In the present study, we addressed the knowledge gaps regarding the agglomeration behavior and fate of food-grade titanium dioxide (E 171) in human gastrointestinal digestion (GID). After thorough multi-technique physicochemical characterization including TEM, single-particle ICP-MS (spICP-MS), CLS, VSSA determination and ELS, the GI fate of E 171 was studied by applying the in vitro GID approach established for the regulatory risk assessment of nanomaterials in Europe, using a standardized international protocol. GI fate was investigated in fasted conditions, relevant to E 171 use in food supplements and medicines, and in fed conditions, with both a model food and E 171-containing food samples. TiO2 constituent particles were resistant to GI dissolution, and thus, their stability in lysosomal fluid was investigated. The biopersistence of the material in lysosomal fluid highlighted its potential for bioaccumulation. For characterizing the agglomeration degree in the small intestinal phase, spICP-MS represented an ideal analytical tool to overcome the limitations of earlier studies. We demonstrated that, after simulated GID, in the small intestine, E 171 (at concentrations reflecting human exposure) is present with a dispersion degree similar to that obtained when dispersing the material in water by means of high-energy sonication (i.e., >70% of particles <250 nm).

Agglomeration Behavior and Fate of Food-Grade Titanium Dioxide in Human Gastrointestinal Digestion and in the Lysosomal Environment / Ferraris, Francesca; Raggi, Andrea; Ponti, Jessica; Mehn, Dora; Gilliland, Douglas; Savini, Sara; Iacoponi, Francesca; Aureli, Federica; Calzolai, Luigi; Cubadda, Francesco. - In: NANOMATERIALS. - ISSN 2079-4991. - 13:13(2023), pp. 1-18. [10.3390/nano13131908]

Agglomeration Behavior and Fate of Food-Grade Titanium Dioxide in Human Gastrointestinal Digestion and in the Lysosomal Environment

Francesca Ferraris;Francesco Cubadda
2023

Abstract

In the present study, we addressed the knowledge gaps regarding the agglomeration behavior and fate of food-grade titanium dioxide (E 171) in human gastrointestinal digestion (GID). After thorough multi-technique physicochemical characterization including TEM, single-particle ICP-MS (spICP-MS), CLS, VSSA determination and ELS, the GI fate of E 171 was studied by applying the in vitro GID approach established for the regulatory risk assessment of nanomaterials in Europe, using a standardized international protocol. GI fate was investigated in fasted conditions, relevant to E 171 use in food supplements and medicines, and in fed conditions, with both a model food and E 171-containing food samples. TiO2 constituent particles were resistant to GI dissolution, and thus, their stability in lysosomal fluid was investigated. The biopersistence of the material in lysosomal fluid highlighted its potential for bioaccumulation. For characterizing the agglomeration degree in the small intestinal phase, spICP-MS represented an ideal analytical tool to overcome the limitations of earlier studies. We demonstrated that, after simulated GID, in the small intestine, E 171 (at concentrations reflecting human exposure) is present with a dispersion degree similar to that obtained when dispersing the material in water by means of high-energy sonication (i.e., >70% of particles <250 nm).
2023
titanium dioxide; E 171; fate; human gastrointestinal digestion; lysosomes; particle agglomeration; physicochemical characterization; single-particle ICP-MS; transmission electron microscopy; risk assessment
01 Pubblicazione su rivista::01a Articolo in rivista
Agglomeration Behavior and Fate of Food-Grade Titanium Dioxide in Human Gastrointestinal Digestion and in the Lysosomal Environment / Ferraris, Francesca; Raggi, Andrea; Ponti, Jessica; Mehn, Dora; Gilliland, Douglas; Savini, Sara; Iacoponi, Francesca; Aureli, Federica; Calzolai, Luigi; Cubadda, Francesco. - In: NANOMATERIALS. - ISSN 2079-4991. - 13:13(2023), pp. 1-18. [10.3390/nano13131908]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1692021
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