Global ETD Search

71	Development and validation of a LC-MS/MS method for analysis of perfluorooctanesulfonic acid and perfluorooctaonic acid in liver organoid media Heggebø Rolfsen, Sandra January 2024 (has links) Per- and polyfluoroalkyl substances (PFAS) are organic synthetic compounds used in several industries because of their unique properties and thermal and chemical stability. Perfluorooctanesulfonic acid (PFOS) and perfluorooctaonic acid (PFOA) are two of the most prominent PFAS that are undegradable and accumulate in nature. To study the impact of PFOS and PFOA on the liver in a controlled environment, organoids can be used. A sensitive and selective LC-MS/MS method for individual and simultaneous analysis of PFOS and PFOA in liver organoid media and equipment used in organoid analyses was developed. For detection of low concentrations, ability to analyse complex organoid samples, and limit background contamination, a solid phase extraction (SPE) column, automatic filter (AFFL) and a trap column was included. The AFFL-SPE-LC-MS/MS was optimised efficiently through Design of Experiment (DoE) regarding the loading phase in the LC and six MS parameters for PFOS and PFOA. Validation was controlled against Eurachem’s guideline showing high sensitivity, detecting LOD at 6 pg/mL. The method demonstrated high repeatability with an RSD below 8 % for most samples. Simultaneous analysis of PFOS and PFOA demonstrated high selectivity. Nevertheless, the method showed low intermediate precision and varying reliability, as well as persistent background contamination limiting detection of lower concentrations. The method was fit for purpose and allowed rapid analysis of PFOS and PFOA in organoid media and equipment used in organoid analyses. Result from studies of PFAS in liver organoids through analysis with this method can aid in understanding the connection between PFAS and metabolic diseases. / Populärvetenskaplig sammanfattning Per- och polyfluorerade alkylsubstanser (PFAS) är en grupp av människoskapta, syntetiska ämnen med unika egenskaper. Dessa egenskaper gör att de är olja- och vattenavvisande, och har många applikationsområden. De finns i textiler, livsmedelsförpackningar, brandsläckningsskum och andra industriprodukter. De är väldigt termiskt och kemisk stabila, vilket gör att de inte bryts ner och därmed ackumulerar i miljön. Flera studier har också visat koppling mellan PFAS och många kroniska sjukdomar, som hormonstörningar, cancer, immunsuppression och metabolt associerad fettlever (MAFLD, tidigare nonalkoholisk fettlever (NAFLD)). Kopplingen mellan MAFLD och PFAS har fått mycket uppmärksamhet då levern har visats sig vara ett målorgan för PFAS. Eftersom PFAS är ihärdiga, har ett komplicerat spridningsbeteende och ackumulerar i naturen är det svårt att studera kopplingen mellan MAFLD och PFAS i en kontrollerad miljö. För att studera effekten av PFAS kan man använda organoider, laboratorieodlade 3D modeller gjord från stamceller för att imitera ett äkta organ. Någon av de mest omtalade PFAS ämnen är perfluoroktansyra (PFOA) och perfluoroktansulfonat (PFOS), vilket är fokus för detta arbete. Leverorganoiderna kan utsättas för PFOS och PFOA, och mediet de ligger i kan extraheras och studeras med konventionella analytiska metoder för att få en bild av hur PFAS påverkar levern. I detta arbete vill analysen ske via vätskekromatografi med masspektrometri som detektion (LC-MS/MS). Med LC-MS/MS separeras den studerade molekylen, analyten från lösningen baserat på dess kemiska egenskaper. Analyten detekteras baserat på dess massa, mer bestämd massa/laddning-fördelningen (m/z). För att anpassa LC-MS metoden till injektion av komplexa organoidprover inkluderades ett automatiskt filter (AFFL) samt ett extra automatiskt separationssteg med en kolonn med fastfasextraktion (SPE). I övrigt ger SPE möjligheten att små mängder PFAS kan uppkoncentreras och fokuseras på kolonnen, vilket ger en sensitiv metod som kan detektera låga koncentrationer. SPE och AFFL implementerades