PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2012 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações do UNICENTRO |
| Texto Completo: | http://localhost:8080/tede/handle/tede/422 |
Resumo: | The inorganic sunscreens represented mainly by titanium dioxide (TiO2) and Zinc Oxide (ZnO), were classified as inert particles, therefore, they are pointed out as the best way to protect the skin against the harmful effects of ultraviolet radiation (UV). However, recent studies suggest that these particles have several stability problems that may lead to a compromise of safety and efficacy of photoprotective products. In this sense, the hydroxyapatite (HAP) has been investigated as an alternative to sunscreen formulation, playing the role of inorganic filter. Viewing the need for the development of sunscreens with low biological risk and high sun protection factor (SPF) based on inorganic filters, the present work aimed to investigate optimization mechanisms of the sunscreen based inorganic filters formulation. Thus, were evaluated the influence of coating and particle size on the photocatalytic activity of ZnO, TiO2 and HAP in the presence to UVA, UVB and UVA/UVB radiation by analysis of the rate of degradation of the organic substrate methylene blue. Employing optical microscopy, were investigated possible incompatibilities between the inorganic filters and different alpha hydroxyacids commonly used in products containing SPF. Were developed sunscreens based on micronized ZnO, TiO2 alumina, ZnO + micronized TiO2 alumina and HAP containing 15% of inorganic filter. Were prepared oil-in-water (O/W) creams from the variation of the concentration and nature of emollient agents, nonionic co-emulsifier and film-former. The influence of preparation method on the physicochemical properties of sunscreens was evaluated using two different methods: incorporation of inorganic filters to the vehicle by means of a pre-dispersion and the conventional method. In order to evaluate the behavior of components that can interfere with the SPF and stability aspects of the formulation, were developed pre-dispersions added of Shea Butter. All formulations developed were physicochemically characterized and subjected to stability tests. The zeta potential and average particle size was measured using a Zetasizer 3000 HSA. Using a photoacoustic spectrophotometer, were analyzed the ability of UV light absorption of the sunscreens developed. The photocatalytic study suggested that the coating inorganic filters represents the best alternative to inhibit the photocatalytic activity of these particles. Glycolic and lactic acids showed incompatibilities only with ZnO. In photoacoustic analysis, it was found that the products have an effective UV absorption, as inorganic filter characteristics The physicochemical characterization and stability analysis propose that the formulation method from a pre-dispersion is most suitable for obtaining a stable and secure sunscreen product. The HAP-based formulations, however, represented an exception, because they were stable regardless of the method of incorporation into the cream base. In summary, the results indicate that, to obtain a safe and effective sunscreen, is extremely important we focus on the formulation criteria, such as ideal choice of components and technical preparation. |
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Paula, Daniel deCPF:23767636363http://lattes.cnpq.br/1846628990988101Borrero, Pedro Pablo GonzálezCPF:34784637846http://lattes.cnpq.br/8255141527991038CPF:02561899942http://lattes.cnpq.br/9842665546294590Tolotti, Michele Fabricia2016-09-20T12:29:41Z2012-05-252012-01-01TOLOTTI, Michele Fabricia. PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO. 2012. 126 f. Dissertação (Programa de Pós-Graduação em Ciências Farmacêuticas - Mestrado - Associação Ampla com UEPG) - Universidade Estadual do Centro Oeste, Guarapuava-PR.http://localhost:8080/tede/handle/tede/422The inorganic sunscreens represented mainly by titanium dioxide (TiO2) and Zinc Oxide (ZnO), were classified as inert particles, therefore, they are pointed out as the best way to protect the skin against the harmful effects of ultraviolet radiation (UV). However, recent studies suggest that these particles have several stability problems that may lead to a compromise of safety and efficacy of photoprotective products. In this sense, the hydroxyapatite (HAP) has been investigated as an alternative to sunscreen formulation, playing the role of inorganic filter. Viewing the need for the development of sunscreens with low biological risk and high sun protection factor (SPF) based on inorganic filters, the present work aimed to investigate optimization mechanisms of the sunscreen based inorganic filters formulation. Thus, were evaluated the influence of coating and particle size on the photocatalytic activity of ZnO, TiO2 and HAP in the presence to UVA, UVB and UVA/UVB radiation by analysis of the rate of degradation of the organic substrate methylene blue. Employing optical microscopy, were investigated possible incompatibilities between the inorganic filters and different alpha hydroxyacids commonly used in products containing SPF. Were developed sunscreens based on micronized ZnO, TiO2 alumina, ZnO + micronized TiO2 alumina