Binding and photophysical studies of biocompatible magnetic fluid in biological medium and development of magnetic nanoemulsion: a new candidate for cancer treatment (2006)
- Authors:
- USP affiliated author: TEDESCO, ANTONIO CLAUDIO - FFCLRP
- School: FFCLRP
- Subjects: MAGNETISMO; ONCOLOGIA
- Language: Inglês
- Imprenta:
- Source:
- Título do periódico: Abstracts
- Conference title: International Conference on Magnetism
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ABNT
PRIMO, E. L.; MACAROFF, P. P.; LIMA, E. C. D.; et al. Binding and photophysical studies of biocompatible magnetic fluid in biological medium and development of magnetic nanoemulsion: a new candidate for cancer treatment. Anais.. Kyoto: [s.n.], 2006. -
APA
Primo, E. L., Macaroff, P. P., Lima, E. C. D., Lacava, Z. G. M., Azevedo, R. B., Morais, P. C., & Tedesco, A. C. (2006). Binding and photophysical studies of biocompatible magnetic fluid in biological medium and development of magnetic nanoemulsion: a new candidate for cancer treatment. In Abstracts. Kyoto. -
NLM
Primo EL, Macaroff PP, Lima ECD, Lacava ZGM, Azevedo RB, Morais PC, Tedesco AC. Binding and photophysical studies of biocompatible magnetic fluid in biological medium and development of magnetic nanoemulsion: a new candidate for cancer treatment. Abstracts. 2006 ; -
Vancouver
Primo EL, Macaroff PP, Lima ECD, Lacava ZGM, Azevedo RB, Morais PC, Tedesco AC. Binding and photophysical studies of biocompatible magnetic fluid in biological medium and development of magnetic nanoemulsion: a new candidate for cancer treatment. Abstracts. 2006 ; - O uso de lipossomos de DSPC como sistemas de liberação para a indocianina green (ICG) aplicado a terapia fotodinâmica (TFD)
- Determination of binding constant 'K IND b" of biocompatible, ferrite-based magnetic fluids to serum albumin
- Study of the m-THPC photosensitizer stability encapsulated in nanoemulsions (NE) with dimethyl-sulfoxide (DMSO) as an additive for photodynamic therapy (PDT)
- Evaluation of dark toxicity of 'chlorine IND E6' in cell line J774-A
- New phbpe microspheres from Burkholderia cepacia as biodegradable drug delivery systems (DDS) for photodynamic therapy
- Photophysical properties and cellular uptake of the cationic liposome of Chlorine e6: a promising drug delivery system for PDT
- Development and characterization of chloroaluminum phthalocyanine-loaded PLGA nanocapsule for photodynamic therapy
- Evaluation of binding properties of magnetic nanoparticle surface coated with meso-2,3 dimercaptosuccinico acid to serum albumin
- Chloroaluminium-phthalocyanine-nanoemulsion: in vitro LASER biostimulation on fibroblasts WI-26 based on photodynamic processes
- Validated spectroscopic methods for determination of chloroaluminum phthalocyanine in nanoemulsions and nanocapsules useful for cancer treatment by PDT
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