Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au

Detalhes bibliográficos
Autor(a) principal: Sousa Júnior, Ailton Antônio de
Data de Publicação: 2015
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Repositório Institucional da UFG
dARK ID: ark:/38995/001300000565d
Texto Completo: http://repositorio.bc.ufg.br/tede/handle/tede/6892
Resumo: The purpose of this project is to synthesize and characterize heterostructures composed by manganese ferrite nanoparticles (MnFe2O4 NPs) and gold nanoparticles (Au NPs) able to: 1) respond to external alternating magnetic fields, what would enable their use in cancer diagnostic as contrast agentes for magnetic resonance imaging, as well as in cancer treatment via magnetic hyperthermia; 2) respond to eletromagnetic radiation, what would enable their use in cancer diagnostic as contrast agents for X-ray computed tomography (CT), as well as in cancer treatment via photothermal hyperthermia. We evaluate four MnFe2O4-Au heterostructures synthesis protocols. On Protocol 1, we use part of the energy of a laser beam (808 nm, 800 mW) to promote the nucleation of Au NPs at the surface of previously synthesized MnFe2O4 NPs covered by DMSA (dimercaptosuccinic acid). On Protocol 2, we use part of the energy of an alternating magnetic field (333,8 kHz, 17 mT) to promote this nucleation. We also perform an analysis of the influence of MnFe2O4 NPs covering layer, by comparing the ionic surfactants DMSA and sodium citrate. On Protocols 3 and 4, both the magnetic cores (MnFe2O4 NPs) and the metalic cores (Au NPs) are previously synthesized. Therefore, three Au NPs synthesis methods are evaluated. On Protocol 3, we promote the coupling between Au NPs and MnFe2O4-DMSA NPs using part of the energy from the same laser beam used on Protocol 1. On Protocol 4, we promote the coupling between cysteine-covered Au NPs and lysine-covered MnFe2O4 NPs via peptidic reaction between these two aminoacids. Finally, we conduct a comparative analysis between magnetic and photothermal hyperthermia, proposing a method for the determination of the optical SLP (Specific Loss Power). Moreover, we submit some of our samples to CT imaging. Protocol 1 is the best one in terms of covering the magnetic core by Au NPs. Protocol 2 allows the nucleation of Au NPs with diameters greater than the ones obtained via Protocol 1. Protocols 3 and 4 offer nanostructures with better potential with respect to their use as contrast agents in CT. However, the final yield of all four protocols is very low. Comparing magnetic and photothermal hyperthermia, we verify that the optical SLP is two to three orders of magnitude greater than the magnetic SLP under the assessed conditions, what suggests that protocols using laser beams have more energy available for the nucleation/coupling of Au NPs at the surface of MnFe2O4 NPs than those using alternating magnetic fields or simple heating on hot plate.