and HAP containing 15% of inorganic filter. Were prepared oil-in-water (O/W) creams from the variation of the concentration and nature of emollient agents, nonionic co-emulsifier and film-former. The influence of preparation method on the physicochemical properties of sunscreens was evaluated using two different methods: incorporation of inorganic filters to the vehicle by means of a pre-dispersion and the conventional method. In order to evaluate the behavior of components that can interfere with the SPF and stability aspects of the formulation, were developed pre-dispersions added of Shea Butter. All formulations developed were physicochemically characterized and subjected to stability tests. The zeta potential and average particle size was measured using a Zetasizer 3000 HSA. Using a photoacoustic spectrophotometer, were analyzed the ability of UV light absorption of the sunscreens developed. The photocatalytic study suggested that the coating inorganic filters represents the best alternative to inhibit the photocatalytic activity of these particles. Glycolic and lactic acids showed incompatibilities only with ZnO. In photoacoustic analysis, it was found that the products have an effective UV absorption, as inorganic filter characteristics The physicochemical characterization and stability analysis propose that the formulation method from a pre-dispersion is most suitable for obtaining a stable and secure sunscreen product. The HAP-based formulations, however, represented an exception, because they were stable regardless of the method of incorporation into the cream base. In summary, the results indicate that, to obtain a safe and effective sunscreen, is extremely important we focus on the formulation criteria, such as ideal choice of components and technical preparation.Os filtros solares inorgânicos, representados principalmente pelo dióxido de titânio (TiO2) e óxido de zinco (ZnO), classificados como partículas inertes, são apontados como a melhor maneira de proteger a pele contra os efeito nocivos da radiação ultravioleta (UV). Porém, estudos recentes sugerem que estes apresentam problemas de estabilidade, podendo levar a um comprometimento da segurança e eficácia dos produtos fotoprotetores. Nesse sentido, a hidroxiapatita (HAP) tem sido investigada como alternativa à formulação de fotoprotetores, agindo como filtro inorgânico. Visualizando a necessidade do desenvolvimento de protetores solares com baixo risco biológico e alto fator de proteção solar (FPS) à base de filtros inorgânicos, o presente trabalho visou investigar mecanismos de otimização dos parâmetros de formulação de fotoprotetor à base de filtros inorgânicos. Dessa forma, avaliou-se a influência do revestimento e tamanho de partícula na atividade fotocatalítica do ZnO, TiO2 e HAP, frente às radiações UVA, UVB e UVA/UVB por meio de análise da taxa de degradação do substrato orgânico azul de metileno.Empregando-se microscopia óptica, foram investigadas possíveis incompatibilidades entre os filtros inorgânicos e diferentes alfa hidroxiácidos comumente empregados em produtos contendo FPS. Foram desenvolvidos fotoprotetores à base de ZnO micronizado; TiO2 alumina; ZnO micronizado+TiO2 alumina e HAP, contendo 15% de filtro inorgânico. Os cremes base foram preparados na forma de emulsão óleo em água (O/A) variando a concentração e natureza dos agentes emolientes, co-emulsionante não-iônico e formador de filme. A influência do método de preparo nas propriedades físico-químicas dos fotoprotetores foi avaliada utilizando-se dois processos distintos: incorporação dos filtros solares ao veículo por meio de uma pré-dispersão e pelo método convencional. Com o intuito de avaliar o comportamento de componentes que podem interferir em aspectos da formulação, foram desenvolvidas pré-dispersões acrescidas de manteiga de karité. As formulações desenvolvidas foram caracterizadas físico-quimicamente e submetidas a ensaios de estabilidade. O potencial zeta e o tamanho médio das partículas foram determinados utilizando um Zetasizer 3000 HSa. Em um espectrofotômetro fotoacústico, foram realizadas análises para avaliar a capacidade de absorção de luz UV dos protetores solares desenvolvidos. O estudo de fotocatálise sugeriu que o revestimento de filtros inorgânicos representa a melhor alternativa para inibir a atividade fotocatalítica destas partículas. Os ácidos glicólico e lático apresentaram incompatibilidades apenas com o ZnO. Na análise fotoacústica, verificou-se que os produtos apresentaram efetiva absorção UV, conforme características dos filtros inorgânicos. As análises das caracterizações físico-químicas e estabilidade propõem que o método de formulação a partir de uma pré-dispersão é o mais adequado para obtenção de um produto estável e seguro. As formulações à base de HAP, porém, representaram uma exceção, pois estas apresentaram-se estáveis independente do método de incorporação ao creme base. Os resultados apontam que, para a obtenção de um protetor solar seguro e eficaz, é de fundamental importância atentarmos para os critérios de formulação, como a seleção adequada dos excipientes e técnica de preparo.Made available in DSpace on 2016-09-20T12:29:41Z (GMT). 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| dc.title.por.fl_str_mv |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| title |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| spellingShingle |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO Tolotti, Michele Fabricia dióxido de titânio óxido de zinco hidroxiapatita protetor solar estratégias de formulação titanium dioxide zinc oxide hydroxyapatite sunscreen formulating strategies CIENCIAS DA SAUDE::FARMACIA |
