Microplastics in the indoor environment
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2020 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10400.6/10565 |
Resumo: | Microplastics are plastic particles with sizes between 100 nm and 5 mm, being consideredan emerging class of contaminants with deleterious effects on the environment and human health.Polyethylene (PE), Polyvinyl Chloride (PVC) and polyamide (PA-commonlyknown as nylon) are three of the most common polymers used in buildings and construction, packaging,personal careproducts and clothing. Due to MPs ubiquity in the environment, especiallyindoor, humans are continuously exposed. However, only a few studies regarding the contamination of the indoor environment by microplastics and their effects on health were performed to date. This work intends to develop an integrated strategy to study the microplastics present in the indoor environment and their potentialdeleterious effects.For this, the levels of MPs in airborn and house dust samples were estimated and the cytotoxicity of three different MPs (polyethylene, PVC and polyamide) was evaluated in three cell lines, namely intestinal epithelial cells (Caco-2), hepatocytes (HepG2) and dopaminergic neurons (N27).In addition, and givingthe limitations of currently existing quantification techniques, a new strategy for isolating and purifying MPs from complex samples was developed using two-phase aqueous systems made up of ionic liquids. The results obtained from the analysis of MPs in air and dust samples using sodium chloride (NaCl) density separation and digestion with hydrogen peroxide (H2O2), and subsequent microscopic visualization after Nile Red staining showed that the largest amount of MPs corresponds to samples collected in kitchens. The new procedure developed for sample preparation using ILs generally allowed to extract the MPs from the dust matrix.However, the separation in a single step of the different MPs was not achieved and requires further optimization. Nevertheless, Raman spectroscopy proved to be efficient to identify MPs in house dust samples. The cytotoxicity tests showed that the dopaminergic neuron cell line was the most sensitive to microplastics’ exposure, with polyamide being the least toxic microplastic tested and PE the most toxic. For the tested concentrations (0.01; 0.1; 1; 10; 100; 1000; 2000; 4000 mg.L-1) the toxicity of the three MPs for intestinal epithelial cells and for hepatocytes was reduced, which shows the low toxicity of these MPs when tested in its pure and isolated, that is its native form without the addition of plasticizers, colourants, flame retardants or stabilizers. |
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Microplastics in the indoor environmentCitotoxicidadeEspectroscopia de RamanLíquidos IónicosMicroplásticosMicroscopia FluorescênciaPó DomésticoDomínio/Área Científica::Engenharia e Tecnologia::BiotecnologiaMicroplastics are plastic particles with sizes between 100 nm and 5 mm, being consideredan emerging class of contaminants with deleterious effects on the environment and human health.Polyethylene (PE), Polyvinyl Chloride (PVC) and polyamide (PA-commonlyknown as nylon) are three of the most common polymers used in buildings and construction, packaging,personal careproducts and clothing. Due to MPs ubiquity in the environment, especiallyindoor, humans are continuously exposed. However, only a few studies regarding the contamination of the indoor environment by microplastics and their effects on health were performed to date. This work intends to develop an integrated strategy to study the microplastics present in the indoor environment and their potentialdeleterious effects.For this, the levels of MPs in airborn and house dust samples were estimated and the cytotoxicity of three different MPs (polyethylene, PVC and polyamide) was evaluated in three cell lines, namely intestinal epithelial cells (Caco-2), hepatocytes (HepG2) and dopaminergic neurons (N27).In addition, and givingthe limitations of currently existing quantification techniques, a new strategy for isolating and purifying MPs from complex samples was developed using two-phase aqueous systems made up of ionic liquids. The results obtained from the analysis of MPs in air and dust samples