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spelling Bakuzis, Andris Figueiroahttp://lattes.cnpq.br/3477269475651042Bakuzis, Andris FigueiroaLima, Emília Celma de OliveiraCastro, Marcos Antônio deMendanha Neto, Sebastião Antôniohttp://lattes.cnpq.br/4813745963376918Sousa Júnior, Ailton Antônio de2017-03-03T11:52:36Z2015-12-14SOUSA JÚNIOR, A. A. Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au. 2015. 161 f. Dissertação (Mestrado em Fisica) - Universidade Federal de Goiás, Goiânia, 2015.http://repositorio.bc.ufg.br/tede/handle/tede/6892ark:/38995/001300000565dThe purpose of this project is to synthesize and characterize heterostructures composed by manganese ferrite nanoparticles (MnFe2O4 NPs) and gold nanoparticles (Au NPs) able to: 1) respond to external alternating magnetic fields, what would enable their use in cancer diagnostic as contrast agentes for magnetic resonance imaging, as well as in cancer treatment via magnetic hyperthermia; 2) respond to eletromagnetic radiation, what would enable their use in cancer diagnostic as contrast agents for X-ray computed tomography (CT), as well as in cancer treatment via photothermal hyperthermia. We evaluate four MnFe2O4-Au heterostructures synthesis protocols. On Protocol 1, we use part of the energy of a laser beam (808 nm, 800 mW) to promote the nucleation of Au NPs at the surface of previously synthesized MnFe2O4 NPs covered by DMSA (dimercaptosuccinic acid). On Protocol 2, we use part of the energy of an alternating magnetic field (333,8 kHz, 17 mT) to promote this nucleation. We also perform an analysis of the influence of MnFe2O4 NPs covering layer, by comparing the ionic surfactants DMSA and sodium citrate. On Protocols 3 and 4, both the magnetic cores (MnFe2O4 NPs) and the metalic cores (Au NPs) are previously synthesized. Therefore, three Au NPs synthesis methods are evaluated. On Protocol 3, we promote the coupling between Au NPs and MnFe2O4-DMSA NPs using part of the energy from the same laser beam used on Protocol 1. On Protocol 4, we promote the coupling between cysteine-covered Au NPs and lysine-covered MnFe2O4 NPs via peptidic reaction between these two aminoacids. Finally, we conduct a comparative analysis between magnetic and photothermal hyperthermia, proposing a method for the determination of the optical SLP (Specific Loss Power). Moreover, we submit some of our samples to CT imaging. Protocol 1 is the best one in terms of covering the magnetic core by Au NPs. Protocol 2 allows the nucleation of Au NPs with diameters greater than the ones obtained via Protocol 1. Protocols 3 and 4 offer nanostructures with better potential with respect to their use as contrast agents in CT. However, the final yield of all four protocols is very low. Comparing magnetic and photothermal hyperthermia, we verify that the optical SLP is two to three orders of magnitude greater than the magnetic SLP under the assessed conditions, what suggests that protocols using laser beams have more energy available for the nucleation/coupling of Au NPs at the surface of MnFe2O4 NPs than those using alternating magnetic fields or simple heating on hot plate.Este trabalho tem por objetivo sintetizar e caracterizar heteroestruturas compostas por nanopartículas de ferrita de manganês (NPs de MnFe2O4) e nanopartículas de ouro (NPs de Au), capazes de: 1) responder à aplicação de um campo magnético alternado, podendo ser utilizadas no diagnóstico de cânceres enquanto agentes de contraste no imagiamento por ressonância magnética, bem como em seu tratamento via hipertermia magnética; 2) responder à aplicação de radiação eletromagnética, podendo ser utilizadas no diagnóstico de cânceres como agentes de contraste no imagiamento por tomografia computadorizada de raios-X (CT), bem como em seu tratamento via hipertermia fototérmica. Nesse sentido, avaliamos quatro protocolos de síntese de heteroestruturas MnFe2O4-Au. No Protocolo 1, utilizamos parte da energia de um feixe de luz laser (808 nm, 800 mW) para promover a nucleação de NPs de Au à superfície de NPs de MnFe2O4 previamente sintetizadas, recobertas por DMSA (ácido dimercaptosuccínico). No Protocolo 2, utilizamos parte da energia de um campo