Determining the distribution of triclosan and methyl triclosan in estuarine settings

We have developed a method for the analysis of two sewage-derived contaminants: triclosan (TCS), an antibacterial agent, and methyl triclosan (MTCS), a TCS metabolite. For solid samples (4 g), extraction and cleanup were integrated into the same step using pressurized liquid extraction (PLE) with in-cell-clean-up (1 g of florisil). The extraction was performed using dichloromethane at 100 °C, 1500 psi and 3 static extraction cycles of 5 min each. For water samples (100 mL), stir bar sorptive extraction–liquid desorption (SBSE–LD) was used. Bars were stirred for 10 h and analytes were later desorbed using acetonitrile. Finally, MTCS and a silylated derivative of TCS were determined by gas chromatography–mass spectrometry (GC–MS). Recovery experiments in water and sediments were performed and the results ranged from 67% to 78%. Limits of detection (LODs) were 5 ng L−1 for TCS and 1 ng L−1 for MTCS, in water samples, and 0.1 ng g−1 for TCS and MTCS in solid samples. The method was applied then to determine the levels of these compounds in the estuary of Guadalete River (SW Spain). TCS and MTCS concentrations up to 9.6 ng g−1 in sediments and 310 ng L−1 in water were measured. Their distribution was strongly influenced by the presence of wastewater sources, treated and untreated, along the sampling area, where maximum concentrations were detected. Highest values were reached in the water column during low tides as the water volume in the estuary becomes lower

Per- and poly-fluoroalkyl substances (PFASs) in follicular fluid from women experiencing infertility in Australia

Per- and poly-fluoroalkyl substances (PFASs) have been widely used and detected in human matrices. Evidence that PFAS exposure may be associated with adverse human reproductive health effects exists, however, data is limited. The use of a human matrix such as follicular fluid to determine chemical exposure, along with reproductive data will be used to investigate if there is a relationship between PFAS exposure and human fertility. Objective: This study aims to: (1) assess if associations exist between PFAS concentrations and/or age and fertilisation rate (as determined in follicular fluid of women in Australia who received assisted reproductive treatment (ART)); and (2) assess if associations exist between PFAS concentrations and infertility aetiology. Methods: Follicular fluids were originally collected from participants who underwent fully stimulated ART treatment cycles at an in vitro fertilisation (IVF) clinic in the period 2006–2009 and 2010–11 in Queensland, Australia. The samples were available for analysis of 32 PFASs including perfluorooctane sulfonate (PFOS), perfluorooctanoic acid (PFOA), perfluorohexane sulfonate (PFHxS), and perfluorononanoic acid (PFNA) using high performance liquid chromatography tandem mass spectrometry (HPLC-MS/MS). 97 samples were matched with limited demographic data (age and fertilisation rate) and five infertility factors (three known female factors): 1) endometriosis, 2) polycystic ovarian syndrome (PCOS), and 3) genital tract infections - tubal/pelvic inflammation disease; as well as 4) male factor, and 5) idiopathic or unknown from either males or females. SPSS was used for linear regression analysis. Results: PFASs were detected in all follicular fluid samples with the mean concentrations of PFOS and PFOA, 4.9, and 2.4 ng/ml, respectively. A lower fertilisation rate was observed at higher age when age was added as a covariate, but there was no relationship between PFAS concentrations and fertilisation rate. There were few statistically significant associations between PFAS concentrations in follicular fluid and infertility factors. Log-transformed PFHxS concentrations were lower in females with endometriosis (factor 1) than in women who had reported ‘male factors’ as a reason of infertility, while PFHpA was higher in women who had infertile due to female factors (factor 1–3) compared to those who had infertile due to male factor. Conclusion: PFASs were detected in follicular fluid of Australian women who had been treated at an IVF clinic. PFAS exposure found in follicular fluids is linked to increased risk of some infertility factors, and increased age was associated with decreased fertilisation rate in our data. But there was no relationship between PFAS and ferlitisation rate. Further large-scale investigations of PFAS and health effects including infertility are warranted

Analytical methodologies for the detection of β-lactam antibiotics in milk and feed samples

Antibiotic residues in milk are of great concern to dairy farmers, milk processors, regulatory agencies and consumers. In addition, the effectiveness of antibiotics is threatened by extensive, inappropriate use. In veterinary practice, antibiotics are utilized at therapeutic levels primarily to treat diseases and to prevent infections. They are also used at sub-therapeutic levels to increase feed efficiency and to promote growth in food-producing animals. The frequent, sometimes illegal, use of antibiotics may result in residues being found at different concentration levels in products of animal origin, such as milk. β-lactams comprise some of the antibiotics most frequently used for the treatment of sick animals in Europe. This review presents analytical methods that have been developed during the past decade for penicillin and cephalosporin residues in milk and feed samples. It includes microbiological approaches, biosensors, immunochemical techniques and chromatographic methods. © 2009 Elsevier Ltd. All rights reserved.The work described in this article was supported by the EU through the CONffIDENCE project (Contract No. 211326). The Spanish Government is acknowledged for financial support (FI 2009). This article reflects only the authors’ views, and the EU is not liable for any use that may be made of the information contained therein.Peer Reviewe

