Avaliacao da contaminacao por elementos inorganicos e esteres ftalicos em poeira domestica da regiao metropolitana de Sao Paulo / Assessment of contamination for inorganic elements and phthalate esters in household dust from the metropolitan region of São Paulo

SCAPIN, VALDIRENE de O.

09 October 2014

Made available in DSpace on 2014-10-09T12:27:18Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:13Z (GMT). No. of bitstreams: 0 / A poeira doméstica tem sido identificada como um importante vetor de exposição por substâncias inorgânicas e orgânicas, potencialmente tóxicas, em crianças e adultos. A composição da poeira tem uma forte influência de contaminantes provenientes de ambientes internos e externos. Durante o uso normal ou por intempéries, de uma variedade de artefatos e materiais, as substâncias químicas são desincorporadas para o meio ambiente. Uma vez liberadas, elas tendem a se acumular e enriquecer na poeira doméstica; e por meio de exposição contínua (mecanismos de inalação, ingestão e contato direto com a pele) afeta a saúde humana. Neste trabalho, foi realizada uma avaliação da contaminação por constituintes inorgânicos e ésteres ftálicos em poeira doméstica; e a correlação com as prováveis fontes antropogênicas. As amostras de poeira foram coletadas de 69 residências, nos bairros Pirituba, Freguesia do Ó, Jaraguá e Perus, da região metropolitana de São Paulo, entre 2006 e 2008. As amostras foram separadas nas frações: 850, 850-300, 300-150, 150-75, 75- 63 e <63 &mu;m. A análise por fluorescência de raios X (WDXRF) mostrou a presença de Na, Mg, Al, Si, P, S, Cl, K, Ca, Ti, Cr, Mn, Fe, Ni, Cu, Zn, Br, Rb, Sr, Zr e Pb. A análise por cromatografia de fase gasosa acoplada o espectrômetro de massa (GCMS) a presença de ésteres ftálicos (DEHP, DnBP, DEP, DEHA, BBP e DMP). A partir do fator de enriquecimento (FE), os elementos P, S, Cr, Ni, Cu, Zn e Pb foram classificados como sendo significantemente e extremamente enriquecidos na poeira. As contribuições naturais e antropogênicas foram identificadas por meio de ferramentas estatísticas como análise de fatores (AF) e cluster (AC). Os elementos Cr, Ni, Cu, Zn e Pb foram encontrados em concentrações significativamente elevadas com relação aos valores de exposição total (ingestão, inalação e contato dérmico) e de risco. / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP

brazil

dusts

households

contamination

inorganic compounds

phthalates

esters

indoor air contamination

Gene Expression Changes from Exposure to Phthalates in Testicular Cells

Nguyen, Bryan

January 2012

Phthalates are industrial plasticizers with a wide range of applications. Di-(2-ethylhexyl) phthalate (DEHP) is one of the most highly produced and frequently studied phthalates. Its metabolite, mono-(2-ethylhexyl) phthalate (MEHP) is known as a testicular toxicant. The objective of this study was to examine expression of the genes of interest in testicular germ cells exposed to MEHP in a dose- and time-dependent manner at concentrations of 1µM, 10µM, and 100µM at 24, 48, 72 and 96hr time points. The genes consisted of Testisin, GSPT1, and MGMT genes which are a tumor suppressors, phase II xenobiotic metabolizing enzyme and DNA repair gene respectively. These genes were analyzed by Quantitative Real Time PCR (RT-PCR). The results revealed an overall down-regulation for each gene as the concentration and/or time increased. Testisin was the focus of the gene expression analysis. Testisin is epigenetically silenced in testicular germ cell tumors (TGCT) by DNA methylation at the 5’CpG island of the gene. To investigate if MEHP is capable of DNA hypermethylation, a co-exposure with 5-azacytidine (demethylating agent) was conducted. Compared with the 5-azacytidine treatment alone, there was a significant down-regulation of the Testisin gene in the co-exposure. This suggests that MEHP may down-regulate Testisin gene expression by DNA methylation. These findings provide evidence that MEHP can alter the expression of Testisin, GSTP1 and MGMT, genes that are associated in the risk of developing testicular germ cell tumors. In addition, results indicated that MEHP may cause DNA methylation leading to the down-regulation/silencing of genes such as Testisin.