using sodium chloride (NaCl) density separation and digestion with hydrogen peroxide (H2O2), and subsequent microscopic visualization after Nile Red staining showed that the largest amount of MPs corresponds to samples collected in kitchens. The new procedure developed for sample preparation using ILs generally allowed to extract the MPs from the dust matrix.However, the separation in a single step of the different MPs was not achieved and requires further optimization. Nevertheless, Raman spectroscopy proved to be efficient to identify MPs in house dust samples. The cytotoxicity tests showed that the dopaminergic neuron cell line was the most sensitive to microplastics’ exposure, with polyamide being the least toxic microplastic tested and PE the most toxic. For the tested concentrations (0.01; 0.1; 1; 10; 100; 1000; 2000; 4000 mg.L-1) the toxicity of the three MPs for intestinal epithelial cells and for hepatocytes was reduced, which shows the low toxicity of these MPs when tested in its pure and isolated, that is its native form without the addition of plasticizers, colourants, flame retardants or stabilizers.Os microplásticos (MPs) definidos como sendo partículas com tamanho entre 100 nm e 5 mm, são considerados contaminantes emergentes com efeitos deletérios no ambiente e na saúde humana.O polietileno (PE), policloreto de vinilo (PVC) e a poliamida (PA, mais conhecida por nylon), são três dos polímeros mais comuns sendo utilizados,por exemplo, em materiais de construção, embalagens, produtos de higiene e cuidado pessoal e vestuário. Devido à sua ubiquidade no meio ambiente, incluindo o ambiente doméstico, os seres humanos estão constantemente expostos.No entanto, ainda existem poucos estudos relativamente à contaminação do ambiente doméstico por microplásticos e seus efeitos na saúde. Com este trabalho pretende-se desenvolver uma estratégia integrada para estudar os microplásticos presentes no ambiente doméstico e os seus possíveis efeitos deletérios. Para tal, os níveis de MPs em amostras de ar e de pó doméstico foram avaliados e a citotoxicidade de três MPs distintos (polietileno, PVC e poliamida) foi avaliada em três linhas celulares, nomeadamente em células epiteliais intestinais (Caco-2), em hepatócitos (HepG2) e em neurónios dopaminérgicos (N27). Adicionalmente, e dadas as limitações das técnicas de quantificação de MPs atualmente existentes, foi desenvolvida uma nova estratégia de isolamento e purificação de MPs de amostras complexas recorrendo a sistemas aquosos bifásicos constituídos por líquidos iónicos. Os resultados obtidos da análise de MPs,em amostras de ar e de pó recorrendo a separação por densidade com cloreto de sódio (NaCl) e digestão com peróxido de hidrogénio (H2O2) e posterior visualização microscópica após coloração com vermelho do nilo, demostraram que a maior quantidade de MPs corresponde às amostrasrecolhidas na cozinha. O novo método desenvolvido para o tratamento das amostras, utilizando líquidos iónicos, permitiu extrair os MPs da matriz de pó.Contudo a separação dos diferentes MPs não foi possível e, por isso, esta técnica ainda precisa de ser otimizada. Ainda assim, a espetroscopia de Raman mostrou ser uma técnica eficiente para identificar MPs em amostras de pó doméstico. Os ensaios de citotoxicidade demostraram que a linha celular de neurónios dopaminérgicos foi a mais sensível à exposição a microplásticos, sendo a poliamida o microplástico testado menos tóxico e o PE o mais tóxico. Para as concentrações testadas (0,01; 0,1; 1; 10; 100; 1000; 2000; 4000 mg.L-1) a toxicidade dos três MPs para as células epiteliais intestinais e para hepatócitos foi reduzida oque demostra a baixa toxicidade destes MPs quando testados na sua versão pura e isoladamente, isto é, a sua forma mais nativa sem a adição de plastificantes, corantes, retardantes de chama ou estabilizadores.Pastorinho, Manuel Ramiro DiasSousa, Ana CatarinaBarata, Luís Manuel TabordauBibliorumValente, João Vasco Almeida Silva2023-02-01T01:30:21Z2020-03-062020-01-312020-03-06T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10400.6/10565TID:202544842enginfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2023-12-15T09:52:28Zoai:ubibliorum.ubi.pt:10400.6/10565Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T00:50:29.537460Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Microplastics in the indoor environment |