magnético alternado (333,8 kHz, 17 mT) para promover essa nucleação. Fazemos também uma análise da influência da camada de cobertura das NPs de MnFe2O4, comparando os surfactantes iônicos DMSA e citrato de sódio.Nos Protocolos 3 e 4, tanto os núcleos magnéticos (NPs de MnFe2O4) quanto os núcleos metálicos (NPs de Au) são previamente sintetizados. Para tanto, três métodos de síntese de NPs de Au são avaliados. No Protocolo 3, promovemos o acoplamento de NPs de Au a NPs de MnFe2O4-DMSA utilizando parte da energia proveniente do mesmo feixe de luz laser utilizado no Protocolo 1. No Protocolo 4, promovemos o acoplamento de NPs de Au recobertas por moléculas cisteína a NPs de MnFe2O4 recobertas por moléculas de lisina via reações peptídicas entre esses dois aminoácidos. Finalmente, fazemos um estudo comparativo entre hipertermia magnética e hipertermia fototérmica, sugerindo um método para determinação do SLP (Specific Loss Power) óptico. Além disso, submetemos algumas de nossas amostras ao imagiamento por CT. O Protocolo 1 é o melhor do ponto de vista do recobrimento do núcleo magnético por NPs de Au. O Protocolo 2 permite a nucleação de NPs de Au com diâmetros superiores àqueles obtidos via Protocolo 1. Os Protocolos 3 e 4 oferecem nanoestruturas com melhor potencial quanto à sua utilização como agentes de contraste em CT. Entretanto, o rendimento de todos os protocolos avaliados é muito baixo. Na comparação entre hipertermia magnética e fototérmica, verificamos que o SLP óptico é de duas a três ordens de grandeza superior ao SLP magnético nas condições avaliadas, o que indica que protocolos que fazem uso de luz laser dispõem de mais energia para a nucleação/acoplamento de NPs de Au à superfície de NPs de MnFe2O4 do que aqueles que fazem uso de campos magnéticos alternados ou simples aquecimento em chapa térmica.Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2017-03-03T10:47:21Z No. of bitstreams: 2 Dissertação - Ailton Antônio de Sousa Júnior - 2015.pdf: 8825071 bytes, checksum: 2c6c25961d11096534c7e36baa42c260 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5)Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-03-03T11:52:36Z (GMT) No. of bitstreams: 2 Dissertação - Ailton Antônio de Sousa Júnior - 2015.pdf: 8825071 bytes, checksum: 2c6c25961d11096534c7e36baa42c260 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5)Made available in DSpace on 2017-03-03T11:52:36Z (GMT). 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dc.title.por.fl_str_mv Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
dc.title.alternative.eng.fl_str_mv Evaluation of the effects of magnetic and photothermal hyperthermia on the synthesis of heterostructures based on MnFe2O4 and Au nanoparticles
title Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
spellingShingle Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
Sousa Júnior, Ailton Antônio de
Nanopartículas magnéticas
Nanopartículas de ouro
Hipertermia
Magnetohipertermia
Fotohipertermia
SLP
SAR
Tratamento/diagnóstico de câncer
Magnetic nanoparticles
Gold nanoparticles
Hyperthermia
Magnetohyperthermia
Photohyperthermia
SLP
SAR
Câncer theranostics
FISICA::FISICA GERAL
title_short Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
title_full Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
title_fullStr Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
title_full_unstemmed Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
title_sort Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au
author Sousa Júnior, Ailton Antônio de
author_facet Sousa Júnior, Ailton Antônio de
author_role author
dc.contributor.advisor1.fl_str_mv Bakuzis, Andris Figueiroa
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/3477269475651042
dc.contributor.referee1.fl_str_mv Bakuzis, Andris Figueiroa
dc.contributor.referee2.fl_str_mv Lima, Emília Celma de Oliveira
dc.contributor.referee3.fl_str_mv Castro, Marcos Antônio de
dc.contributor.referee4.fl_str_mv Mendanha Neto, Sebastião Antônio
dc.contributor.authorLattes.fl_str_mv http://lattes.cnpq.br/4813745963376918
dc.contributor.author.fl_str_mv Sousa Júnior, Ailton Antônio de
contributor_str_mv Bakuzis, Andris Figueiroa
Bakuzis, Andris Figueiroa
