Quantitative Characterization of Gold Nanoparticles by Field-Flow Fractionation Coupled Online with Light Scattering Detection and Inductively Coupled Plasma Mass Spectrometry

Schmidt, Bjørn; Loeschner, Katrin; Hadrup, Niels; Mortensen, Alicja; Sloth, Jens Jørgen; Koch, Christian; Larsen, Erik Huusfeldt

doi:10.1021/ac102545e

Cited by 163 publications

(113 citation statements)

References 29 publications

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“…The small gold nanospheres had a very regular shape (Fig. 1), narrow size distribution (2r = 15.6 ± 1.6 nm), and narrow absorption peak (518 nm), while the gold nanoflowers were of irregular shape, larger size, and highly polydisperse (40-120 nm), with an absorption well extended into the NIR region [48,49]. Big regularly shaped gold nanospheres with a hydrodynamic diameter of 86 nm were employed to identify effects that are caused by large particle size.…”

Section: Characterization Of Gold Nanospheres and Gold Nanoflowersmentioning

confidence: 99%

Gold nanoparticles induce nuclear damage in breast cancer cells, which is further amplified by hyperthermia

Kodiha

Hutter

Boridy

et al. 2014

Cell. Mol. Life Sci.

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nanospheres, damaged the nucleus at normal growth temperature, several of these defects were further exacerbated by mild hyperthermia. Taken together, the toxicity of gold nanoparticles correlated with changes in nuclear organization and function. These results emphasize that the cell nucleus is a prominent target for gold nanoparticles of different morphologies. Moreover, we demonstrated that RNA synthesis in nucleoli provides quantitative information on nuclear damage and cancer cell survival.

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Section: Characterization Of Gold Nanospheres and Gold Nanoflowersmentioning

confidence: 99%

Gold nanoparticles induce nuclear damage in breast cancer cells, which is further amplified by hyperthermia

Kodiha

Hutter

Boridy

et al. 2014

Cell. Mol. Life Sci.

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“…Alternatively, AuNPs are easily visualized by TEM, and bright-field and dark-field microscopy without the need for a fluorophore, which enables quantitative characterization of the intracellular trafficking steps, and allows for a more thorough understanding of this process [163,174,180].…”

Section: Systemic Administrationmentioning

confidence: 99%

Biomimetic gold nanocomplexes for gene knockdown: Will gold deliver dividends for small interfering RNA nanomedicines?

et al. 2015

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KEYWORDS siRNA delivery, RNA interference (RNAi)-based therapeutics, multifunctional nanoparticles, nanotoxicity of gold nanoparticles ABSTRACT RNA interference (RNAi) effectors such as small interfering RNA (siRNA) and micro RNA (miRNA) can selectively downregulate any gene implicated in the pathology of a disease. Therefore, RNAi-based therapies have immense potential for the treatment of a wide range of diseases. However, pharmacokinetic and pharmacodynamic studies have revealed that these therapeutic agents have poor bioactivity due to a number of factors, including insufficient plasma drug levels, short plasma half-lives, renal clearance, and hepatic metabolism. Non-viral delivery may facilitate the clinical application of siRNA-based therapeutics by helping to overcome these barriers. Recently, the potential of gold nanoparticles (AuNPs) as multifunctional carriers for transporting drugs, proteins, and genetic materials has been demonstrated. In this review, some of the key properties of AuNPs relevant to siRNA delivery, such as physical properties and surface chemistry have been described. In addition, the ability of AuNP-based formulation strategies to successfully overcome delivery barriers associated with siRNA, and the potential for this material to translate into safe and effective nanomedicines are critically discussed.

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“…The results demonstrated that nanoparticulates at 50-800 nm radius indeed migrate from the nanocomposite but ICP-MS signals corresponding to clay minerals were absent. In a further study, (102) the analytical platform was applied to characterization of Au nanoparticles in the livers of rats, which were dosed with 10 nm, 60 nm, or a mixture of 10 and 60 nm nanoparticles by intravenous injection. The homogenized livers were solubilized in tetramethylammonium hydroxide, and the recovery of Au nanoparticles from the livers amounted to 86-123 % of their total Au content.…”

Section: Spectroscopic Spectrometry Chromatography and Other Technmentioning

confidence: 99%

Nanoparticles in Foods, Determination of

Blasco

Picó

2013

Encyclopedia of Analytical Chemistry

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This article discusses the state of the art in the identification and determination of nanoparticles in food. It is of utmost importance to determine, in addition to the particle‐size distribution, the chemical composition as well as the physical and chemical properties of the nanomaterials within the sample. After a brief description of what nanomaterials are and how to classify them, sources and routes of nanomaterials to food are discussed. The article then follows the debate on legislative consideration, which has emerged very recently. Its main aim is to deliver information on how nanomaterials are determined in food because of the number of challenges that arise when analyzing food and beverages for nanomaterials. No single technique can provide all relevant information. Therefore, a range of analytical techniques is required for detection and characterization of nanomaterials in foods. The principles of the techniques together with their advantages and drawbacks, and reported applications concerning nanoparticles or related nanocompounds are discussed.

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Quantitative Characterization of Gold Nanoparticles by Field-Flow Fractionation Coupled Online with Light Scattering Detection and Inductively Coupled Plasma Mass Spectrometry

Cited by 163 publications

References 29 publications

Gold nanoparticles induce nuclear damage in breast cancer cells, which is further amplified by hyperthermia

Gold nanoparticles induce nuclear damage in breast cancer cells, which is further amplified by hyperthermia

Biomimetic gold nanocomplexes for gene knockdown: Will gold deliver dividends for small interfering RNA nanomedicines?

Nanoparticles in Foods, Determination of

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