phthalates

mono-(2-ethylhexyl) phthalate

gene expression

methylation

testicular germ cell tumours

Association of Perfluorinated Chemicals with Endocrino-Carcinogenetic, Obesogenic and Metabolic Health and with Markers of Chronic Inflammation and Oxidative Stress

Omoike, Ogbebor Enaholo

01 May 2020

First, this study examined the association of perfluorinated chemicals with 1) cardio-metabolic health outcomes and 2) the association of phthalates with cardiometabolic health outcomes, and 3) cardio-metabolic health outcomes while assessing the possibility of additive interactions between perfluorinated chemicals (PFCs) and phthalates. Second, association with markers of chronic inflammation and oxidative stress were explored. Finally, this study examined the association of these chemicals with estrogenic cancers- Breast cancer, prostate cancer, uterine cancer and ovarian cancer. Using data from the National Health and Nutrition Examination Survey (NHANES), logistic regression models were used to investigate the relationship between PFCs and the cardio-metabolic health outcomes adjusting for covariates. An interaction term between PFCs and phthalates was added to the main effect model to assess the possibility of effect modification. Generalized linear models were used to examine associations between PFCs and inflammatory and oxidative stress markers per unit increase in exposure to PFCs while adjusting for covariates. Binomial logistic regression was used in investigating the association between quartiles of PFCs and presence or absence of cancer while also adjusting for covariates. Discriminant analysis was used to assess the correlation between individual PFCs compounds and individual cancer categories. Perfluorononanoic acid (PFNA) was associated with increased odds of central obesity in females, odds ratio (OR): 1.10; 95% confidence interval (CI): (1.01, 1.21). Perfluorohexane sulfonic acid (PFHS), Perfluorononanoic acid (PFNA), Perfluorooctanoic acid (PFOA), Perfluorooctane sulfonic acid (PFOS), and Perfluorodecanoic acid (PFDE) were all significantly associated with lymphocyte counts. Beta (95% CI); 0.03(0.02,0.05), 0.04(0.02,0.05), 0.05(0.03, 0.07), 0.04(0.03,0.05), 0.03(0.01,0.04) and with serum iron 0.07(0.05,0.09), 0.04(0.02,0.07), 0.10(0.07,0.12), 0.05(0.03,0.07), 0.04(0.02,0.06) and serum albumin 0.02(0.02,0.02), 0.02(0.02,0.03), 0.03(0.03,0.04), 0.02(0.02, 0.023), 0.01 (0.01, 0.05). Only PFHS, PFNA, PFOA and PFOS were associated with serum total bilirubin 0.04(0.03,0.05), 0.02(0.00,0.03), 0.06(0.04,0.08), 0.03(0.02,0.05). PFCs studied were associated with increased odds of breast, prostate, uterine and ovarian cancers, p

Cancer

Obesity

Inflammation

Phthalates

Estrogen

Clinical Epidemiology

Environmental Public Health

Epidemiology

Polluants environnementaux et développement du testicule foetal humain : effets et mécanismes des phtalates / Environmental pollutants and human fetal testis development : phthalates effects and mechanisms of action

