Development of a human biomonitoring method for assessing the exposure to ethoxyquin in the general population.

Ethoxyquin (EQ) is commonly used as an antioxidant in animal feeds. Although EQ is not permitted for usage in food products for humans within the EU, residues of EQ and its transformation products could be determined in food of animal origin. Despite its widespread use and concerns on its toxicological profile, no information about the systemic exposure to EQ in the general population is available. Hence, we developed a human biomonitoring (HBM) method for EQ. Our approach included a metabolism study with five subjects, who were administered an oral dose of 0.005 mg EQ/kg body weight. Unchanged EQ and the major metabolite 2,2,4-trimethyl-6(2H)-quinolinone (EQI) were identified as urinary excretion products of EQ. While small amounts of EQ could be determined in high concentrated samples from the metabolism study only, 28.5% of the orally applied EQ dose could be recovered as EQI. Toxicokinetic parameters were determined for EQI, the potential biomarker of exposure. In addition, an analytical method for EQI (LOQ = 0.03 µg/L) in urine based on UHPLC-MS/MS comprising enzymatic glucuronide hydrolysis and salt-assisted liquid-liquid extraction was developed, validated and applied to 53 urine samples from the general population. EQI could be quantified in 11 (21%) of the samples in levels up to 1.7 µg/L urine, proving the suitability of the developed method for the intended purpose.

A validated UPLC-MS/MS method for the determination of urinary metabolites of Uvinul® A plus.

Uvinul® A plus (DHHB) is a synthetic benzophenone derivative mainly used in sunscreens, and also in other skin care products. The compound is authorized by the EU as UV filter and a maximum concentration of 10% in consumer products is permitted. Despite its high production volume and usage in consumer products,to date, no information about the systemic exposure to Uvinul® A plus in humans is available. Therefore, we developed a human biomonitoring method which allows the simultaneous determination of three major metabolites of Uvinul® A plus in human urine samples. Furthermore, three minor metabolites of Uvinul® A plus were identified by ion trap experiments. Urine samples were enzymatically hydrolyzed, extracted via liquid-liquid extraction with ethyl acetate, and analyzed by means of UPLC-MS/MS. The final method was validated according to FDA guidelines and applied to 58 urine samples retrieved from the general German population. The three major and specific metabolites of Uvinul® A plus were found in about 36% of the samples, proving the suitability of the method for future human biomonitoring studies.

Human metabolism and urinary excretion kinetics of the UV filter Uvinul A plus® after a single oral or dermal dosage.

Hexyl 2-[4-(diethylamino)-2-hydroxybenzoyl]benzoate, better known under its trading name Uvinul A plus® is a UV filter mainly used in sunscreens, but also present in other cosmetic products with a maximum concentration of 10% (w/w) according to the EU directive. In this study we investigated the human metabolism after a single oral and a single dermal dose of Uvinul A plus®, respectively. Samples collected within 72 h of administration were analyzed with a newly developed UHPLC-MS/MS method. Results of the study revealed three major urinary metabolites, namely 2-(4-amino-2-hydroxybenzoyl)benzoic acid (AHB), 2-(4-(ethylamino)-2-hydroxybenzoyl)benzoic acid (EHB) and 2-(4-(diethylamino)-2-hydroxybenzoyl)benzoic acid (DHB), representing 52% of the administered oral dose. The three major metabolites are further converted into four minor metabolites with an additional hydroxyl group in the aniline moiety. Toxicokinetic parameters (amount excreted, tmax, elimination constant and half-life t1/2) and conversion factors were determined for the three major metabolites. The conversion factors were used to estimate the mean daily exposure to Uvinul A plus® in spot urine samples from 58 volunteers not intentionally exposed to Uvinul A plus® derived from a pilot study. The three major metabolites were quantifiable in 26% of the samples. In 35% of the samples, at least one major metabolite could be quantified. The daily systemic exposure to Uvinul A plus® was estimated to approximately 8.1-9.3 µg/d by applying the combined conversion factor for all three major metabolites. In conclusion, a very low systemic exposure to DHHB was observed with regard to the no observed adverse effect level (NOAEL) as an established threshold for chronic uptake.

Metabolites of the fragrance 2-(4-tert-butylbenzyl)propionaldehyde (lysmeral) in urine of children and adolescents in Germany - Human biomonitoring results of the German Environmental Survey 2014-2017 (GerES V).