båda för att bättre kunna separera och detektera PFOS och PFOA från andra ämnen, samt filtrera bort föroreningar och stora molekyler som kan skada LC-MS/MS instrumentet i längden. Då PFAS hopar upp sig i vår omgivning, visade det sig att kontamination av PFAS från systemet blev en utmaning under metodutvecklingen. Därför implementerades PFAS fritt utstyr, samt en extra kolonn för att fånga PFAS från systemet och på så sätt minska bakgrundskontaminationen som detekterades. AFFL-SPE-LC-MS/MS metoden optimerades via en maskininlärningsbaserad optimeringsmetod baserad på parametrar i LC och MS. Metoden baserar sig på att, med tre värden för varje parameter, uppger programmet ett antal experiment som måste utföras för att kunna beräkna ett optimalt värde för varje parameter. Med resultatet från experimenten kan modellen matematiskt, genom en Bayes baserat Gaussian modell, uppskatta optimala värden för metoden. På så sätt kunde metoden optimeras systematiskt och tidseffektivt. Innan rutinanvändning måste den optimerade metoden valideras. Validering blev gjord genom at följa Eurachem’s riktlinjer. Metoden visade hög repeterbarhet, selektivitet och riktighet. Den har hög sensitivitet, och kan detektera låga mängder, men bakgrundskontaminationen kunde inte elimineras totalt, och gör att man måste korrigera för detta i rutinanalyser. Komplexiteten av AFFL-SPE-LC-MS/MS med flera kolonner och filter gjorde att metoden visade låg robusthet och behövde justeras ofta. AFFL-SPE-LC-MS/MS metoden gör det möjligt att snabbt studera PFOS och PFOA i leverorganoider och utstyr använt i organoidanalyser, och kan bidra i forskningen för att bättre förstå hur PFAS påverkar levern. / Health Effects of Persistent Organic Pollutants PFAS PFOS PFOA LC-MS method development validation optimalisation experimental design DoE AFFL-SPE-LC-MS/MS on-line SPE column switching multidimensional LC organoid liver organoid organoid media MAFLD NAFLD PFAS exposure PFAS PFOS PFOA LC-MS metodutveckling validering optimering AFFL-SPE-LC-MS/MS tandem-MS experiment design DoE organoid 3D organmodel Analytical Chemistry Analytisk kemi
72	Greener Water Repellency? Feasible alternatives to fluoro chemicals for DWOR treatments on textiles Åkerblom, Denize, Göranzon, Erik January 2014 (has links) BACKGROUND: Perfluorinated compounds (PFCs) have been used as durable water and oil repellent treatments in clothing for more than 50 years. The reason for its popularity is related to the chemical structure, which also makes these compounds persistent in the environment. Numerous studies have shown negative environmental and health effects related to high concentrations of perfluorinated compounds in blood serum. Due to these studies, this paper aimed to find out if perfluorinated compounds could be replaced by non-perfluorinated without compromising performance related to water and oil repellency. METHODOLOGY: A reference sample impregnated with fluorocarbons was compared with the following non-perfluorinated treatments, aliphatic polyurethane (comb polymer) organic silicone and acid (comb polymer) and hydrocarbon (dendrimer). Impregnations were subjected to abrasion, UV-radiation and washing and after each destructive treatment; oil and water repellency tests were conducted. The environmental and health effect of all treatments were examined in a theoretical study. RESULTS: Due to difficulties with the impregnation process, comparable results could only be concluded with the perfluorinated and the hydrocarbon compound. The hydrocarbon was superior the perfluorinated compound to abrasion but for usage simulation methods that allowed chemical reactions, hence UV-radiation and washing, the fluorocarbons showed better resistance. CONCLUSION: Results show that the hydrocarbon treatment could replace perfluorinated treatments commercially when only water and not oil repellency is required. The alternative treatments in this study are not yet sufficiently examined with respect to environmental and health and can therefore not be called greener with certainty. / Program: Textilingenjörsutbildningen Water and oil repellent treatments water and oil repellency DWR DWOR perfluorinated compounds PFCs perfluorooctanoic acid PFOA perfluorooctane sulfonates PFOS dendrimers organic silicon hydrocarbon hydrocarbon aliphatic polyurethane textiles outdoor clothing performance UV-radiation Martindale washing Engineering and Technology Teknik och teknologier