Muczynski, Vincent

11 April 2011

Au cours des dernières décennies, nous avons progressivement vu augmenter un certain nombre d’anomalies de la fonction de reproduction masculine dans les pays industrialisés. Ces constatations ont fait émerger l’hypothèse selon laquelle certains polluants de notre environnement pourraient altérer le développement du testicule fœtal et ainsi être responsables de ces anomalies. Parmi les composants incriminés se trouvent les phtalates, largement répandus dans l’environnement. Ces composés ont été décrits comme reprotoxiques, ils altèrent le développement de la lignée germinale dans différentes espèces et entraînent une diminution de la production de testostérone chez le rat. Toutefois, très peu de données sont disponibles quant à leurs effets chez l’Homme. Dans cette étude, nous avons analysé les effets d’un phtalate, le MEHP, sur le développement du testicule fœtal humain au premier trimestre de la grossesse, dans un modèle de culture organotypique qui permet le maintien des différentes structures de l’organe. Nous avons tout d’abord démontré que le MEHP (10-4M) n’altère pas la production de testostérone du testicule fœtal humain, contrairement aux résultats décrits chez le rat. En revanche, nous avons montré que l’exposition au MEHP entraîne une rapide diminution du nombre de cellules germinales par apoptose. A la suite de ces résultats, nous avons testé l’effet de doses plus faibles de MEHP afin de se placer à des concentrations de phtalates ayant été mesurées dans les liquides biologiques. Nous avons ainsi démontré que les cellules germinales du testicule fœtal humain sont altérées suite à l’exposition à des doses de MEHP de 10-5M. Enfin, dans la 3ème partie de ce travail, nous nous sommes intéressés aux mécanismes d’action des phtalates. Différentes études, notamment dans le foie, démontrent l’implication des récepteurs nucléaires dans les effets de ces composés. Il nous a donc semblé important de rechercher leur implication dans les effets des phtalates sur le testicule fœtal. Nous avons démontré que LXRα est très certainement impliqué ces effets puisque l’expression des ARNm de ce récepteur est augmentée. Par ailleurs, ce récepteur nucléaire contrôle deux voies métaboliques, la synthèse de cholestérol et la synthèse des acides gras qui semblent toutes deux modulées par les phtalates dans le testicule fœtal humain. Enfin, nous avons montré que l’implication de ces voies métaboliques est commune entre la gonade mâle et la gonade femelle, sans pour autant que l’effet sur les cellules germinales mâles ai pu être mis en évidence dans l’ovaire fœtal. En conclusion, cette étude a contribué à caractériser les effets des phtalates sur la mise en place des fonctions de reproduction chez le fœtus humain. Nous avons également pu mettre en évidence un nouveau mécanisme de ces composés, impliquant la superfamille des récepteurs nucléaires ainsi que la synthèse du cholestérol et des acides gras. / Since the last decades, an increase in several abnormalities of the male reproductive function has been progressively evidenced in industrialized countries. According to these observations, it was hypothesized that exposure to some environmental pollutants may impair the fetal testis development, and therefore be at the origins of those abnormalities. Among incriminated compounds, phthalates are molecules highly produced worldwide. These compound are classified as reprotoxic molecules, as they disrupt the development of the germ cell lineage in different species and lead to a decrease in testosterone production in rat. Nevertheless, very few data are available concerning their effects in human. In this study we analyzed the effects of one phthalate, the MEHP, on the human fetal testis development during the first trimester of pregnancy. It was performed using an organotypic culture system that allows the preservation of the different testis structures. We first demonstrated that MEHP (10-4M) does not affect testosterone production of the human fetal testis, in opposition to the results described in rat. We also have demonstrated that MEHP exposure triggers apoptosis in the fetal germ cells, leading to a quick decrease in the total number of these cells. Following those results, we tested the effects of lower doses of MEHP that are close to the highest doses measured in human biological fluids. We therefore demonstrated that fetal germ cells are altered by exposure to this dose of MEHP (10-5M). Finally, in the third part of this work, we focused on the mechanisms of action of phthalate toxicity. Different studies, mostly in the liver, report the involvement of the nuclear receptor superfamilly in the effect of those compounds. Thus, it seemed important to investigate their implication in the effect of phthalates on the human fetal testis. We demonstrated that LXRα is certainly implicated in these effects as its transcriptional level is increased. Moreover, this nuclear receptor regulates two metabolic pathways: Cholesterol and fatty acid synthesis pathways, that seemed to by both modulated by phthalate exposure in the human fetal testis. We also showed that the modulation of these two metabolic pathways is a common process to both the male and female gonads. Nevertheless, the germ cell decrease we evidenced in the human fetal testis was never observable in the fetal ovary. In conclusion, this work contributed to improve our knowledge about the effects of phthalate exposure on the establishment and the development of the human fetal reproductive system. We also have evidenced a new mechanism of these compounds that involves members of the nuclear receptors superfamilly, as well as cholesterol and fatty acid synthesis.

