Methylene Blue-Containing Silica-Coated Magnetic Particles:  A Potential Magnetic Carrier for Photodynamic Therapy

Tada, Dayane Batista; Vono, Lucas Lucchiari Ribeiro; Duarte, Evandro L.; Itri, Rosângela; Kiyohara, Pedro Kunihiko; Baptista, Maurı́cio S.; Rossi, Liane M.

doi:10.1021/la700883y

Cited by 216 publications

(147 citation statements)

References 51 publications

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“…In recent years, with the advancement of nanotechnology, engineered nanoparticles have received attention as a possible means of encapsulating and delivering PDT agents. Research in our laboratories [17][18][19][20][21][22] and elsewhere [23,24] has demonstrated the utility of nano-structured materials, which employ biocompatible nanoparticle matrices encapsulated with efficient photo-active molecules, for PDT. Our concept of a nanoparticle platform (NP) was initiated by the design of Photonic Explorers for Biomedical use by Biologically Localized Embedding, termed PEBBLEs.…”

Section: Introductionmentioning

confidence: 99%

Encapsulation of methylene blue in polyacrylamide nanoparticle platforms protects its photodynamic effectiveness

Tang

Park

et al. 2008

Biochemical and Biophysical Research Communications

107

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The ability to prevent methylene blue (MB), a photosensitizer, from being reduced by plasma reductases will greatly improve its efficacy in photodynamic therapy (PDT) applications. We have developed a delivery approach for PDT by encapsulating MB using nanoparticle platforms (NPs). The 30-nm polyacrylamide-based NPs provide protection for the embedded MB against reduction by diaphorase enzymes. Furthermore, our data shows the matrix-protected MB efficiently induces photodynamic damage to tumor cells. The unprecedented results demonstrate the significant in vitro photodynamic effectiveness of MB when encapsulated within NPs, which promises to open new opportunities for MB in its in vivo and clinical studies.

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Section: Introductionmentioning

confidence: 99%

Encapsulation of methylene blue in polyacrylamide nanoparticle platforms protects its photodynamic effectiveness

Tang

Park

et al. 2008

Biochemical and Biophysical Research Communications

107

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“…The intensities of absorption at 456 nm were plotted against irradiation time. The singlet oxygen quantum yield (η) of SPPLGA in DMF was calculated using following equation [23]:…”

Section: Singlet Oxygen Production Measurementmentioning

confidence: 99%

“…DPBF is a singlet oxygen quencher which can qualitatively establish the production of singlet oxygen, which result in a decreased intensity of the DPBF fluorescence band at 414 nm. According to the reported singlet oxygen generation estimation method, The singlet oxygen quantum yield (η) of polymer were evaluated by comparison with those obtained in previous work for 5,10,15,20-tetraphenylporphyrin (TPP) (0.67±0.09) [23]. In Fig.…”

Section: Singlet Oxygen Production Measurementmentioning

confidence: 99%

Synthesis and Characterization of Star-Shaped Porphyrin-cored Poly(Glutamic Acid) Conjugates as Highly Efficient Photosensitizers

Dai

Yang

et al. 2016

J. Photopol. Sci. Technol.

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Photodynamic therapy (PDT) has drawn wide attention in intensive preclinical and clinical cancer therapy due to its noninvasive nature. A simple and facile synthesis of highly efficient delivery system for photosensitizers (PS) with visualized tumor environment is hence critical. Herein, a simple, safe and promising fluorescent probe, star-shaped poly(glutamic acid) with a porphyrin core (SPPLGA) was synthesized via ring-opening polymerization of β-benzyl-L-glutamate N-carboxyanhydride monomer with 5, 10, 15, 20-tetrakis-(4-aminophenyl)-21H, 23H-porphyrine (TAPP) as the initator, followed by the deprotection of benzyl groups on poly(benzyl-L-glutamate). The structure of this novel polymer was thoroughly studied by Nuclear magnetic resonance spectroscopy(NMR), Gel permeation chromatography (GPC) and Fourier transform infrared spectroscopy (FT-IR). Such star-shaped poly(glutamic acid) with porphyrin core could self-assemble into micelles in aqueous solution and exhibit pH-sensitive critical micelle concentration. It was observed that with the decrease in pH, the fluorescence intensity of the SPPLGA increased. On the other hand, the incorporation of poly(glutamic acid) not only improved solubility of porphyrin in water, but also enhanced the production efficiency of the singlet oxygen (about double that of porphyrin). Those results suggest that these polymer, as promising pH-responsive and tumor-selective photosensitizers, are very promising for PDT and can potentially be used as "theranostics" for future cancer prognosis and therapeutic planning.

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“…The samples were analyzed by transmission electron microscopy (TEM), which revealed particles in the range of 30-40 nm, with predominance of aggregates in a pearl necklace-like-structure. The material, so obtained, was used in applications that included immobilizing of drugs for biomedical applications, 49 as well as catalysts for magnetic separation. 50 Because it requires high dilution of the coating solution, this method limits the amount of material obtained to hundreds of milligrams in each reaction.…”

Section: Coating Magnetite With Silicamentioning

confidence: 99%

Recent advances in the development of magnetically recoverable metal nanoparticle catalysts

Rossi¹,

Garcia²,

Vono³

2012

J. Braz. Chem. Soc.

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O objetivo deste Account é fornecer uma visão geral de nossas atividades atuais de pesquisa, as quais envolvem a síntese e modificação de nanomateriais superparamagnéticos para aplicação na área de separação magnética e catálise. Primeiramente, uma introdução ao magnetismo e à separação magnética é feita. Em seguida, estratégias sintéticas que têm sido desenvolvidas para gerar nanopartículas superparamagnéticas revestidas esfericamente por sílica e outros óxidos, com destaque a sistemas bem caracterizados e preparados por metodologias que geram amostras de elevada qualidade e que, a princípio, podem ser produzidas em maior escala, são discutidas. Uma série de catalisadores magneticamente recuperáveis preparados em nosso grupo de pesquisa pela combinação única de suportes superparamagnéticos e nanopartículas metálicas é destacada. Este Account é concluído com observações pessoais e perspectivas neste campo de pesquisa.The aim of this Account is to provide an overview of our current research activities on the design and modification of superparamagnetic nanomaterials for application in the field of magnetic separation and catalysis. First, an introduction of magnetism and magnetic separation is done. Then, the synthetic strategies that have been developed for generating superparamagnetic nanoparticles spherically coated by silica and other oxides, with a focus on well characterized systems prepared by methods that generate samples of high quality and easy to scale-up, are discussed. A set of magnetically recoverable catalysts prepared in our research group by the unique combination of superparamagnetic supports and metal nanoparticles is highlighted. This Account is concluded with personal remarks and perspectives on this research field.

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Methylene Blue-Containing Silica-Coated Magnetic Particles: A Potential Magnetic Carrier for Photodynamic Therapy

Cited by 216 publications

References 51 publications

Encapsulation of methylene blue in polyacrylamide nanoparticle platforms protects its photodynamic effectiveness

Encapsulation of methylene blue in polyacrylamide nanoparticle platforms protects its photodynamic effectiveness

Synthesis and Characterization of Star-Shaped Porphyrin-cored Poly(Glutamic Acid) Conjugates as Highly Efficient Photosensitizers

Recent advances in the development of magnetically recoverable metal nanoparticle catalysts

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