Nadia Maria Volpato

In vitro acyclovir distribution in human skin layers after transdermal iontophoresis

The purpose of the present work was to study the in vitro distribution of acyclovir in human skin layers after iontophoresis, applied in order to increase the amount of drug in the basal epidermis, site of Herpes simplex infections. Experiments were done with Franz diffusion cells applying, as donor, acyclovir solutions (pH values: 3.0 and 7.4) or a commercial cream. Quantification of drug at different skin depths was performed by horizontal slicing of frozen skin, and drug extraction and analysis by high-performance liquid chromatography. Seven h of transdermal iontophoresis (0.5 mA cm-2 induced an accumulation of acyclovir in epidermis and dermis ranging from 80 to 150 micrograms cm-3, characterized by homogeneous distribution of the drug in skin layers. After short current application time (30 min) however, the concentration profile of drug in skin was not significantly different from the obtained after seven h of passive diffusion, employing pH 3.0 donor solution. After 30 min of iontophoresis, the acyclovir reservoir on the skin was maintained for up to five h producing a dramatic increase of drug concentration in skin, evening out over 80 micrograms cm-3 until a depth of 300 micrograms. Acyclovir can be accumulated at target site more quickly and maintained at higher level through application of a iontophoretic pulse and by keeping the drug reservoir on skin.

New microencapsulation system for ascorbic acid using pea protein concentrate as coat protector

Microencapsulation is essential to preserve biological activity of ascorbic acid (AA) and pea protein has not been used as a carrier in such processes. This work aimed to produce microparticles by a spray-drying process using pea protein (PPC) as wall material of AA and evaluate the retention of the core by HPLC, overall morphology SEM, size distribution by light scattering and release kinetics. Carboxymethylcellulose (CMC) and blends with maltodextrin (M) were produced for comparative analyses. The yields were compatible with the applied technology and the retention was above 84% for all materials. The PPC microparticles presented irregular and rough surfaces, CMC produced a regular and smooth surface and agglomeration was more intense in microparticles with M. Mean particle diameters were all below 8u2009µm. The microparticle release rates were lower than those with free AA, being best correlated to the Higuchi kinetic model. These results support the utilization of PPC for microencapsulation of AA.

Iontophoresis enhances the transport of acyclovir through nude mouse skin by electrorepulsion and electroosmosis

AbstractPurpose. Iontophoresis was employed for enhancing the transdermal delivery of acyclovir through nude mouse skin in vitro, with the aim of understanding the mechanisms responsible for drug transport, in order to properly set the conditions of therapeutical application.nMethods. Experiments were done in horizontal diffusion cells, using as donor a saturated solution of acyclovir at two different pH values (3.0 and 7.4). Different electrical conditions (current density and polarity) were employed.nResults. At pH 3.0, acyclovir anodal transport was due to electrorepulsion, since acyclovir was 20% in the protonated form. In acyclovir anodal iontophoresis at pH 7.4 the main mechanism involved was electroosmosis, since the drug was substantially unionized and the negative charge of the skin at this pH caused the electroosmotic flow to be from anode to cathode. In the case of cathodal iontophoresis at pH 3.0, acyclovir transport was enhanced approx. seven times, due to the presence of an electroosmotic contribution caused by the reversal of the charge of the skin. At pH 7.4 during cathodal iontophoresis acyclovir transport was not enhanced because the electroosmotic flow was in the opposite direction, compared to drug electric transport, i.e. anode to cathode. The increased skin permeability caused by current application was demonstrated to be less important than electrorepulsion and electroosmosis.nConclusions. Anodal iontophoresis shows potential applicability for enhancing acyclovir transport to the skin, considering that both electric transport and electroosmosis can be used by appropriately setting the pH of the donor.

Assay of acyclovir in human skin layers by high-performance liquid chromatography

This paper describes an assay procedure for acyclovir quantification in human skin after in vitro transdermal transport experiments. The procedure employs warm distilled water for acyclovir (ACV) extraction and high-performance liquid chromatography (HPLC) as analytical method. The procedure has good reproducibility, sensitivity and specificity, resulting in a reliable method for biopharmaceutical studies of ACV distribution in skin tissue. The chromatographic conditions set up, using distilled water as mobile phase, makes the analytical procedure simple and easy to perform.