The synthetic fragrance 2-(4-tert-butylbenzyl)propionaldehyde, also known as lysmeral, butylphenyl methylpropional, lilial, or lily aldehyde, is widely used in cosmetics, personal care products, laundry detergents, and air fresheners. It is classified as suspected to be harmful to fertility and possibly endocrine disrupting. Its maximum concentration in cosmetics is limited. First-morning void urine samples (N = 2133) were analysed for several metabolites of lysmeral (Chemical Abstract Service (CAS) No.: 80-54-6). Samples were collected in the population-representative German Environmental Survey for Children and Adolescents 2014-2017 (GerES V) from German residents aged 3-17 years. Four main metabolites tert-butylbenzoic acid, lysmerol, lysmerylic acid, and hydroxy-lysmerylic acid were found in quantifiable amounts in 100%, 99%, 40%, and 23% of the samples, respectively, with geometric mean concentrations of 10.21 µg/L (8.658 µg/gcrea) for tert-butylbenzoic acid, 1.528 µg/L (1.296 µg/gcrea) for lysmerol, and below the limit of quantification of 0.2 µg/L and 0.4 µg/L for lysmerylic acid and hydroxy-lysmerylic acid, respectively. Girls had higher urinary concentrations of lysmeral metabolites than boys. Usage of fragrances, fabric softener, and personal care products, especially perfume, was positively associated with urinary concentrations of lysmeral metabolites. Source identification builds a basis to derive proposals for reduction of exposure. These results can also provide the foundation for developing reference values for urinary metabolite concentrations of lysmeral in children and adolescents in Germany that will facilitate recognising future exposure trends.

Human metabolism and excretion kinetics of the fragrance 7-hydroxycitronellal after a single oral or dermal dosage.

7-Hydroxy-3,7-dimethyl-1-octanal, also known as 7-hydroxycitronellal (7-HC, CAS No. 107-75-5) is a synthetic fragrance widely used in cosmetic and hygiene products. Due to its large scope, 7-HC was selected for the development of a biomonitoring method suitable for the general population within the frame of the cooperation project between the German Federal Ministry for the Environment (BMUB) and the German Chemical Industry Association (VCI). In a human study with 5 healthy subjects who received single dermal and oral doses 7-HC, suitable metabolites and their urinary excretion kinetics was investigated. Two metabolites of 7-hydroxycitronellal were identified in urinary fractions after dermal and oral dosing: The alcohol 7-hydroxycitronellol (7-HCO) and the corresponding acid 7-hydroxycitronellylic acid (7-HCA). Only 7-HCA proved to be a suitable biomarker of exposure to 7-HC, since 7-HCO was quantifiable in only a minority of urine samples collected from the general population. Quantification of 7-HCA was conducted by means of a newly developed UPLC-MS/MS (ultra-high pressure liquid chromatography combined with tandem mass spectrometry) method. Peak excretion of 7-HCA occurred between 3 and 5h after oral application and about 10h after dermal administration. Due to the limited skin absorption of 7-HC, 7-HCA concentrations after dermal application were much lower than levels after oral application. After 24h, about 9% and 50% of the dermally and orally applied dose, respectively, were excreted as 7- HCA. With the conversion factors derived from the controlled human study, we estimated median exposure doses in a group of 40 human volunteers from the general population of approximately 93µg 7-HC per day. In conclusion, the 7-HC metabolite 7-HCA in urine is a suitable biomarker of exposure and can be applied for biomonitoring of the general population.

A validated UPLC-MS/MS method for biomonitoring the exposure to the fragrance 7-hydroxycitronellal.

7-Hydroxycitronellal is a synthetic fragrance (CAS No. 107-75-5) which is used commonly in cosmetics, washing- and cleaning agents and as flavoring in foods. Due to its broad application in various fields, 7-hydroxycitronellal was selected for the development of a biomonitoring method for the quantitative exposure assessment within the frame of the cooperation project of the German Federal Ministry for the Environment, Nature Conservation, Building and Nuclear Safety (BMUB) and the German Chemical Industry Association (VCI). For this purpose, an ultra performance liquid chromatography combined with tandem mass spectrometry (UPLC-MS/MS) based method was developed for the determination of potential biomarkers of 7-hydroxycitronellal (7-HC) in human urine samples. 7-Hydroxycitronellylic acid (7-HCA) turned out to be the quantitatively most important metabolite of 7-HC in human urine, occurring in 1000 times higher amounts than 7-hydroxycitronellol (7-HCO) or other potential metabolites. Therefore, an analytical method for 7-HCA was developed using stable isotope-labeled 7-HCA as internal standard (IS). The method includes a cleavage step of possible metabolite conjugates with an enzyme mix of ß-glucuronidase and arylsulfatase. Subsequent sample cleanup was performed by liquid-liquid extraction (LLE) with dichloromethane. The method was calibrated by calculating the linear regression between the analyte/IS ratio and the nominal 7-HCA concentrations in water. The method was validated according to approved standard guidelines and proved to be robust, reliable and sensitive for the human biomonitoring of 7-HC. The method was applied to urine samples of 40 adult volunteers from the general population. 7-HCA was quantifiable in urine of all subjects. Thus the developed method proved to be suitable for assessing the background exposure to 7-HC in the general population.