineered nanomaterials have unique and novel properties enabling wide-ranging new applications in nearly all fields of research. As these new properties have raised concerns about potential adverse effects for the environment and human health, extensive efforts are underway to define reliable, cost-and time-effective, as well as mechanistic-based testing strategies to replace the current method of animal testing, which is still the most prevalent model used for the risk assessment of chemicals. Current approaches for nanomaterials follow this line. The aim of this review is to explore and qualify the relevance of new in vitro and ex vivo models in (nano) material safety assessment, a crucial prerequisite for translation into applications.

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Nanoparticle Polydispersity Can Strongly Affect In Vitro Dose

Cited by 32 publications

References 93 publications

Formula-Driven, Size-Tunable Synthesis of PMMA Nanoparticles by Varying Surfactant Concentration

Formula-Driven, Size-Tunable Synthesis of PMMA Nanoparticles by Varying Surfactant Concentration

Combination of thresholding and fitting methods for measuring nanoparticle sizes and size distributions in (S)TEM

In vitro-ex vivo model systems for nanosafety assessment

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