| title_short |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| title_full |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| title_fullStr |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| title_full_unstemmed |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| title_sort |
PROTETORES SOLARES À BASE DE FILTROS INORGÂNICOS: DESENVOLVIMENTO E CARACTERIZAÇÃO |
| author |
Tolotti, Michele Fabricia |
| author_facet |
Tolotti, Michele Fabricia |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Paula, Daniel de |
| dc.contributor.advisor1ID.fl_str_mv |
CPF:23767636363 |
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http://lattes.cnpq.br/1846628990988101 |
| dc.contributor.advisor-co1.fl_str_mv |
Borrero, Pedro Pablo González |
| dc.contributor.advisor-co1ID.fl_str_mv |
CPF:34784637846 |
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http://lattes.cnpq.br/8255141527991038 |
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CPF:02561899942 |
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http://lattes.cnpq.br/9842665546294590 |
| dc.contributor.author.fl_str_mv |
Tolotti, Michele Fabricia |
| contributor_str_mv |
Paula, Daniel de Borrero, Pedro Pablo González |
| dc.subject.por.fl_str_mv |
dióxido de titânio óxido de zinco hidroxiapatita protetor solar estratégias de formulação |
| topic |
dióxido de titânio óxido de zinco hidroxiapatita protetor solar estratégias de formulação titanium dioxide zinc oxide hydroxyapatite sunscreen formulating strategies CIENCIAS DA SAUDE::FARMACIA |
| dc.subject.eng.fl_str_mv |
titanium dioxide zinc oxide hydroxyapatite sunscreen formulating strategies |
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CIENCIAS DA SAUDE::FARMACIA |
| description |
The inorganic sunscreens represented mainly by titanium dioxide (TiO2) and Zinc Oxide (ZnO), were classified as inert particles, therefore, they are pointed out as the best way to protect the skin against the harmful effects of ultraviolet radiation (UV). However, recent studies suggest that these particles have several stability problems that may lead to a compromise of safety and efficacy of photoprotective products. In this sense, the hydroxyapatite (HAP) has been investigated as an alternative to sunscreen formulation, playing the role of inorganic filter. Viewing the need for the development of sunscreens with low biological risk and high sun protection factor (SPF) based on inorganic filters, the present work aimed to investigate optimization mechanisms of the sunscreen based inorganic filters formulation. Thus, were evaluated the influence of coating and particle size on the photocatalytic activity of ZnO, TiO2 and HAP in the presence to UVA, UVB and UVA/UVB radiation by analysis of the rate of degradation of the organic substrate methylene blue. Employing optical microscopy, were investigated possible incompatibilities between the inorganic filters and different alpha hydroxyacids commonly used in products containing SPF. Were developed sunscreens based on micronized ZnO, TiO2 alumina, ZnO + micronized TiO2 alumina and HAP containing 15% of inorganic filter. Were prepared oil-in-water (O/W) creams from the variation of the concentration and nature of emollient agents, nonionic co-emulsifier and film-former. The influence of preparation method on the physicochemical properties of sunscreens was evaluated using two different methods: incorporation of inorganic filters to the vehicle by means of a pre-dispersion and the conventional method. In order to evaluate the behavior of components that can interfere with the SPF and stability aspects of the formulation, were developed pre-dispersions added of Shea Butter. All formulations developed were physicochemically characterized and subjected to stability tests. The zeta potential and average particle size was measured using a Zetasizer 3000 HSA. Using a photoacoustic spectrophotometer, were analyzed the ability of UV light absorption of the sunscreens developed. The photocatalytic study suggested that the coating inorganic filters represents the best alternative to inhibit the photocatalytic activity of these particles. Glycolic and lactic acids showed incompatibilities only with ZnO. In photoacoustic analysis, it was found that the products have an effective UV absorption, as inorganic filter characteristics The physicochemical characterization and stability analysis propose that the formulation method from a pre-dispersion is most suitable for obtaining a stable and secure sunscreen product. The HAP-based formulations, however, represented an exception, because they were stable regardless of the method of incorporation into the cream base. In summary, the results indicate that, to obtain a safe and effective sunscreen, is extremely important we focus on the formulation criteria, such as ideal choice of components and technical preparation. |
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