Nanostructured Systems Containing Rutin: In Vitro Antioxidant Activity and Photostability Studies

Almeida, Juliana Sousa de; Lima, Fernanda O.; Ros, Simoní Da; Bulhões, L.O.S.; Carvalho, Leandro Machado de; Beck, Ruy Carlos Ruver

doi:10.1007/s11671-010-9683-1

Cited by 71 publications

(34 citation statements)

References 36 publications

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“…The zeta potential was analyzed by electrophoretic mobility using the same instrument, after dilution of the formulations in 10 mM NaCl aqueous solution (1:500 volume per volume). 24 Nanocapsules tracking analysis (NTA; NanoSight LM10 and NTA Analytical Software, Amesbury, UK) was used to estimate the particle size distribution, the number of particles per milliliter, and the presence of nanocrystals after appropriate dilution of the nanocapsule suspensions in purified water (10,000× and 5,000× for Eudragit ® RS100 and Eudragit ® S100 nanocapsule suspensions, respectively). Furthermore, this analysis allowed the observation of the Brownian motion of the individual nanoparticles.…”

Section: Characterization Of Nanocapsule Suspensionsmentioning

confidence: 99%

“…24,27 The model that best describes the drug release profile was selected through the model selection criteria (MSC), graphic adjustment, and the correlation coefficient. In order to obtain an additional parameter to compare the drug release behavior between the formulations, half-lives were calculated according to equation 1:…”

mentioning

confidence: 99%

“…On the other hand, the RH-NC-S released only 51.97%±1.10% of the drug after the same length of time, showing the best drug release control. 24,[27][28][29]33 For a deeper evaluation of the influence of the surface charge on the RH release profiles, whether positive (RH-NC-RS) or negative (RH-NC-S), the nanocapsule suspensions were modeled according to the mono and biexponential models.…”

mentioning

confidence: 99%

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Controlled release of raloxifene by nanoencapsulation: effect on in vitro antiproliferative activity of human breast cancer cells

Fontana

Beckenkamp

Buffon

et al. 2014

IJN

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Raloxifene hydrochloride (RH) is considered to be an antiproliferative agent of mammary tissue. The aim of this study was to investigate the effect of the encapsulation of RH in polymeric nanocapsules with anionic or cationic surface on its release profile and antiproliferative activity. They were prepared by interfacial deposition of preformed polymer, followed by wide physicochemical characterization. The in vitro RH release was assessed by the dialysis membrane method and the data analyzed by mathematical modeling. The antiproliferative effect on MCF-7 cell viability was investigated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay as well as by counting viable cells. They had high encapsulation efficiency, low polydispersity, and nanometric mean size. Nanocapsules prepared with Eudragit ® RS100 and Eudragit ® S100 presented positive and negative zeta potentials, respectively. Drug release studies demonstrated controlled release of RH from anionic nanocapsules, which could be explained due to a stronger interaction of the drug to these nanocapsules and the larger amount of entrapped drug. On the other hand, this control was not observed from cationic nanocapsules due to the larger amount of drug adsorbed onto their surface. MCF-7 cell viability studies and cell counting showed that RH-loaded Eudragit ® RS100 nanocapsules promote the best antiproliferative activity after 24 hours of treatment, whereas the best activity was observed for RH-loaded Eudragit ® S100 nanocapsules after 72 hours. Furthermore, the combined treatment of these formulations improved the antiproliferative effect during the entire treatment.

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Section: Characterization Of Nanocapsule Suspensionsmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Controlled release of raloxifene by nanoencapsulation: effect on in vitro antiproliferative activity of human breast cancer cells

Fontana

Beckenkamp

Buffon

et al. 2014

IJN

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“…Na literatura são encontrados trabalhos que mostram a associação de diferentes óleos a nanoestruturas de PCL como polímero nos quais também foram avaliados o tamanho das partículas em suspensão 20,33,34 . Em outro trabalho no qual foram desenvolvidas suspensões de nanocápsulas também pelo método de deposição interfacial do polímero PCL, observou-se partículas com tamanhos menores que 270 nm, valores estes bastante semelhantes aos encontrados neste estudo para a formulação NC-PCL-B 30 .…”

Section: Sistemas Nanoestruturados Contendo óLeo De Linhaça: Desenvolunclassified

Sistemas Nanoestruturados Contendo Óleo De Linhaça: Desenvolvimento Tecnológico E Caracterização Físico-Química De Nanoemulsões E Nanocápsulas Poliméricas

Rigon¹,

Giuliani²,

Stangarlin³

et al. 2017

Saúde (Sta. Maria)

