Release of Titanium Dioxide from Textiles during Washing

Windler, L.; Lorenz, Christiane; Goetz, Natalie von; Hungerbühler, Konrad; Amberg, Michel; Heuberger, Manfred; Nowack, Bernd

doi:10.1021/es301633b

Cited by 204 publications

(132 citation statements)

References 32 publications

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Section: Discussionmentioning

confidence: 99%

“…Moreover, outside of the production aerosol exposure, TiO 2 is present in many food, personal care, and other consumer products; thus, virtually the entire population in the US and other developed countries is exposed to the substance, albeit not in an airborne way (Weir et al, 2012;Windler et al, 2012) but often in the form of suspension (e.g. when released from textiles during washing (Windler et al, 2012)). This emphasizes the importance of studying potential deleterious effects of environmental substances we consider inert -more so because not only can such environmental pollutants enhance the risk of disease (Gilmour et al, 2001), but they can become a single cause of it.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Estrogen-mediated impairment of macrophageal uptake of environmental TiO₂particles to explain inflammatory effect of TiO₂on airways during pregnancy

Zhang

Mikhaylova

Kobzik³

et al. 2014

Journal of Immunotoxicology

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Innate defenses against environmental particulate exposures can become deficient when physiological background of the organism is unbalanced. Even those exposures considered innocuous may then become harmful. For example, one of the important inherent risks of pregnancy is increased inflammatory responsiveness in the airways, which extends to exposures considered otherwise innocuous: it has been observed that normally ''inert'' particulates become inflammatory in pregnancy. They lead to enhanced airway inflammation associated with increased asthma risk in the offspring in the BALB/c model. It was hypothesized that pregnancy hormones alter macrophageal uptake and clearance of particles. This study shows that the phagocytic activity of alveolar macrophages (AM) and RAW264.7 cells against titanium dioxide (TiO 2 ) was inhibited in pregnancy by $10% and in vitro by estradiol by $20%; progesterone potentiated this effect. Hence, enhanced inflammation in pregnancy as an outcome of exposure to the ''inert'' TiO 2 may be due to an effect of pregnancy hormones which decrease the ability of the airways to clear the particles. AM (at 10 6 cells/recipient) isogenically transplanted from pregnant mothers into airways of recipients were able to confer the phenotype of inflammatory response to TiO 2 (PMN counts of 1.62 [± 0.19] Â 10 5 /ml versus 0.61 [± 0.13] Â 10 5 /ml in control). Because this small amount of transferred AM could not replace the AM population in the recipients' lungs, it is postulated that the effect is mediated by inhibitory signaling factors that AM produce and release; hence, a list of probable molecules was identified via genome-wide microarray.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Estrogen-mediated impairment of macrophageal uptake of environmental TiO₂particles to explain inflammatory effect of TiO₂on airways during pregnancy

Zhang

Mikhaylova

Kobzik³

et al. 2014

Journal of Immunotoxicology

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“…Windler et al (2012) analyzed emissions of TiO 2 from six different textiles during washing and rinsing. The textiles contained significant amounts of Ti (from 0.2 to 0.9 %), but the presence of Ti could not be directly correlated to the content of TiO 2 ENM because of the lack of data from the manufacturers.…”

Section: Ac5: Fabrics Textiles and Apparelmentioning

confidence: 99%

Release of nanomaterials from solid nanocomposites and consumer exposure assessment – a forward-looking review

Mackevica

Hansen

2016

Nanotoxicology

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The European chemical legislation requires manufacturers and importers of chemicals to do consumer exposure assessment when the chemical has certain hazards associated to it (e.g. explosive, carcinogenicity, hazardous to the aquatic environment), but the question is how this obligation can be met in light of the scientific uncertainty and technical challenges related to exposure assessment of nanomaterials. In this paper, we investigate to what extent the information and data in the literature can be used to perform consumer exposure assessment according to the REACH requirements and we identify and discuss the key data needs and provide recommendations for consumer exposure assessment of nanomaterials. In total, we identified 76 studies of relevance. Most studies have analyzed the release of Ag and TiO 2 from textiles and paints, and CNT and SiO 2 from nanocomposites. Less than half of the studies report their findings in a format that can be used for exposure assessment under REACH, and most do not include characterization of the released particles. Although inhalation, dermal and oral exposures can be derived using the guidelines on how to complete consumer exposure assessments under REACH, it is clear that the equations are not developed to take the unique properties of nanomaterials into consideration.Future research is therefore needed on developing more generalized methods for representing nanomaterial release from different product groups at relevant environmental conditions. This includes improving the analytical methods for determining nanomaterial alteration and transformation, as well as 2 quantification, which could subsequently lead to more nano-specific consumer exposure assessment models.

