Non-target screening with high-resolution mass spectrometry: critical review using a collaborative trial on water analysis

In this article, a dataset from a collaborative nontarget screening trial organised by the NORMAN Association is used to review the state-of-the-art and discuss future perspectives of non-target screening using high-resolution mass spectrometry in water analysis. A total of 18 institutes from 12 European countries analysed an extract of the same water sample collected from the River Danube with either one or both of liquid and gas chromatography coupled with mass spectrometry detection. This article focuses mainly on the use of high resolution screening techniques with target, suspect, and non-target workflows to identify substances in environmental samples. Specific examples are given to emphasise major challenges including isobaric and co-eluting substances, dependence on target and suspect lists, formula assignment, the use of retention information, and the confidence of identification. Approaches and methods applicable to unit resolution data are also discussed. Although most substances were identified using high resolution data with target and suspect-screening approaches, some participants proposed tentative non-target identifications. This comprehensive dataset revealed that nontarget analytical techniques are already substantially harmonised between the participants, but the data processing remains time-consuming. Although the objective of a Bfullyautomated identification workflow^ remains elusive in the short term, important steps in this direction have been taken, exemplified by the growing popularity of suspect screening approaches. Major recommendations to improve non-target screening include better integration and connection of desired features into software packages, the exchange of target and suspect lists, and the contribution of more spectra from standard substances into (openly accessible) databases.This work was supported in part by the SOLUTIONS project, which received funding from the European Union’s Seventh Framework Programme for research, technological development and demonstration under Grant Agreement No. 603437

Study of molecular isotopic composition as qualitative and quantitative source tracer for particulate polycyclic aromatic hydrocarbons (PAHs) in the atmosphere

Les hydrocarbures aromatiques polycycliques (HAP) sont des composés organiques présents dans l’ensemble des compartiments environnementaux. Dans l’atmosphère, leurs sources sont à la fois naturelles (feux de biomasse, éruptions volcaniques) et anthropiques (industrie, transport, chauffage résidentiel). Une fois émis, sous forme gazeuse ou adsorbés à la surface de particules atmosphériques, les HAP sont susceptibles d’être impliqués dans des processus physico-chimiques tels que la photodégradation et/ou des réactions d’oxydation avec différentes espèces radicalaires. Du fait de leur toxicité avérée, ces composés font l’objet de différentes réglementations, législations françaises et européennes. Concernant le compartiment atmosphérique, seul le benzo(a)pyrène présente aujourd’hui des seuils d’émission à respecter. Afin de faire évoluer ces textes et de mettre en place des mesures de réduction d’émissions, diverses approches ont été développées dans le but de différencier leurs sources dans l’atmosphère. L’approche moléculaire, basée sur les profils moléculaires et les rapports de concentrations, permet d’apporter des informations quant à leurs origines. En revanche, elle souffre de biais induits par les conditions de formation des HAP (température, conditions environnementales…) et par les processus physico-chimiques dans lesquels ils sont impliqués. L’objectif principal de ce travail est de mettre en place une méthodologie de traçage de sources des HAP particulaires par une approche isotopique. Le développement du protocole analytique a été réalisé pour déterminer la composition isotopique moléculaire des HAP particulaires par GC/C/IRMS. Il a été montré que la réactivité des HAP sous l’action d’oxydants (O3, NO2, OH) et/ou de la lumière solaire n’induisait pas de variation significative de la composition isotopique moléculaire des HAP. Cette méthodologie a ainsi pu être appliquée sur des échantillons naturels, prélevés sur des sites caractérisés par des sources spécifiques. Il a été montré que les 13C/12C des HAP, en complément de données moléculaires, permettent de différencier les origines de ces composés. Par exemple, les caractéristiques moléculaires et isotopiques de HAP issus de la combustion de plusieurs espèces de bois d’origine méditerranéenne ont été déterminées en appliquant cette méthodologie à des échantillons collectés directement à l’émission. Enfin, dans le cadre de l’étude de la pollution et de ses impacts dans le Bassin d’Arcachon, les apports atmosphériques en HAP ont été mesurés par l’approche moléculaire couplée à d’autres outils (rétrotrajectoires, oxydants, roses des vents…) afin de compléter le diagnostic environnemental.Polycyclic Aromatic Hydrocarbons (PAH) are carcinogenic compounds, present in all the compartments of the Environment. In the atmosphere, their sources are both from natural (biomass burning, volcanic emissions...) and anthropogenic (transport, industry, residential heating...) origins. Once emitted in the atmosphere, PAH are distributed between the gaseous or particulate phases and may be involved in different physico-chemical processes such as photodegradation, radical-initiated oxidations... Due to their carcinogenicity, PAH emissions are nowadays subjected to various regulations from France and more largely, European Union. In the atmosphere, benzo(a)pyrene has been selected as representative of the PAHs because of its high toxicity. In order to improve regulations involving emission reductions, several methodologies have been developed to perform source apportionment. The most commonly used in the literature is the molecular approach, based on molecular profiles and particular ratios. Nevertheless, conditions of PAH formation and physico-chemical processes affect these characteristic values. The main objective of this work was to develop a new methodology of particulate-PAH source tracking based on the molecular isotopic composition. The development of analytical procedure was performed to determine 13C/12C of PAHs by GC/C/IRMS. The study of the impact of PAH reactivity in the presence of O3, NO2, OH and/or solar radiations shows that no significant isotopic fractionation is induced on their isotopic compositions. Molecular isotopic approach was applied on natural particles, collected at different specific sites: 13C/12C of PAHs and molecular data allow differentiating particulate-PAH sources. Therefore, determinations of molecular and isotopic characteristics have been undertaken by applying this methodology on particulate-PAHs emitted during the combustion of fifteen Mediterranean woods. Finally, molecular approach coupled with different parameters (back-trajectories, oxidant concentrations, wind roses...) enables to measure the levels of PAH concentrations in the atmosphere in order to evaluate their impacts as a source of pollution in the Arcachon Bay