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Objetivo: O óleo de linhaça apresenta diversas propriedades terapêuticas, principalmente devido à presença de ácidos poli-insaturados em sua composição. Para melhor eficácia e/ou aumento da estabilidade de óleos vegetais farmacologicamente ativos, sistemas nanoestruturados são desenvolvidos para veiculação deste tipo de substância. Este estudo objetivou desenvolver e caracterizar sistemas nanoestruturados contendo óleo de linhaça. Foram preparadas nanocápsulas poliméricas e nanoemulsões, avaliando-se duas concentrações de óleo (1,5% e 3,0%) em ambas as formulações e dois polímeros, Poli(ε-caprolactona) e Eudragit ® RL100, no desenvolvimento das nanocápsulas. Ambas as formulações apresentaram características adequadas para sistemas coloidais. Em relação às nanoemulsões, houve diferença significativa das características entre as quantidades de óleo, sendo que 1,5% de óleo de linhaça foi a concentração mais satisfatória. Em relação à presença dos polímeros, houve variação apenas dos valores de potencial zeta e pH. Concluindo, as formulações foram consideradas adequadas para o encapsulamento do óleo de linhaça, sendo carreadores promissores para outras substâncias ativas.Descritores: Óleos Vegetais; Óleo de Linhaça; Nanoemulsões: Nanocápsulas Poliméricas. Cristina ABSTRACTObjective: Linseed oil has several therapeutic properties, mainly due to the presence of polyunsaturated acids in its composition. For best efficiency and/or increasing the stability of vegetable oils pharmacologically active, nanoestructured systems are developed to vehicle this type of substance. This study aimed to develop and characterize nanostructured systems containing linseed oil. Polymeric nanocapsules, and nanoemulsions were prepared, evaluating two oil concentrations (1.5% and 3.0%) in both formulations and two polymers, Poli(ε-caprolactona) e Eudragit ® RL100, of the nanocapsules development. Both formulations showed appropriate properties for colloidal systems. Regarding the nanoemulsions, there was a significant difference in characteristics between the amounts of oil, while 1.5% linseed oil was the most satisfying concentration. About presence of polymers, there was variation only of zeta potential and pH values. In conclusion, the formulations were considered suitable for the encapsulation of the linseed oil, being promising carriers for other active substances.

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“…The graph with the best fit was then considered to establish the kinetic order. Finally, halflife (t 1/2 ) and t 90 value (time for 10% decomposition) were determined from the k-value [24].…”

Section: Uv Degradation Studymentioning

confidence: 99%

Determination of Methotrexate in pH-Sensitive Chitosan Nanoparticles by Validated RP-LC and UV Spectrophotometric Methods.

Vinardell¹,

Nogueira²,

Macedo³

et al. 2015

J. Appl. Biopharm. Pharmacokinet.

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Nanotechnology-based drug delivery systems are in constant development and, therefore, it is of great importance to have rapid, efficient and accurate analytical methodology to quantify the encapsulated drugs. Here, simple and fast methods, by reversed-phase liquid chromatography (RP-LC) and UV spectrophotometry, were developed and validated for the determination of methotrexate (MTX) in pH-sensitive chitosan nanoparticles (CS-NPs). NPs were prepared using a modified ionotropic complexation process, in which was included a surfactant derived from N ,Ndioctanoyl lysine with an inorganic sodium counterion. The RP-LC method was carried out on a Waters XBridge TM C18 column (250 mm x 4.6 mm I.D., 5μm), with mobile phase consisted of potassium phosphate buffer (0.05 M, pH 3.2): acetonitrile (86:14, v/v), and UV detection set at 303 nm. The analyses of MTX content by the UV method were also accomplished at 303 nm, using 0.1 M sodium hydroxide as diluent. The measurements were linearly correlated with concentration for both methods in the 1 -30 μg/mL range (r > 0.9999). The specificity tests showed that there was no interference of the NP components on the quantitative analyses. Precision (repeatability and intermediate precision) was demonstrated by a relative standard deviation lower than 1.5%, whereas the accuracy was assessed by the recovery of MTX from sample matrices, given mean value of ~99%. The proposed methods were applied for the analyses of MTX in different batches of NPs, and the results showed non-significant differences (p > 0.05) between the values obtained with both methodologies. Moreover, the RP-LC method was successfully used to determine the drug entrapment efficiency, and to quantify MTX during in vitro release assays and photolytic degradation studies. In conclusion, the validated methods are suitable to assay MTX in pH-sensitive CS-NPs without any interference from the polymer or surfactant.

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Nanostructured Systems Containing Rutin: In Vitro Antioxidant Activity and Photostability Studies

Cited by 71 publications

References 36 publications

Controlled release of raloxifene by nanoencapsulation: effect on in vitro antiproliferative activity of human breast cancer cells

Controlled release of raloxifene by nanoencapsulation: effect on in vitro antiproliferative activity of human breast cancer cells

Sistemas Nanoestruturados Contendo Óleo De Linhaça: Desenvolvimento Tecnológico E Caracterização Físico-Química De Nanoemulsões E Nanocápsulas Poliméricas

Determination of Methotrexate in pH-Sensitive Chitosan Nanoparticles by Validated RP-LC and UV Spectrophotometric Methods.

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