73	Prenatal Exposure to Perfluoroalkyl Acids and Serum Testosterone Concentrations at 15 Years of Age in Female ALSPAC Study Participants Maisonet, Mildred, Calafat, Antonia M., Marcus, Michele, Jaakkola, Jouni J.K., Lashen, Hany 01 December 2015 (has links) Background: Exposure to perfluorooctane sulfonic acid (PFOS) or to perfluorooctanoic acid (PFOA) increases mouse and human peroxisome proliferator–activated receptor alpha (PPARα) subtype activity, which influences lipid metabolism. Because cholesterol is the substrate from which testosterone is synthesized, exposure to these substances has the potential to alter testosterone concentrations. Objectives: We explored associations of total testosterone and sex hormone–binding globulin (SHBG) concentrations at age 15 years with prenatal exposures to PFOS, PFOA, perfluorohexane sulfonic acid (PFHxS), and perfluoronanoic acid (PFNA) in females. Methods: Prenatal concentrations of the perfluoroalkyl acids (PFAAs) were measured in serum collected from pregnant mothers at enrollment (1991–1992) in the Avon Longitudinal Study of Parents and Children (ALSPAC). The median gestational age when the maternal blood sample was obtained was 16 weeks (interquartile range, 11–28 weeks). Total testosterone and SHBG concentrations were measured in serum obtained from their daughters at 15 years of age. Associations between prenatal PFAAs concentrations and reproductive outcomes were estimated using linear regression models (n = 72). Results: Adjusted total testosterone concentrations were on average 0.18-nmol/L (95% CI: 0.01, 0.35) higher in daughters with prenatal PFOS in the upper concentration tertile compared with daughters with prenatal PFOS in the lower tertile. Adjusted total testosterone concentrations were also higher in daughters with prenatal concentrations of PFOA (β = 0.24; 95% CI: 0.05, 0.43) and PFHxS (β = 0.18; 95% CI: 0.00, 0.35) in the upper tertile compared with daughters with concentrations in the lower tertile. We did not find evidence of associations between PFNA and total testosterone or between any of the PFAAs and SHBG. Conclusions: Our findings were based on a small study sample and should be interpreted with caution. However, they suggest that prenatal exposure to some PFAAs may alter testosterone concentrations in females. perfluoroalkyl acids PFAA ALSPAC PFOS perfluorooctane sulfonic acid perfluorooctanoic acid PFOA perfluorohexane sulfonic acid PFHxS sex hormone–binding globulin SHBG perfluoronanoic acid PFNA Biostatistics and Epidemiology Endocrinology, Diabetes, and Metabolism Environmental Public Health Epidemiology
74	Role of PFOA and PFOS on Serum Apolipoprotein B, NHANES, 2005-2006 Maisonet, Mildred, Yadav, Ruby, Leinaar, Edward 01 September 2015 (has links) Background: Exposure to perfluorooctanoic acid (PFOA) and perfluorooctane sulfonic acid (PFOS) have been associated with higher circulating concentrations of total cholesterol (TC) and low density lipoprotein cholesterol (LDL-C). ApoB is the primary apolipoprotein component of LDL-C, and acts as a ligand for LDL-C receptors in various cells throughout the body. Circulating concentrations of ApoB are considered to be a better indicator of heart disease risk than TC or LDL-C. Objectives: Explore associations of concentrations of PFOA and PFOS with serum ApoB in adults. Methods: We analyzed data from 2744, 20-80 years old participants in the 2005–2006 National Health and Nutrition Examination Survey (NHANES). Linear regression models were used to estimate adjusted predicted means of serum ApoB (in g/L) for quartiles of PFOA