Lima, Emília Celma de Oliveira
Castro, Marcos Antônio de
Mendanha Neto, Sebastião Antônio
dc.subject.por.fl_str_mv Nanopartículas magnéticas
Nanopartículas de ouro
Hipertermia
Magnetohipertermia
Fotohipertermia
SLP
SAR
Tratamento/diagnóstico de câncer
topic Nanopartículas magnéticas
Nanopartículas de ouro
Hipertermia
Magnetohipertermia
Fotohipertermia
SLP
SAR
Tratamento/diagnóstico de câncer
Magnetic nanoparticles
Gold nanoparticles
Hyperthermia
Magnetohyperthermia
Photohyperthermia
SLP
SAR
Câncer theranostics
FISICA::FISICA GERAL
dc.subject.eng.fl_str_mv Magnetic nanoparticles
Gold nanoparticles
Hyperthermia
Magnetohyperthermia
Photohyperthermia
SLP
SAR
Câncer theranostics
dc.subject.cnpq.fl_str_mv FISICA::FISICA GERAL
description The purpose of this project is to synthesize and characterize heterostructures composed by manganese ferrite nanoparticles (MnFe2O4 NPs) and gold nanoparticles (Au NPs) able to: 1) respond to external alternating magnetic fields, what would enable their use in cancer diagnostic as contrast agentes for magnetic resonance imaging, as well as in cancer treatment via magnetic hyperthermia; 2) respond to eletromagnetic radiation, what would enable their use in cancer diagnostic as contrast agents for X-ray computed tomography (CT), as well as in cancer treatment via photothermal hyperthermia. We evaluate four MnFe2O4-Au heterostructures synthesis protocols. On Protocol 1, we use part of the energy of a laser beam (808 nm, 800 mW) to promote the nucleation of Au NPs at the surface of previously synthesized MnFe2O4 NPs covered by DMSA (dimercaptosuccinic acid). On Protocol 2, we use part of the energy of an alternating magnetic field (333,8 kHz, 17 mT) to promote this nucleation. We also perform an analysis of the influence of MnFe2O4 NPs covering layer, by comparing the ionic surfactants DMSA and sodium citrate. On Protocols 3 and 4, both the magnetic cores (MnFe2O4 NPs) and the metalic cores (Au NPs) are previously synthesized. Therefore, three Au NPs synthesis methods are evaluated. On Protocol 3, we promote the coupling between Au NPs and MnFe2O4-DMSA NPs using part of the energy from the same laser beam used on Protocol 1. On Protocol 4, we promote the coupling between cysteine-covered Au NPs and lysine-covered MnFe2O4 NPs via peptidic reaction between these two aminoacids. Finally, we conduct a comparative analysis between magnetic and photothermal hyperthermia, proposing a method for the determination of the optical SLP (Specific Loss Power). Moreover, we submit some of our samples to CT imaging. Protocol 1 is the best one in terms of covering the magnetic core by Au NPs. Protocol 2 allows the nucleation of Au NPs with diameters greater than the ones obtained via Protocol 1. Protocols 3 and 4 offer nanostructures with better potential with respect to their use as contrast agents in CT. However, the final yield of all four protocols is very low. Comparing magnetic and photothermal hyperthermia, we verify that the optical SLP is two to three orders of magnitude greater than the magnetic SLP under the assessed conditions, what suggests that protocols using laser beams have more energy available for the nucleation/coupling of Au NPs at the surface of MnFe2O4 NPs than those using alternating magnetic fields or simple heating on hot plate.
publishDate 2015
dc.date.issued.fl_str_mv 2015-12-14
dc.date.accessioned.fl_str_mv 2017-03-03T11:52:36Z
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/masterThesis
format masterThesis
status_str publishedVersion
dc.identifier.citation.fl_str_mv SOUSA JÚNIOR, A. A. Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au. 2015. 161 f. Dissertação (Mestrado em Fisica) - Universidade Federal de Goiás, Goiânia, 2015.
dc.identifier.uri.fl_str_mv http://repositorio.bc.ufg.br/tede/handle/tede/6892
dc.identifier.dark.fl_str_mv ark:/38995/001300000565d
identifier_str_mv SOUSA JÚNIOR, A. A. Avaliação dos efeitos das hipertermias magnética e fototérmica na síntese de heteroestruturas à base de nanopartículas de MnFe2O4 e Au. 2015. 161 f. Dissertação (Mestrado em Fisica) - Universidade Federal de Goiás, Goiânia, 2015.
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