Reproducible Comet Assay of Amorphous Silica Nanoparticles Detects No Genotoxicity

Barnes, Clifford A.; Elsaesser, Andreas; Arkusz, Joanna; Smok, Anna; Palus, Jadwiga; Leśniak, Anna; Salvati, Anna; Hanrahan, John P.; Jong, Wirn H. de; Dziubałtowska, Elżbieta; Stępnik, Maciej; Rydzyński, K; McKerr, George; Lynch, Iseult; Dawson, Kenneth A.; Howard, C. Vyvyan

doi:10.1021/nl801661w

Cited by 203 publications

(127 citation statements)

References 16 publications

(34 reference statements)

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“…These generally low responses have been shown to be in accordance with other ecotoxicity studies using engineered amorphous silica NPs, where little or no toxicity was observed in the tests employed (Barnes et al 2008;Shapero et al 2011;Van Hoecke et al 2008). Thus, the lack of toxicity observed to date with amorphous silica NPs, suggests that, in the different standard toxicity methods, this could generally be used as a good negative NP control, except in the case of the cytotoxicity assays which themselves are shown not to be suitable to NP testing.…”

Section: Ecotoxicitysupporting

confidence: 89%

Section: > D Magna > T Platyurus > V Fischerimentioning

confidence: 99%

“…Such a response may be expected as amorphous silica NPs are known for their low toxicity (Barnes et al 2008;Rabolli et al 2010), indicating their suitability as a good negative control for NP exposure. In the case of the cytotoxicity testing, both assays indicate a low dose and exposure time dependent response as shown in Figure 3, a slightly larger effect being observed for the 50 nm than the 100 nm silica NPs in both assays.…”

Section: Ecotoxicitymentioning

confidence: 99%

“…Amorphous silica particles, in comparison, are considered to be relatively harmless and are therefore being produced in large quantities for a large number of applications, especially in biomedical applications and the food sector 5 (Wang et al 2006). Thus, particular concern arises about their possible toxicity and a number of studies have already shown both non toxic (Barnes et al 2008) and toxic effects with amorphous silica NPs (Van Hoecke et al 2008), and specifically in the form of pulmonary inflammation upon inhalation (Rosenbruch 1992).Synthesized from organic polymers, with the possibility to produce them in different sizes, surface charge, composition and morphology, polymeric NPs can be obtained with very different functional properties that makes them a perfect product for a wide range of applications (Nowack and Bucheli 2007). Depending on the polymer type, they can potentially be used in a range of applications, the main one being in the medical sector for drug delivery (Chan et al 2010).…”

mentioning

confidence: 99%

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Ecotoxicological assessment of silica and polystyrene nanoparticles assessed by a multitrophic test battery

Casado¹,

Macken

Byrne³

2013

Environment International

191

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Abstract.The acute ecotoxicity of different diameters of silica and polyethyleneimine polystyrene (PS-PEI) nanoparticles (NPs) was assessed on a test battery of aquatic organisms representing different trophic levels. Daphnia magna, Thamnocephalus platyurus, Pseudokirchneriella subcapitata and Vibrio fischeri, were employed in a series of standard acute ecotoxicity tests and work was complemented with two cytotoxicological end points on a rainbow trout gonadal cell line (RTG-2). Physico-chemical characterization of the NPs was performed in the different test media employed, using dynamic light scattering (DLS) and zeta potentiometry. In contrast to silica NPs exposure, for which no effect was observed for concentrations up to 1000 µg ml -1 for all in vivo aquatic organisms tested, significant toxicity was detected after exposure to PS-PEI NPs at concentrations from 0.40 µg ml -1 to 416.5 µg ml -1.Differing sensitivities for each NP diameter for the different organisms was observed as: P. subcapitata > D. magna > T. platyurus > V. fischeri.The effects observed were dependent in some cases on the NP size, a higher effect being observed for the larger NPs. Finally, cytotoxicity studies showed an effect at the highest concentrations for both sets of NPs which was greater in the case of the PS-PEI NPs.However, as agglomeration and sedimentation of the nanoparticles was observed at these concentrations, the cytotoxicity studies were found not to be a reliable ecotoxicity test model.Keywords: Nanopolystyrene; Silica Nanoparticles; Ecotoxicity; Cytotoxicity.3 1 Introduction.The development of materials and products at the nanoscale has become a major investment area on a global level. Nanotechnology is largely based on these materials, generally defined as nanomaterials (NMs), which, for regulatory purposes, have been recently defined by the European Commission (EC) as any natural, incidental, or manufactured particulate material which is in the unbounded, aggregated or agglomerated form and with at least a 50 % of the particles in the number size distribution that has at least one dimension in the size between 1 and 100 nanometers (nm) (EC 2011). NPs fall within this definition, but to be more specific, NPs are defined as particulate materials with three dimensions of the order of 100 nm or less (Loevestam et al. 2010).NMs often exhibit enhanced or different properties when compared with the bulk material due to their extremely small size, consequent high specific surface area, surface energy and other factors such as larger proportions of under co-ordinated bonds and spatially constrained electronic wavefunctions (Lead and Wilkinson 2006). Certain NMs can offer, amongst others, distinct optical, electrical and magnetic properties, rendering them of great potential in a very wide range of fields and applications (Rao and Cheetham 2001). These, and other properties, make NMs very useful in technology and their use is rapidly increasing due to their applications in areas such as textiles, electronics, pharmaceutics, co...