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“…Luo et al [81] explored the application of ESEM to directly characterize the size distribution of a range of The use of electron microscopy for ENMs characterization in different types of samples has been considered in different reviews involving environmental [7,8,83], food [8,20], and biomaterials [71] analysis. In relation with complex samples, electron microscopy has been successfully applied to characterize TiO 2 nanoparticles in sewage sludge and soils amended with sewage sludge [84] or with biosolids [85], or to investigate the presence of ENPs in release studies: Ag NPs from a washing machine effluent [86] and from water-based nano-Ag spray products [87], TiO 2 NPs from textiles [88], or SiO 2 and Al 2 O 3 from chemical mechanical planarization process wastewater [89]. SEM and TEM-based studies highlighted the relevance of the detection and characterisation of ENPs in many products of our daily life: Ag in washing solutions from commercial detergents [90], Ag and ZnO in spray products [91], TiO 2 and ZnO in sunscreens [74], metallic NPs in dietary supplement drinks [92], Ag in pears [93], SiO 2 in tomato soup [81] or coffee creamer [55], TiO 2 and ZnO in starch, yam starch, and wheat flour [94], or TiO 2 in foods and consumer product [95].…”

Section: Electron Microscopymentioning

confidence: 99%

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

Laborda

Bolea

Cepriá

et al. 2016

Analytica Chimica Acta

313

170

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The increasing demand of analytical information related to inorganic engineered nanomaterials requires the adaptation of existing techniques and methods, or the development of new ones.The challenge for the analytical sciences has been to consider the nanoparticles as a new sort of analytes, involving both chemical (composition, mass and number concentration) and physical information (e.g. size, shape, aggregation). Moreover, information about the species derived from the nanoparticles themselves and their transformations must also be supplied. Whereas techniques commonly used for nanoparticle characterization, such as light scattering techniques, show serious limitations when applied to complex samples, other well-established techniques, like electron microscopy and atomic spectrometry, can provide useful information in most cases. Furthermore, separation techniques, including flow field flow fractionation, capillary electrophoresis and hydrodynamic chromatography, are moving to the nano domain, mostly hyphenated to inductively coupled plasma mass spectrometry as element specific detector.Emerging techniques based on the detection of single nanoparticles by using ICP-MS, but also coulometry, are in their way to gain a position. Chemical sensors selective to nanoparticles are in their early stages, but they are very promising considering their portability and simplicity.Although the field is in continuous evolution, at this moment it is moving from proofs-of-2 concept in simple matrices to methods dealing with matrices of higher complexity and relevant analyte concentrations. To achieve this goal, sample preparation methods are essential to manage such complex situations. Apart from size fractionation methods, matrix digestion, extraction and concentration methods capable of preserving the nature of the nanoparticles are being developed. This review presents and discusses the state-of-the-art analytical techniques and sample preparation methods suitable for dealing with complex samples. Single-and multimethod approaches applied to solve the nanometrological challenges posed by a variety of stakeholders are also presented.

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Release of Titanium Dioxide from Textiles during Washing

Cited by 204 publications

References 32 publications

Estrogen-mediated impairment of macrophageal uptake of environmental TiO₂particles to explain inflammatory effect of TiO₂on airways during pregnancy

Estrogen-mediated impairment of macrophageal uptake of environmental TiO₂particles to explain inflammatory effect of TiO₂on airways during pregnancy

Release of nanomaterials from solid nanocomposites and consumer exposure assessment – a forward-looking review

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

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Release of Titanium Dioxide from Textiles during Washing

Cited by 204 publications

References 32 publications

Estrogen-mediated impairment of macrophageal uptake of environmental TiO2particles to explain inflammatory effect of TiO2on airways during pregnancy

Estrogen-mediated impairment of macrophageal uptake of environmental TiO2particles to explain inflammatory effect of TiO2on airways during pregnancy

Release of nanomaterials from solid nanocomposites and consumer exposure assessment – a forward-looking review

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

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Estrogen-mediated impairment of macrophageal uptake of environmental TiO₂particles to explain inflammatory effect of TiO₂on airways during pregnancy

Estrogen-mediated impairment of macrophageal uptake of environmental TiO₂particles to explain inflammatory effect of TiO₂on airways during pregnancy