Phtalates

Testicule fœtal humain

Développement testiculaire

Cellule germinale

Phthalates

Human fetal testis

Testis development

Germ cell

Phthalate replacement by fast fusing non-phthalate plasticizer / Snabbfusionerande ftalatfri mjukgörare - ett alternativ till ftalater

Tommie, Ibert

January 2016

A key trend in the PVC market is to replace or decrease the amount of phthalate plasticisers used due to increasing health concerns. Therefore, the demand for non-phthalate based plasticisers is growing rapidly. Mineral oils are used in a variety of rubber and polymer applications as plasticisers; however, due to the lower polarity their applicability in PVC compounds is limited. Therefore, these materials are typically used as secondary plasticiser along with a primary for the purpose of improved properties and cost reduction. Some of the non-phthalate based solutions are fast fusing plasticisers, which act like solvents and have too rapid and too high plasticizing effect. This makes the compounding difficult and could cause problems in production. These substances have good compatibility with mineral oils, and using them together in PVC compounds can help the compounding issue by reducing the solvent power and increasing the fusion time to a level where the production parameters are similar to compounding with phthalates.   The aim of this study was to evaluate the use of mineral oils as a secondary plasticiser in a non-phthalate system for PVC. Four different grades of mineral oil and three non-phthalate plasticisers were used in compounding and compression moulding of PVC sample films. Mechanical, physical and chemical testing were done to assess the properties in a comparative study with phthalate plasticized PVC.   Tensile testing and hardness measurements showed that the mineral oils did not contribute with any plasticizing effect for the non-phthalate plasticisers tested in the study. The hardness was instead slightly increased for all the sample films that contained mineral oil. This indicates that the mineral oil either is less efficient than the primary plasticiser or that it affects the primary plasticisers intramolecular shielding between the PVC chains.       The shrinkage test showed that the migration of mineral oil was acceptable, especially the thicker grades of mineral oils had low migration. Colour stability test showed that the thicker mineral oil grades had some problems with discolouration. The discolouration is probably related to content of polyaromatics and oxidation stability.

Non-phthalate

PVC

Plasticiser

Phthalates

Oil

Fusion

Gelation

Phthalate free

Polymer Technologies

Polymerteknologi

Effects of a phthalate mixture on Wnt/β-catenin signaling, apoptosis and metabolic rate in zebrafish embryos

Bountis, Stavros

January 2020

One of the most common plasticizers used in the production of plastic are phthalates. These chemicals have been associated with many adverse effects including developmental and reproductive anomalies. Early developmental processes targeted by chemicals can have long-lasting effects on individuals. The focus of this study was on investigating the effects of a phthalate monoester mixture on two evolutionarily conserved processes, Wnt/β-catenin signaling and apoptosis, both of which play an important role during development. Focus was also given on the mixture’s effect in metabolic rate. The phthalate mixture used is part of mixture G, a mixture which additionally contains triclosan and three perfluoroalkyl acids. The components of Mixture G were identified in a Swedish pregnancy cohort (SELMA) and were inversely associated with birth weight. The experiments were conducted in zebrafish embryos. Wnt signaling was analyzed in a transgenic zebrafish line, which had the EGFP gene linked to β-catenin regulated promoters, by measuring the fluorescence in the caudal fin. Apoptosis was analyzed through the acridine orange assay and metabolic rate through the transformation of resazurin to resorufin in presence of NADH/NADPH. The results showed a downregulation of Wnt signaling in zebrafish at two days post-fertilization (2 dpf), at a water concentration 100 times higher than the geometric mean serum concentration (100x hsc) of the mothers in the SELMA cohort. An upregulation of apoptosis was found at 1 dpf, at 60x hsc and 100x hsc. An effect on metabolic rate was observed at 100x hsc at 5 dpf. The results indicate that phthalates can disrupt Wnt signaling, induce apoptosis and influence metabolic rate, which along with the various reproductive effects they can induce warrants cause for concern not only for zebrafish embryos but for human fetuses as well.