Advances in immunochemical technologies for analysis of organic pollutants in the environment

13 pages, 3 figures, 2 tables.-- Printed version published Dec 2007.-- Issue title: Emerging contaminants in wastewaters.Due to the increasing number of organic pollutants, implementation of European Union Directives calls for rapid, reliable, cost-effective, and smart technologies for water analysis.Immunoaffinity of an antibody to an antigen has been used for the development of a wide variety of analytical techniques applicable in environmental monitoring. This article reflects recent advances in development and application of immunochemical techniques for environmental analysis and monitoring of organic pollutants. We briefly summarize several examples. We especially emphasize current trends and future perspectives in immunosensor configurations, including nanotechnology, miniaturization, and multi-sensor array development, and we discuss the advantages and the limitations of these.This study was funded by the European Union through the project PROMOTE (GOCE 518074) and by the Spanish Ministry of Education and Science through the CVTM2007-28917-E/TECNO and the project CEMAGUA (CGL2007-64551/HID). Marinel.la Farré thanks the support from the MINISTERIO DE EDUCACIÓN y CIENCIA through the I3P program. Waters Corporation (USA) and Merck (Germany) are acknowledged for the gift of SPE cartridges and for the UPLC columns, respectively.Peer reviewe

Ecotoxicity and analysis of nanomaterials in the aquatic environment

Nanotechnology is a major innovative scientific and economic growth area. However nanomaterial residues may have a detrimental effect on human health and the environment. To date there is a lack of quantitative ecotoxicity data, and recently there has been great scientific concern about the possible adverse effects that may be associated with manufactured nanomaterials. Nanomaterials are in the 1- to 100-nm size range and can be composed of many different base materials (carbon, silicon and metals, such as gold, cadmium and selenium) and they have different shapes. Particles in the nanometer size range do occur both in nature and as a result of existing industrial processes. Nevertheless, new engineered nanomaterials and nanostructures are different because they are being fabricated from the “bottom up”. Nanomaterial properties differ compared with those of the parent compounds because about 40–50% of the atoms in nanoparticles (NPs) are on the surface, resulting in greater reactivity than bulk materials. Therefore, it is expected that NPs will have different biological effects than parent compounds. In addition, release of manufactured NPs into the aquatic environment is largely an unknown. The surface properties and the very small size of NPs and nanotubes provide surfaces that may bind and transport toxic chemical pollutants, as well as possibly being toxic in their own right by generating reactive radicals. This review addresses hazards associated and ecotoxicological data on nanomaterials in the aquatic environment. Main weaknesses in ecotoxicological approaches, controversies and future needs are discussed. A brief discussion on the scarce number of analytical methodsavailable to determinate nanomaterials in environmental samples is included

Development and validation of a pressurised liquid extraction liquid chromatography–electrospray–tandem mass spectrometry method for β-lactams and sulfonamides in animal feed

This study presents the development and validation of a sensitive and fast (30 min extraction time and 10 min chromatographic run) method for the detection of penicillins, cephalosporins and sulfonamides in animal feed using pressurised liquid extraction and solid phase extraction as extraction and pre-concentration procedures, followed by liquid chromatography–quadrupole-linear ion-trap mass spectrometry. The developed method was validated showing limits of detection ranging from 0.12 (ampicillin) to 3.94 ng/g (amoxicillin), instrumental and analytical linearity coefficients above 0.99 in both standard and matrix-based solutions as well as relative recoveries ranging from 71% (cefoperazone) to 115% (cefazolin). Repeatability of the method was in the range of 1–9% (RSD %), whereas reproducibility ranged from 3% to 13% (RSD %). The developed and validated method was finally applied to the analysis of real feed samples. The results showed 10 out of 18 analytes to be present in at least one sample and all 14 samples to contain at least one analyte. Penicillin V, oxacillin, ceftiofur, cefoperazone, cefalexin, cefazolin, sulfamethoxypyridazine and sulfapyridine were not detected in any of the samples analysed. Considering the ban of antibacterials as growth promoters added in animal feed, this method is capable of detecting the low concentrations that could result from failure to comply with the regulations or on-site contamination.Spanish Ministry of Science and Innovation, through the project CEMAGUA (CGL2007-64551/HID). Waters is acknowledged for providing the SPE cartridges. Lina Kantiani acknowledges the Generalitat de Catalunya (2009FI_B 00660) and the Alexander S. Onassis Foundation (F-ZD 029/2007-2008).Peer reviewe