Study of molecular isotopic composition as qualitative and quantitative source tracer for particulate polycyclic aromatic hydrocarbons (PAHs) in the atmosphere

Les hydrocarbures aromatiques polycycliques (HAP) sont des composés organiques présents dans l’ensemble des compartiments environnementaux. Dans l’atmosphère, leurs sources sont à la fois naturelles (feux de biomasse, éruptions volcaniques) et anthropiques (industrie, transport, chauffage résidentiel). Une fois émis, sous forme gazeuse ou adsorbés à la surface de particules atmosphériques, les HAP sont susceptibles d’être impliqués dans des processus physico-chimiques tels que la photodégradation et/ou des réactions d’oxydation avec différentes espèces radicalaires. Du fait de leur toxicité avérée, ces composés font l’objet de différentes réglementations, législations françaises et européennes. Concernant le compartiment atmosphérique, seul le benzo(a)pyrène présente aujourd’hui des seuils d’émission à respecter. Afin de faire évoluer ces textes et de mettre en place des mesures de réduction d’émissions, diverses approches ont été développées dans le but de différencier leurs sources dans l’atmosphère. L’approche moléculaire, basée sur les profils moléculaires et les rapports de concentrations, permet d’apporter des informations quant à leurs origines. En revanche, elle souffre de biais induits par les conditions de formation des HAP (température, conditions environnementales…) et par les processus physico-chimiques dans lesquels ils sont impliqués. L’objectif principal de ce travail est de mettre en place une méthodologie de traçage de sources des HAP particulaires par une approche isotopique. Le développement du protocole analytique a été réalisé pour déterminer la composition isotopique moléculaire des HAP particulaires par GC/C/IRMS. Il a été montré que la réactivité des HAP sous l’action d’oxydants (O3, NO2, OH) et/ou de la lumière solaire n’induisait pas de variation significative de la composition isotopique moléculaire des HAP. Cette méthodologie a ainsi pu être appliquée sur des échantillons naturels, prélevés sur des sites caractérisés par des sources spécifiques. Il a été montré que les 13C/12C des HAP, en complément de données moléculaires, permettent de différencier les origines de ces composés. Par exemple, les caractéristiques moléculaires et isotopiques de HAP issus de la combustion de plusieurs espèces de bois d’origine méditerranéenne ont été déterminées en appliquant cette méthodologie à des échantillons collectés directement à l’émission. Enfin, dans le cadre de l’étude de la pollution et de ses impacts dans le Bassin d’Arcachon, les apports atmosphériques en HAP ont été mesurés par l’approche moléculaire couplée à d’autres outils (rétrotrajectoires, oxydants, roses des vents…) afin de compléter le diagnostic environnemental.Polycyclic Aromatic Hydrocarbons (PAH) are carcinogenic compounds, present in all the compartments of the Environment. In the atmosphere, their sources are both from natural (biomass burning, volcanic emissions...) and anthropogenic (transport, industry, residential heating...) origins. Once emitted in the atmosphere, PAH are distributed between the gaseous or particulate phases and may be involved in different physico-chemical processes such as photodegradation, radical-initiated oxidations... Due to their carcinogenicity, PAH emissions are nowadays subjected to various regulations from France and more largely, European Union. In the atmosphere, benzo(a)pyrene has been selected as representative of the PAHs because of its high toxicity. In order to improve regulations involving emission reductions, several methodologies have been developed to perform source apportionment. The most commonly used in the literature is the molecular approach, based on molecular profiles and particular ratios. Nevertheless, conditions of PAH formation and physico-chemical processes affect these characteristic values. The main objective of this work was to develop a new methodology of particulate-PAH source tracking based on the molecular isotopic composition. The development of analytical procedure was performed to determine 13C/12C of PAHs by GC/C/IRMS. The study of the impact of PAH reactivity in the presence of O3, NO2, OH and/or solar radiations shows that no significant isotopic fractionation is induced on their isotopic compositions. Molecular isotopic approach was applied on natural particles, collected at different specific sites: 13C/12C of PAHs and molecular data allow differentiating particulate-PAH sources. Therefore, determinations of molecular and isotopic characteristics have been undertaken by applying this methodology on particulate-PAHs emitted during the combustion of fifteen Mediterranean woods. Finally, molecular approach coupled with different parameters (back-trajectories, oxidant concentrations, wind roses...) enables to measure the levels of PAH concentrations in the atmosphere in order to evaluate their impacts as a source of pollution in the Arcachon Bay