phthalates

Wnt/β-catenin signaling

apoptosis

zebrafish

metabolic rate

Other Biological Topics

Annan biologi

Seminal Plasma Metabolome in Relation to Semen Quality and Urinary Phthalate Metabolites Among Chinese Adult Men

Wang, Yi Xin, Wu, Yan, Chen, Heng Gui, Duan, Peng, Wang, Liang, Shen, He Qing, Lu, Wen Qing, Sun, Bin, Wang, Qi, Zhang, Bo, Chavarro, Jorge E., Zhang, Jie, Pan, An

01 August 2019

Background: A growing body of evidence has found links between endocrine disruptor phthalates and male reproductive disorders, but the mechanisms underlying these relationships are poorly known. Seminal plasma metabolomes may mediate associations of phthalate exposure with impaired semen quality. Objective: To identify seminal plasma metabolomes associated with poor semen quality and evaluate their associations with urinary phthalate metabolites among 660 Chinese adult men. Method: The seminal plasma metabolic profiles were acquired using an untargeted approach based on liquid chromatography-high resolution mass spectrometry. We explored the differences in seminal plasma metabolites between participants with poor and good semen quality and evaluated cross-sectional associations between discriminatory metabolic biomarkers and urinary phthalate metabolites. Results: Differences between poor and good semen quality groups were observed in relation to 25 seminal plasma metabolites, mostly related to the metabolism of polyunsaturated fatty acids (PUFA) and acylcarnitine (all p < 0.05). After adjusting for various confounders and multiple tests, metabolites were all significantly associated with one or more individual sperm quality parameters (motility, concentration, total count, and morphology) (all p < 0.05). Among identified metabolic biomarkers, seminal plasma L-palmitoylcarnitine, linoelaidyl carnitine, and oleic acid were inversely associated with urinary mono-(2-ethylhexyl) phthalate (MEHP), and seminal plasma L-acetylcarnitine was inversely associated with the proportion of di-(2-ethylhexyl)-phthalate metabolites (DEHP) excreted as MEHP in urine (%MEHP) (all p < 0.05). Mediation analysis revealed that oleic acid and L-acetylcarnitine mediated significant proportions (6.7% and 17%, respectively) of the positive associations between urinary DEHP metabolites and the percentage of spermatozoa with an abnormal head. Conclusions: Elevated urinary phthalate metabolites may impact semen quality by causing metabolic disorders of seminal plasma PUFAs and acylcarnitine. These pathways warrant further investigation.

phthalates

reproductive-aged men

semen quality

seminal plasma metabolome

Biostatistics and Epidemiology

Drinking Water and Autism: Using Spatial Cluster Detection to Explore Patterns of Autism Cases in Lane County, Oregon

Sandreth, Sherry

01 January 2016

Autism Spectrum Disorders (ASD) are a complex array of neurological disorders with a diverse presentation, multiple etiologies, and long-term ramifications. Prevalence of ASD in the United States is about 1 in 50 children as of 2013, making it a significant public health problem. The etiology is not understood, and it is widely accepted that it is multicausal, with genetic and environmental influences. Prior research suggests an association between water source and ASD. Contaminants such as lead, arsenic, mercury, pharmaceuticals and pesticides found in water are associated with developmental disorders suggesting that a systematic review focused on water source was warranted. Following the integrative model of environmental health (IMEH), this study explored the relationship of water source and ASD prevalence among children in Lane County, Oregon. This cross-sectional study utilized retrospective data of 91 open cases in April 2014. The study used chi square and geographical information systems (GIS) aided by cluster analysis to generate risk maps. Investigation of sociodemographic variables allowed comparisons to national data by zip code. Findings indicated no significant relationships or clusters of ASD populations by zip code, and no significant relationships to comorbidities between private or municipal water supplies. The IMEH framework enabled an in-depth data characterization of ASD and underscored the need for additional environmental data and universally standardized comorbidity definitions. Implication for positive social change include recognizing the importance of using social services data in the search for ASD risk factors.