Emerging food contaminants: a review

Governments throughout the world are intensifying their efforts to improve food safety. These efforts come as a response to an increasing number of food-safety problems and increasing consumer concerns. In addition, the variety of toxic residues in food is continuously increasing as a consequence of industrial development, new agricultural practices, environmental pollution, and climate change. This paper reviews a selection of emerging contaminants in food, including the industrial organic pollutants perfluorinated compounds (PFCs), polybrominated diphenyl ethers (PBDEs), and nanomaterials; the pharmaceutical residues antibiotics and coccidiostats; and emerging groups of marine biotoxins. The main analytical approaches for their detection and quantification in food will be presented and discussed with special emphasis on biological techniques, when these are feasible. In the last section, a summary of recent publications reporting the concentrations of these compounds in food will be presented and discussed.This work was supported by the Spanish Ministry of Science and Innovation, through the project CEMAGUA (CGL2007-64551/HID). Waters is acknowledged for providing the SPE cartridges. Lina Kantiani acknowledges the Generalitat de Catalunya (2009FI_B 00660) and the Alexander S. Onassis foundation (F-ZD 09/2007-2008).Peer reviewe

Achievements and future trends in the analysis of emerging organic contaminants in environmental samples by mass spectrometry and bioanalytical techniques

Several groups of organic compounds have emerged as particularly relevant as environmental pollutants. These compounds, including new brominated flame retardants, disinfection by-products, drugs of abuse and their metabolites, hormones and other endocrine disrupting compounds, nanomaterials, perfluoroalkyl substances, pharmaceuticals and siloxanes among others, constitute new risks for environmental and human health. In order to face up to these new risk challenges there is an increasing need to assess their occurrence and behaviour in the environment, as well as, that of their degradation products. Therefore, during recent years an important part of research has been focused on to the improvement of analytical schemes for complex matrices, in which the new tendencies in sample preparation (e.g. online clean up systems), the development of new materials and new mass spectrometry analysers have played an important role. This paper presents a general overview of new analytical trends and potentials in trace analysis of emerging pollutants in the environment, including chromatographic techniques coupled to mass spectrometry, and bio analytical approaches (biosensors). © 2012 Elsevier B.V.This material is based upon work supported by the Spanish Ministry of Economy and Competitiveness through the projects SCARCE (Consolider-Ingenio 2010 CSD2009-00065), CEMAGUA (CGL2007-64551/HID), and Nano-Trojan (CTM-2011-24051).Peer Reviewe

Determination of antibacterials in animal feed by pressurized liquid extraction followed by online purification and liquid chromatography-electrospray tandem mass spectrometry

A fully automated method has been developed for analysis of eighteen antibacterial compounds, including penicillins, cephalosporins and sulfonamides, in animal feed with limits of quantification in the range 0.25–5.79 μgkg−1. The method is based on pressurized liquid extraction of 3 g homogenized feed with water and online clean-up of 500 μL of the extract with C18HD cartridges. The purified sample was directly analysed by liquid chromatography–electrospray tandem mass spectrometry (SPE–LC–ESI-MS–MS). Chromatographic separation was achieved within 10 min by use of a C12 Phenomenex Hydro-RP reversed-phase analytical column and a mobile phase gradient (water + 0.1% formic acid–methanol + 0.1% formic acid). The method was validated, revealing capability for detection of concentrations as low as 0.09 μgkg−1, decision limits (CCα) and detection capabilities (CCβ) in the range 10–174 μgkg−1 and 22– 182 μgkg−1, respectively, and inter-day precision ranging from 0.7 to 8.3%. Recovery, with internal standard correction, was in the range 93–134% for all analytes. The method was then applied to analysis of fifteen feed samples, nine of which contained at least one antimicrobial at concentrations between 0.006 and 1.526 mgkg−1.The performance data and results from the method were compared with those from a previous method developed by our group, using offline SPE, by analyzing the same set of samples by both methods. The online SPE approach resulted in slightly improved sensitivity, with LODs of 0.09–2.12 μgkg−1 compared with 0.12– 3.94 μgkg−1 by the offline approach. In general, better recovery was achieved by use of online purification (for 72% of the analytes) and the correlation between the two methods was good. The main advantages of the new online method are rapid and automated sample pre-treatment, and reduction of sample manipulation, enabling high-throughput analysis and highly accurate results. Because of all these characteristics, the proposed method is applicable and could be deemed necessary within the field of food control and safety.This work was supported by the Spanish Ministry of Science and Innovation, through project CEMAGUA (CGL2007-64551/HID). Waters is acknowledged for providing the SPE cartridges. Lina Kantiani acknowledges the Generalitat de Catalunya (2009FI_B 00660) and the Alexander S. Onassis foundation (F-ZD 029/2007-2008).Peer reviewe