and PFOS (in ng/mL) to describe patterns of associations. Results: Adjusted predicted mean concentrations of serum ApoB did not appear to vary meaningfully with increasing concentrations of PFOA (Q1 1.11, Q2 1.02, Q3 1.01, Q4 1.02) or increasing concentrations of PFOS (Q1 1.06, Q2 1.05, Q3 1.07, Q4 0.99) in study participants. Conclusions: Exposure to PFOA or PFOS does not appear to alter Apo B concentrations in adults. perfluorooctanoic acid PFOA perluorooctane sulfonic acid PFOS total cholesterol TC low density lipoprotein cholesterol LDL-C NHANES Biostatistics and Epidemiology Environmental Health and Protection Environmental Monitoring Environmental Policy Environmental Public Health Environmental Studies Epidemiology
75	Evaluation of distribution coefficients (KOC and Kd) for per- and polyfluoroalkyl substances Nordanstorm, Nika January 2021 (has links) The dominating factors affecting sorption of per- and polyfluoroalkyl substances (PFAS) remain subject of research and debate. Traditionally, distribution coefficients (e.g., Kd and KOC) are used to calculate the fractionation of the contaminant between soil and water, to estimate leaching and subsequently the risks it imposes reaching water reservoirs. Research has aimed to establish the sorption mechanisms for PFAS but, due to the complexity of interactions between the substance specific physiochemical properties and geochemical sorbent characteristics, it has shown to be a complicated task. For PFOS, one of the most commonly encountered PFAS, the Swedish Geotechnical Institute (SGI) recommends using the 10th percentile of a small data set for the organic carbon-water distribution coefficient KOC (500 L/kg) and multiply this with the organic content of the in-situ soil to obtain the soil-water distribution coefficient (Kd). The result of this study shows that this method is insufficient to obtain a good approximation of the mobility of PFOS at a contaminated site. With a review of recent research on PFAS sorption and a case study performed at Stockholm Arlanda Airport, this study concludes that as of today, and due to PFAS potent mobility, well measured field coefficients for each soil type present in the soil profile and an elaborate geohydrological model is necessary to estimate PFAS environmental transport, fate and associated risks. It also concludes that parameters such as anionic exchange capacity and soil protein content may be highly relevant to estimate PFAS sorption. PFAS PFOS organic contaminant sorption Kd KOC distribution coefficient solubility mobility environmental fate environmental transport contaminated site hydrophobic interaction electrostatic interaction Environmental Sciences Miljövetenskap Earth and Related Environmental Sciences Geovetenskap och miljövetenskap Natural Sciences Naturvetenskap
76	Exposition prénatale aux substances perfluoroalkylées et développement neurocomportemental et social des jeunes enfants Saha, Trisha 08 1900 (has links) Les substances perfluoroalkylées (PFAS) sont des composés synthétiques utilisés dans une multitude de domaines pour leurs propriétés hydrofuges, antiadhésives et antitaches exceptionnelles. Cependant, ces contaminants, dont la neurotoxicité a été démontrée dans les études in vitro et in vivo, sont capables de traverser la barrière placentaire et d’atteindre le fœtus en développement. Bien qu’une multitude d’études épidémiologiques aient été conduites pour examiner l’association entre l’exposition prénatale aux PFAS et le neurodéveloppement des enfants, il n’y a pas de consensus dans la littérature : certaines rapportent des associations délétères, et d’autres protectrices ou nulles. Le but de cette étude est d’évaluer l’association entre l’exposition aux PFAS chez les femmes enceintes et le développement neurocomportemental et social des enfants pendant la petite enfance. Nous avons également examiné si le lien différait entre les filles et les garçons. Les données de l’étude Maternal-Infant Research on Environmental Chemicals (MIREC), une cohorte