Your search keyword '"van Oorschot Y"' showing total 5 results

1. The contribution of PFAS to thyroid hormone-displacing activity in Dutch waters: A comparison between two in vitro bioassays with chemical analysis

Author

de Schepper, J.K.H., van Oorschot, Y., Jaspers, R.J., Hamers, T., Lamoree, M.H., Behnisch, P., Besselink, H., and Houtman, C.J.

Published

2023

2. High resolution effect-directed analysis of steroid hormone (ant)agonists in surface and wastewater quality monitoring

Author

Houtman, Corine J., ten Broek, R., van Oorschot, Y., Kloes, D., van der Oost, R., Rosielle, M., Lamoree, M. H., Houtman, Corine J., ten Broek, R., van Oorschot, Y., Kloes, D., van der Oost, R., Rosielle, M., and Lamoree, M. H.

Abstract

Monitoring of chemical water quality is extremely challenging due to the large variety of compounds and the presence of biologically active compounds with unknown chemical identity. Previously, we developed a high resolution Effect-Directed Analysis (EDA) platform that combines liquid chromatography with high resolution mass spectrometry and parallel bioassay detection. In this study, the platform is combined with CALUX bioassays for (anti)androgenic, estrogenic and glucocorticoid activities, and the performance of the platform is evaluated. It appeared to render very repeatable results, with high recoveries of spiked compounds and high consistency between the mass spectrometric and bioassay results. Application of the platform to wastewater treatment plant effluent and surface water samples led to the identification of several compounds contributing to the measured activities. Eventually, a workflow is proposed for the application of the platform in a routine monitoring context. The workflow divides the platform into four phases, of which one to all can be performed depending on the research question and the results obtained. This allows one to make a balance between the effort put into the platform and the certainty and depth by which active compounds will be identified. The EDA platform is a valuable tool to identify unknown bioactive compounds, both in an academic setting as in the context of legislative, governmental or routine monitoring.

Published

2020

3. High resolution effect-directed analysis of steroid hormone (ant)agonists in surface and wastewater quality monitoring

Author

Houtman, Corine J., primary, ten Broek, R., additional, van Oorschot, Y., additional, Kloes, D., additional, van der Oost, R., additional, Rosielle, M., additional, and Lamoree, M.H., additional

Published

2020

4. Identification of antimicrobial and glucocorticoid compounds in wastewater effluents with effect-directed analysis.

Author

Jonkers TJH, Houtman CJ, van Oorschot Y, Lamoree MH, and Hamers T

Subjects

Wastewater toxicity, Glucocorticoids, Mass Spectrometry, Anti-Bacterial Agents analysis, Environmental Monitoring, Water Purification, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical analysis

Abstract

Pharmaceuticals, such as glucocorticoids and antibiotics, are inadequately removed from wastewater and may cause unwanted toxic effects in the receiving environment. This study aimed to identify contaminants of emerging concern in wastewater effluent with antimicrobial or glucocorticoid activity by applying effect-directed analysis (EDA). Effluent samples from six wastewater treatment plants (WWTPs) in the Netherlands were collected and analyzed with unfractionated and fractionated bioassay testing. Per sample, 80 fractions were collected and in parallel high-resolution mass spectrometry (HRMS) data were recorded for suspect and nontarget screening. The antimicrobial activity of the effluents was determined with an antibiotics assay and ranged from 298 to 711 ng azithromycin equivalents·L -1 . Macrolide antibiotics were identified in each effluent and found to significantly contribute to the antimicrobial activity of each sample. Agonistic glucocorticoid activity determined with the GR-CALUX assay ranged from 98.1 to 286 ng dexamethasone equivalents·L -1 . Bioassay testing of several tentatively identified compounds to confirm their activity revealed inactivity in the assay or the incorrect identification of a feature. Effluent concentrations of glucocorticoid active compounds were estimated from the fractionated GR-CALUX bioassay response. Subsequently, the biological and chemical detection limits were compared and a sensitivity gap between the two monitoring approaches was identified. Overall, these results emphasize that combining sensitive effect-based testing with chemical analysis can more accurately reflect environmental exposure and risk than chemical analysis alone., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

5. Characterisation of (anti-)progestogenic and (anti-)androgenic activities in surface and wastewater using high resolution effectdirected analysis.

Author

Houtman CJ, Brewster K, Ten Broek R, Duijve B, van Oorschot Y, Rosielle M, Lamoree MH, and Steen RJCA

Subjects

Biological Assay, Environmental Monitoring, Netherlands, Progestins analysis, Wastewater analysis, Endocrine Disruptors analysis, Endocrine Disruptors toxicity, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity

Abstract

The quality of surface waters is threatened by pollution with low concentrations of bioactive chemicals, among which those interfering with steroid hormone systems. Induced by reports of anti-progestogenic activity in surface waters, a two-year four-weekly survey of (anti-)progestogenic activity was performed at three surface water locations in the Netherlands that serve as abstraction points for the production of drinking water. As certain endogenous and synthetic progestogenic compounds are also potent (anti-)androgens, these activities were also investigated. Anti-progestogenic and anti-androgenic activities were detected in the majority of the monitoring samples, sometimes in concentrations exceeding effect-based trigger values, indicating the need for further research. To characterize the compounds responsible for the activities, a high resolution Effect-Directed Analysis (hr-EDA) panel was combined with PR and AR CALUX bioassays, performed in agonistic and antagonistic modes. The influent and effluent of a domestic wastewater treatment plant (WWTP) were included as effluent is a possible emission source of active compounds. As drivers for androgenic and progestogenic activities several native and synthetic steroid hormones were identified in the WWTP samples, namely androstenedione, testosterone, DHT, levonorgestrel and cyproterone acetate. The pesticides metolachlor and cyazofamid were identified as contributors to both the anti-progestogenic and anti-androgenic activities in surface water. In addition, epiconazole contributed to the anti-progestogenic activities in the rivers Rhine and Enclosed Meuse. This study showed the strength of hr-EDA for the identification of bioactive compounds in environmental samples and shed light on the drivers of (anti-)progestogenic and (anti-)androgenic activities in the aquatic environment., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2021