15 research outputs found
How can micelle systems be rebuilt by a heating process?
The aim of this work was to evaluate how an aqueous micellar system containing Amphotericin B (AmB) and sodium deoxycholate (DOC) can be rebuilt after heating treatment. Also, a review of the literature on the physicochemical and biological properties of this new system was conducted. Heated (AmB-DOC-H) and unheated (AmB-DOC) micelles were then diluted at four different concentrations (50 mg · L−1, 5 mg · L−1, 0.5 mg · L−1, and 0.05 mg · L−1) to perform physicochemical studies and a pharmacotoxicity assay, in which two cell models were used for the in vitro experiments: red blood cells (RBC) from human donors and Candida parapsilosis (Cp). While potassium (K+) and hemoglobin leakage from RBC were the parameters used to evaluate acute and chronic toxicity, respectively, the efficacy of AmB-DOC and AmB-DOC-H were assessed by K+ leakage and cell survival rate from Cp. The spectral study revealed a slight change in the AmB-DOC aggregate peak from 327 nm to 323 nm, which is the peak for AmB-DOC-H. Although AmB-DOC and AmB-DOC-H exhibited different behavior for hemoglobin leakage, AmB-DOC produced higher leakage than AmB-DOC-H at high concentrations (from 5 mg · L−1). For K+ leakage, both AmB-DOC and AmB-DOC-H showed a similar profile for both cell models, RBC and Cp (P < 0.05). AmB-DOC-H and AmB-DOC also revealed a similar profile of activity against Cp with an equivalent survival rate. In short, AmB-DOC-H showed much less toxicity than AmB-DOC, but remained as active as AmB-DOC against fungal cells. The results highlight the importance of this new procedure as a simple, inexpensive, and safe way to produce a new kind of micelle system for the treatment of systemic fungal infections
Potentiality of microemulsions as a carrier for sunblock products?.
Atualmente, muito se tem discutido nos campos farmacêutico e dermocosmético sobre os riscos da exposição exagerada à s radiações UVA e UVB. Neste contexto, a fotoproteção assume papel fundamental na manutenção da saúde do tecido cutâneo. Este artigo de revisão trata deste tema com profundidade. Inicialmente serão abordados os aspectos teóricos relacionados a radiação solar. Em seguida, um enfoque tecnológico no desenvolvimento de fotoprotetores é discutido. Ao final, a viabilidade de sistemas microemulsionados como possÃvel carreador para fotoprotetores é estudada. Após uma abordagem teórica de
tais sistemas, sua aplicabilidade como veÃculos nanotecnológicos a serem aplicados a dermocosmética é
brevemente discutida. Concluindo, as perspectivas de tais novos produtos são pontuadas mostrando as potencialidades
destes no mercado de filtros solares fÃsicos.The human solar exposition at UVA and UVB radiation is a subject strongly studied in the pharmaceutical and dermocosmetical field. The dermal protection became, therefore, a main subject of study because of its importance on the health of cutaneous tissue. This review deals with such problem. First, the theoretical aspects related with solar irradiation will be discussed. Then, the technological approach about the development of sunscreen products is mentioned. Finally, the viability of microemulsified systems as carriers for sunscreen agents is studied. After a discussion about the theoretical potentialities of such systems, its applicability as nano-carriers for dermocosmetic products is briefly pointed out. Concluding, an approach about the perspectives of such new products is made, revealing their potentialities in the market of sunscreen productsColegio de Farmacéuticos de la Provincia de Buenos Aire
Potencialidades de VeÃculos Microemulsionados para Fotoprotetores FÃsicos
The human solar exposition at UVA and UVB radiation is a subject strongly studied in the pharmaceutical and dermocosmetical field. The dermal protection became, therefore, a main subject of study because of its importance on the health of cutaneous tissue. This review deals with such problem. First, the theoretical aspects related with solar irradiation will be discussed. Then, the technological approach about the development of sunscreen products is mentioned. Finally, the viability of microemulsified systems as carriers for sunscreen agents is studied. After a discussion about the theoretical potentialities of such systems, its applicability as nano-carriers for dermocosmetic products is briefly pointed out. Concluding, an approach about the perspectives of such new products is made, revealing their potentialities in the market of sunscreen products