Source Apportionment of Particulate-PAHs Using 13C Molecular Isotopic Approach

Polycyclic Aromatic Hydrocarbons (PAHs) are ubiquitous organic compounds widely found in all environmental compartments. The main concern of PAHs is that some of them are reported to have carcinogenic and mutagenic properties. In the atmosphere, they are mainly emitted as by-products of organic matter and fossil fuel incomplete combustion such as, domestic heating, automobile fuel combustion, wood burning and other industrial processes. Once released into the atmosphere, they are present on both gaseous and particulate phases and may be submitted to photodegradation and/or chemical oxidation by O3, OH or NOx. In order to differentiate and apportion PAH sources, several approaches of source assessment are proposed in the literature like, for instance, the molecular PAH concentration ratios. Recently, the use of 13C molecular isotopic composition has been developed to improve the molecular approach, commonly used to characterize atmospheric particulate-PAH sources. The first step of the method consists in measuring the 13C/12C isotopic composition of particulate PAHs from specific sampling sites (urban, rural, traffic), well characterized emissions (ship soot, kerosene burner, coal fly ash...) or reference materials (urban dust, diesel soot) . It is important, in a second step, to check the influence of atmospheric physico-chemical processes on the PAH isotopic composition values such as the heterogeneous reactivity with atmospheric oxidants, photolysis and particle transport. In this work, will be presented and discussed the last results of our group on the use of molecular isotopic composition as an interesting source tracer of atmospheric particulate-PAHs, 13C/12C PAH ratios being measured by using gas chromatography/combustion/isotopic ratio mass spectrometry (GC/C/IRMS)

A case report of unilateral cerebral vasculitis in adults: keep in mind Lyme neuroborreliosis