Asperger's syndrome

autism

high-functioning autism

phthalates

prenatal

water

Environmental Health and Protection

Medicine and Health Sciences

Three molecular materials studied by positive muons and magnetometry

Lovett, Brendon

January 2000

No description available.

539.7

What contributes to human body burdens of phthalate esters? : An experimental approach

Giovanoulis, Georgios

January 2017

Phthalate esters (PEs) and alternative plasticizers used as additives in numerous consumer products are continuously released into the environment leading to subsequent human exposure. The ubiquitous presence and potential adverse health effects (e.g. endocrine disruption and reproductive toxicity) of some PEs are responsible for their bans or restrictions. This has led to increasing use of alternative plasticizers, especially cyclohexane-1,2-dicarboxylic acid diisononyl ester (DINCH). Human exposure data on alternative plasticizers are lacking and clear evidence for human exposure has previously only been found for di(2-ethylhexyl) terephthalate (DEHTP) and DINCH, with increasing trends in body burdens. In this thesis, a study population of 61 adults (age: 20–66; gender: 16 males and 45 females) living in the Oslo area (Norway) was studied for their exposure to plasticizers. Information on sociodemographic and lifestyle characteristics that potentially affect the concentrations of PE and DINCH metabolites in adults was collected by questionnaires. Using the human biomonitoring approach, we evaluated the internal exposure to PEs and DINCH by measuring concentrations of their metabolites in urine (where metabolism and excretion are well understood) and using these data to back-calculate daily intakes. Metabolite levels in finger nails were also determined. Since reference standards of human metabolites for other important alternative plasticizers apart from DINCH (e.g. DEHTP, di(2-propylheptyl) phthalate (DPHP), di(2-ethylhexyl) adipate (DEHA) and acetyl tributyl citrate (ATBC)) are not commercially available, we further investigated the urine and finger nail samples by Q Exactive Orbitrap LC-MS to identify specific metabolites, which can be used as appropriate biomarkers of human exposure. Many metabolites of alternative plasticizers that were present in in vitro extracts were further identified in vivo in urine and finger nail samples. Hence, we concluded that in vitro assays can reliably mimic the in vivo processes. Also, finger nails may be a useful non-invasive matrix for human biomonitoring of specific organic contaminants, but further validation is needed. Concentrations of PEs and DINCH were also measured in duplicate diet, air, dust and hand wipes. External exposure, estimated based on dietary intake, air inhalation, dust ingestion and dermal uptake, was higher or equal to the back-calculated internal intake. By comparing these, we were able to explain the relative importance of different exposure pathways for the Norwegian study population. Dietary intake was the predominant exposure route for all analyzed substances. Inhalation was important only for lower molecular weight PEs, while dust ingestion was important for higher molecular weight PEs and DINCH. Dermal uptake based on hand wipes was much lower than the total dermal uptake calculated via air, dust and personal care products, but still several research gaps remain for this exposure pathway. Based on calculated intakes, the exposure risk for the Norwegian participants to the PEs and DINCH did not exceed the established tolerable daily intake and reference doses, and the cumulative risk assessment for combined exposure to plasticizers with similar toxic endpoints indicated no health concerns for the selected population. Nevertheless, exposure to alternative plasticizers, such as DPHP and DINCH, is expected to increase in the future and continuous monitoring is required. Findings through uni- and multivariate analysis suggested that age, smoking, use of personal care products and many other everyday habits, such as washing hands or eating food from plastic packages are possible contributors to plasticizer exposure. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

Phthalates

Alternative plasticizers

DINCH

In vivo screening

Urine

Nails

Air

Dust

Hand wipes

Duplicate diet

Predictors of exposure

Environmental Sciences

Miljövetenskap