de grossesse pancanadienne, ont été utilisées. L’exposition prénatale à trois PFAS (acides perfluorooctanoïque (PFOA), perfluorooctanesulfonique (PFOS) et perfluorohexane sulfonique (PFHxS)) ainsi que leur somme (ΣPFAS) a été mesurée dans le plasma maternel prélevé durant le premier trimestre de grossesse. Lorsque les enfants étaient âgés de trois-quatre ans, les mères ont été invitées à remplir deux questionnaires sur leurs enfants : le Behaviour Assessment System for Children–2 (BASC-2), pour évaluer les difficultés émotionnelles et comportementales, et le Social Responsiveness Scale–2 (SRS-2), afin d’évaluer le développement social. À partir des données de 794 paires mère-enfant, des analyses de régressions linéaires multiples, avec ajustement pour des facteurs de confusion, ont été réalisées, et les coefficients d’association ont été calculés pour un doublement des concentrations de PFAS. La modification des associations selon le genre a été examinée au moyen de termes d'interaction et d'analyses stratifiées. Bien que la majorité des associations obtenues soient nulles, pour l’ensemble du groupe étudié, un doublement de l’exposition prénatale aux PFOS était lié à moins de déficits de motivation sociale (β = -1.03; IC : -1.88, -0.17) et le PFHxS à plus de comportements atypiques (β = 0.57; 0.04, 1.11). Cependant, les analyses selon le genre ont révélé que chez les garçons seulement, un doublement de l’exposition prénatale aux PFOA était significativement associée à des scores plus faibles pour les sous-échelles suivantes : indice des symptômes comportementaux, problèmes d'externalisation, agressivité et hyperactivité (β allant de -1.87 à -1.32). Le PFOS et la ΣPFAS étaient aussi liés à moins d’agressivité chez les garçons (β = 1.20; -2.27, -0.13 et β = -1.35; -2.55, -0.15 respectivement). À l’inverse, chez les filles, le PFOA était significativement lié à plus de symptômes d’anxiété, et le PFHxS et la ΣPFAS étaient liés à plus de problèmes de cognition sociale (β allant de 0.90 à 1.81). Dans l’ensemble, les données suggèrent que l’association entre l’exposition prénatale aux PFAS et le développement neurocomportemental et social des enfants semble différer selon le genre : un effet protecteur est observé chez les garçons, tandis qu’il ressort délétère chez les filles. Les résultats obtenus dans cette cohorte canadienne de grande taille corroborent ceux notés dans certaines études épidémiologiques rapportant un lien délétère, lequel est surtout observable chez les filles. / Perfluoroalkyl substances (PFAS) are synthetic compounds used in a wide range of fields for their exceptional water-repellent, non-stick, and stain-resistant properties. However, these contaminants, whose neurotoxicity has been demonstrated in in vitro and in vivo studies, can crossthe placental barrier, and reach the developing fetus. Although numerous epidemiological studies have been conducted to examine the association between prenatal exposure to PFAS and the neurodevelopment in children, there is no consensus in the literature: some report deleterious associations, while others report protective or null associations. The aim of this study is to investigate the association between PFAS exposure in pregnant women and the neurobehavioral and social development of children during early childhood. We also examined whether the association differed between girls and boys. We used data from the Maternal-Infant Research on Environmental Chemicals (MIREC) study, a pan-Canadian pregnancy cohort. Prenatal concentrations of three PFAS (perfluorooctanoic (PFOA), perfluorooctanesulfonic (PFOS) and perfluorohexanesulfonic acids (PFHxS)), as well as their sum (åPFAS), were measured in maternal plasma collected during the first trimester of pregnancy. When the children were three to four years old, mothers were asked to complete two questionnaires about their children: the Behaviour Assessment System for Children-2 (BASC-2) to assess emotional and behavioural difficulties, and the Social Responsiveness