Abstract Background Lyme neuroborreliosis (LNB), due to infection of the nervous system by the spirochete Borrelia burgdorferi, occurs in 15% of Lyme disease cases. However, neurovascular involvement is uncommon, especially recurrent stroke related to cerebral vasculitis in the absence of CSF pleocytosis. Case presentation We report the case of a 58-year-old man without any medical history who exhibited recurrent strokes in the same vascular territory (left internal carotid). Multiple biological screening, neuroimaging methods, and cardiovascular examinations failed to provide a diagnosis and treatment that could have prevented recurrences. Finally, B. burgdorferi sensu lato serology testing in blood and cerebrospinal fluid enabled diagnosis of LNB, in relation to a cerebral vasculitis. The patient experienced no further stroke after four weeks of doxycycline treatment. Conclusion B. burgdorferi central nervous system infection must be considered in case of unexplained recurrent and/or multiple strokes, especially if cerebral vasculitis is suspected or demonstrated on neuroimaging

How to select relevant metabolites based on available data for parent molecules: Case of neonicotinoids, carbamates, phenylpyrazoles and organophosphorus compounds in French water resources

International audienceThe presence of pesticide in water resources is a topical issue in France as in many other countries. Resources can be contaminated by current-used pesticides and their metabolites but also by molecules banned 50 years ago. The number of reported studies on the impact of these substances on human health and environment increases every day. Currently, pesticides and their relevant degradation products are subjected to the European regulation for water intended for human consumption. It sets an individual quality limit of 0.1 μg/L, and another of 0.5 μg/L for the sum of their concentrations. The constant improvement of analytical methods allows laboratories to detect pesticides, at lower and lower concentrations but also more and more metabolites. However, regulation does not provide a national indicative metabolites list to be monitored. Each regional health agency offers their own list based on local agricultural practices and quantities of pesticides sold. This article reports a prioritization method allowing to identify new metabolites to be monitored in water resources, along drinking water treatment plants and in treated water; it describes its application in France in order to anticipate possible non-compliance with raw water and treated water and to provide solutions upstream of changes in sanitary control. This methodology has been developed to rank pesticides and to select the corresponding metabolites by combining three main criteria: use (sale and type of use), toxicity, and environmental fate (based on physical and chemical properties). Prioritization method was applied to four families of pesticides: carbamates, organophosphorus compounds, phenylpyrazoles and neonicotinoids, for which there is a real lack of knowledge as regards the occurrence of their metabolites in metropolitan France. 146 pesticides have been prioritized. The first 50 molecules were considered allowing the identification of 72 metabolites to be monitored in water resources and along drinking water treatment plants

Disengagement of Somatostatin Neurons From Lateral Septum Circuitry by Oxytocin and Vasopressin Restores Social Fear Extinction and Suppresses Aggression Outbursts in a Prader-Willi Syndrome Model

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Correction of vasopressin deficit in the lateral septum ameliorates social deficits of mouse autism model

International audienceIntellectual and social disabilities are common comorbidities in adolescents and adults with MAGE family member L2 (MAGEL2) gene deficiency characterizing the Prader-Willi and Schaaf-Yang neurodevelopmental syndromes. The cellular and molecular mechanisms underlying the risk for autism in these syndromes are not understood. We asked whether vasopressin functions are altered by MAGEL2 deficiency and whether a treatment with vasopressin could alleviate the disabilities of social behavior. We used Magel2-knockout mice (adult males) combined with optogenetic or pharmacological tools to characterize disease modifications in the vasopressinergic brain system and monitor its impact on neurophysiological and behavioral functions. We found that the activation of vasopressin neurons and projections in the lateral septum were inappropriate for performing a social habituation/discrimination task. Mechanistically, the lack of vasopressin impeded the deactivation of somatostatin neurons in the lateral septum, which predicted social discrimination deficits. Correction of vasopressin septal content by administration or optogenetic stimulation of projecting axons suppressed the activity of somatostatin neurons and ameliorated social behavior. This preclinical study identified vasopressin in the lateral septum as a key factor in the pathophysiology of Magel2-related neurodevelopmental syndromes

Stone lines and heaps on south-western Niger plateaus as remains of ancient agricultural land

International audiencePlateaus on the western bank of the River Niger are covered with heaps and lines of dry stone although these tabular areas are now without any agriculture. A sandy clay soil horizon is present only in the areas where these structures are located, suggesting that they result from removing stones to improve the soil. The materials extracted were placed in lines or in heaps when there were too many stones. These plots could be contemporary with metallurgical activities located at the foot of plateaus and dated from the second half of the first millennium