| title |
Microplastics in the indoor environment |
| spellingShingle |
Microplastics in the indoor environment Valente, João Vasco Almeida Silva Citotoxicidade Espectroscopia de Raman Líquidos Iónicos Microplásticos Microscopia Fluorescência Pó Doméstico Domínio/Área Científica::Engenharia e Tecnologia::Biotecnologia |
| title_short |
Microplastics in the indoor environment |
| title_full |
Microplastics in the indoor environment |
| title_fullStr |
Microplastics in the indoor environment |
| title_full_unstemmed |
Microplastics in the indoor environment |
| title_sort |
Microplastics in the indoor environment |
| author |
Valente, João Vasco Almeida Silva |
| author_facet |
Valente, João Vasco Almeida Silva |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Pastorinho, Manuel Ramiro Dias Sousa, Ana Catarina Barata, Luís Manuel Taborda uBibliorum |
| dc.contributor.author.fl_str_mv |
Valente, João Vasco Almeida Silva |
| dc.subject.por.fl_str_mv |
Citotoxicidade Espectroscopia de Raman Líquidos Iónicos Microplásticos Microscopia Fluorescência Pó Doméstico Domínio/Área Científica::Engenharia e Tecnologia::Biotecnologia |
| topic |
Citotoxicidade Espectroscopia de Raman Líquidos Iónicos Microplásticos Microscopia Fluorescência Pó Doméstico Domínio/Área Científica::Engenharia e Tecnologia::Biotecnologia |
| description |
Microplastics are plastic particles with sizes between 100 nm and 5 mm, being consideredan emerging class of contaminants with deleterious effects on the environment and human health.Polyethylene (PE), Polyvinyl Chloride (PVC) and polyamide (PA-commonlyknown as nylon) are three of the most common polymers used in buildings and construction, packaging,personal careproducts and clothing. Due to MPs ubiquity in the environment, especiallyindoor, humans are continuously exposed. However, only a few studies regarding the contamination of the indoor environment by microplastics and their effects on health were performed to date. This work intends to develop an integrated strategy to study the microplastics present in the indoor environment and their potentialdeleterious effects.For this, the levels of MPs in airborn and house dust samples were estimated and the cytotoxicity of three different MPs (polyethylene, PVC and polyamide) was evaluated in three cell lines, namely intestinal epithelial cells (Caco-2), hepatocytes (HepG2) and dopaminergic neurons (N27).In addition, and givingthe limitations of currently existing quantification techniques, a new strategy for isolating and purifying MPs from complex samples was developed using two-phase aqueous systems made up of ionic liquids. The results obtained from the analysis of MPs in air and dust samples using sodium chloride (NaCl) density separation and digestion with hydrogen peroxide (H2O2), and subsequent microscopic visualization after Nile Red staining showed that the largest amount of MPs corresponds to samples collected in kitchens. The new procedure developed for sample preparation using ILs generally allowed to extract the MPs from the dust matrix.However, the separation in a single step of the different MPs was not achieved and requires further optimization. Nevertheless, Raman spectroscopy proved to be efficient to identify MPs in house dust samples. The cytotoxicity tests showed that the dopaminergic neuron cell line was the most sensitive to microplastics’ exposure, with polyamide being the least toxic microplastic tested and PE the most toxic. For the tested concentrations (0.01; 0.1; 1; 10; 100; 1000; 2000; 4000 mg.L-1) the toxicity of the three MPs for intestinal epithelial cells and for hepatocytes was reduced, which shows the low toxicity of these MPs when tested in its pure and isolated, that is its native form without the addition of plasticizers, colourants, flame retardants or stabilizers. |
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2020 |
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2020-03-06 2020-01-31 2020-03-06T00:00:00Z 2023-02-01T01:30:21Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/masterThesis |
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publishedVersion |
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