Scale-2 (SRS-2) to assess social development. Using data from 794 mother-child dyads, multiple linear regression analyses, with adjustment for confounding factors, were performed and regression coefficients were estimated to assess whether there was an association between each doubling of PFAS concentrations and test scores. Effect modification by child gender was examined using interaction terms and stratified analyses. For the entire study group, although most of the associations found were null, a doubling of prenatal PFOS exposure was linked to fewer social motivation deficits (β = -1.03; CI: -1.88, -0.17), and increased PFHxS was linked to more atypical behaviors (β = 0.57; 0.04, 1.11). However, gender-stratified analyses revealed that in boys only, each doubling of prenatal PFOA exposure was significantly associated with lower scores on the following BASC-2 subscales: Behavioral Symptoms Index, Externalizing Problems, Aggressivity and Hyperactivity (β ranging from -1.87 to -1.32). PFOS and åPFAS were also associated with less aggression in boys (β = 1.20; -2.27, -0.13 and β = -1.35; -2.55, -0.15 respectively). Conversely, in girls only, PFOAwas significantly associated with more symptoms of anxiety, and PFHxS and ∑PFAS were associated with more social cognition problems (β ranging from 0.90 to 1.81). Overall, the data suggest that the association between prenatal PFAS exposure and the neurobehavioral and social development of children appears to differ by gender: a protective effect is observed in boys, while a detrimental effect is seen in girls. The results obtained in this large Canadian cohort are consistent with findings from some epidemiological studies reporting a harmful link predominantly in girls. substances perfluoroalkylées acide perfluorooctanesulfonique pfas pfos acide perfluorooctanoïque pfoa acide perfluorohexane sulfonique pfhxs exposition prénatale exposition maternelle neurodéveloppement neurotoxicologie perfluoroalkyl substances perfluorooctanesulfonate perfluorooctanoate perfluorohexane sulfonate prenatal exposure maternal exposure neurodevelopment neurotoxicology
77	Identification of transcriptional changes indicative of retinoic acid receptor disruption in mouse neural progenitor cells Nur, Fathi January 2022 (has links) PFOS (pluorooctane sulfonic acid) and PCB 180 (2,2′,3,4,4′,5,5′-heptachlorobiphenyl) are endocrine-disrupting chemicals (EDCs) ubiquitously found throughout the environment, given their persistence and extreme long biological half-life. PFOS and PCB 180 are predicted to disrupt retinoic acid receptor (Rar) signaling, interfering with important events of brain development, including neural differentiation and proliferation. Despite accumulating reports on the adversities of these EDCs, studies on the underlying mechanism continue to be largely unknown. The aim of this study was to validate transcriptional markers predictive of Rar disruption and to assess whether the same effects are induced by PFOS and PCB 180 exposure. Murine neural progenitor C17.2 cells were employed to mimic the developing brain. The cells were exposed to increasing nanomolar concentrations (nM) of Rar (ant)agonist, PFOS, and PCB 180. Interestingly, of all the transcriptional markers investigated, Ccn2 (cellular communication network factor 2), Il18 (Interleukin -18), and Ntn1(Netrin 1) were significantly altered by the Rar agonist (P< 0.05). Likewise, the expression of Il18 and Ntn1 was also altered by developmental exposure to PFOS and PCB 180. Altogether, these findings indicate that Il18 and Ntn1 may be promising markers for studying developmental neurotoxicity induced by disruption of the retinoic acid pathway. Endocrine-disrupting chemicals Retinoic acid PFOS (pluorooctane sulfonic acid) PCB 180 (2 2′ 3 4 4′ 5 5′-heptachlorobiphenyl) Ntn1 (Netrin 1) Il18 (Interleukin -18) Neural progenitor C17.2 cells Immunology Immunologi Microbiology Mikrobiologi Other Biological Topics Annan biologi

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