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Section: Ecotoxicitysupporting

confidence: 89%

Section: > D Magna > T Platyurus > V Fischerimentioning

confidence: 99%

Section: Ecotoxicitymentioning

confidence: 99%

mentioning

confidence: 99%

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Ecotoxicological assessment of silica and polystyrene nanoparticles assessed by a multitrophic test battery

Casado¹,

Macken

Byrne³

2013

Environment International

191

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“…Due to the small size of nanoparticles, they can easily pass through the biological barriers and membranes and can cause toxicity at various sites in the body, i.e. genotoxicity, carcinogenic potential and oxidative stress in organelles, mitochondrial stress and cell-wall disruption [105][106][107]. Therefore, the safety and the possible impact of these nanomaterials should not only be considered for the affected population, but should also cover the entire manufacturing and disposal processes [102].…”

Section: Challengesmentioning

confidence: 99%

Nanotechnology towards prevention of anaemia and osteoporosis: from concept to market

Shukla

Dasgupta

Ranjan

et al. 2017

Biotechnology & Biotechnological Equipment

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The application of nanotechnology in medicine, diagnostics, therapeutics, drug delivery, etc. in order to overcome the limitations faced by these fields has already been established. Anaemia and osteoporosis are two of the most widely prevalent iron and calcium deficiency diseases among women. Conventional drugs for both have their inherent limitations which can be overcome by nanotechnology. Nanonization of drugs has been established as a very efficient way to enhance the bioavailability and absorption of the drug in the gastrointestinal tract. In addition to this, encapsulation of drugs in solid lipid nanoparticles is also employed to increase the stability of the drug in the gastrointestinal tract and to facilitate its controlled release. Nanotechnology is also applied in bone tissue engineering to prepare bone grafts for bone injury. Nanotechnology-based bone grafts have shown to possess enhanced mechanical properties and better biocompatibility and osteoconduction than the conventional bone grafts. This review article highlights the research trends and challenges of nanotechnology based drugs to combat iron deficiency anaemia and osteoporosis. This review outlines the recent research trends in nano-drugs and touches on issues concerning the market, industries and patents pertaining to drugs for anaemia and osteoporosis. To provide the safety and risk factors of nanomaterials, we have briefly highlighted the toxicological aspects of nanomaterials used in drugs.

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Health Effects of Nanoparticles

Baeza‐Squiban

Boland

Hussain

et al. 2009

General, Applied and Systems Toxicology

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Increasing utilizations of nanomaterials in the industrial as well as consumer products augment the possibilities of environmental and occupational human exposures. Because of this fact, nanoparticles (NPs) have become potential candidates for the risk assessment. Among the possible exposure routes, inhalation represents the most important route of non‐intentional exposure to NPs. There are increasing evidences that NPs exhibit ability to cross biological barriers getting access to the bloodstream and secondary target organs where they could accumulate and induce pathological consequences. The surface area and reactivity of particles increase many fold relative to particle mass as particle size is reduced. Together with chemical composition, they constitute important determinants of NPs toxicity. They contribute in the production of reactive oxygen species (ROS) leading to the toxicological outcomes induced by NPs. In this study, we present a systemic overview of the current knowledge on the exposure, secondary organ translocation and potential health effects of the NPs. Moreover, potential mechanisms of NP‐induced cellular effects and role of physico‐chemical characteristics are elaborated. The potentially deleterious effects of NPs require further studies in order to build on our mechanistic understanding of the toxicological events in which they can be implicated.

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Reproducible Comet Assay of Amorphous Silica Nanoparticles Detects No Genotoxicity

Cited by 203 publications

References 16 publications

Ecotoxicological assessment of silica and polystyrene nanoparticles assessed by a multitrophic test battery

Ecotoxicological assessment of silica and polystyrene nanoparticles assessed by a multitrophic test battery

Nanotechnology towards prevention of anaemia and osteoporosis: from concept to market

Health Effects of Nanoparticles

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