Influence of the calcium concentration in the presence of organic phosphorus on the physicochemical compatibility and stability of all-in-one admixtures for neonatal use

BackgroundPreterm infants need high amounts of calcium and phosphorus for bone mineralization, which is difficult to obtain with parenteral feeding due to the low solubility of these salts. The objective of this study was to evaluate the physicochemical compatibility of high concentrations of calcium associated with organic phosphate and its influence on the stability of AIO admixtures for neonatal use.MethodsThree TPN admixture formulas were prepared in multilayered bags. The calcium content of the admixtures was adjusted to 0, 46.5 or 93 mg/100 ml in the presence of a fixed organic phosphate concentration as well as lipids, amino acids, inorganic salts, glucose, vitamins and oligoelements at pH 5.5. Each admixture was stored at 4°C, 25°C or 37°C and evaluated over a period of 7 days. The physicochemical stability parameters evaluated were visual aspect, pH, sterility, osmolality, peroxide formation, precipitation, and the size of lipid globules.ResultsColor alterations occurred from the first day on, and reversible lipid film formation from the third day of study for the admixtures stored at 25°C and 37°C. According to the parameters evaluated, the admixtures were stable at 4°C; and none of them presented precipitated particles due to calcium/phosphate incompatibility or lipid globules larger than 5 μm, which is the main parameter currently used to evaluate lipid emulsion stability. The admixtures maintained low peroxide levels and osmolarity was appropriate for parenteral administration.ConclusionThe total calcium and calcium/phosphorus ratios studied appeared not to influence the physicochemical compatibility and stability of AIO admixtures.

Drug reservoir composition and transport of salmon calcitonin in transdermal iontophoresis.

AbstractPurpose. The aim of the work was to study iontophoretic transdermal administration of salmon calcitonin (sCt) in rabbits, with particular attention to drug reservoir composition. A dry sCt disc, to be dissolved on the application site, was used for preparing the reservoir for transdermal iontophoresis. As a reference drug reservoir, a pad wetted with drug solution was used.nMethods. Experiments were done in rabbits depositing 100 IU of salmon calcitonin on skin and applying anodal iontophoresis. Serum calcium concentration was measured during iontophoresis, passive diffusion and after i.v. administration. Parameters such as pH value and reservoir type were examined.nResults. Transdermal iontophoresis of sCt elicited a decrease in the serum calcium level, whereas, in the absence of electric current, no significant fall was measured. Using the reservoir prepared from drug solution, anodal iontophoresis at pH 4.2 was more effective than at pH 7.4, probably due to higher sCt net positive charge. Using the reservoir prepared from dry disc, similar kinetics and extent of drug effect were observed at both pH values. The reservoir prepared from solid drug deposit concentrated sCt next to the skin.nConclusions. Anodal iontophoresis for transdermal calcitonin administration shows therapeutical applicability. The type of reservoir is an important parameter affecting sCt transdermal iontophoresis.

Alendronato de sódio: metodologias para análise quantitativa

This paper presents a review of some published proposals for the analysis of sodium alendronate. The drug is an aminobisphosphonate compound used to inhibit the osteoclastic resorption of bone, and different methods were developed for its quantitative determination. These methodologies employed reversed-phase or ion-exchange HPLC analysis, both associated with different detectors: UV and fluorescence detection after derivatization of the drug, conductivity and refractive index detectors, as well as the indirect UV detection. Titrimetry and spectrophotometry (with previous complexation of the drug), which are simpler procedures, were also described, but they showed poor specificity when compared to liquid chromatography.

Meios para dissolução de comprimidos de nimesulida: ação dos tensoativos

Nimesulide is a non-steroidal anti-inflammatory drug, which presents low water-solubility and weak-acid properties. The intrinsic solubility of a drug plays an important role on drug dissolution from a solid dosage form. The development of a dissolution test for poorly hydrophilic drugs can exhibit some difficulties and surfactants are often used to promote drug solubilization. In this work the influences of both sodium laurylsulfate and polysorbate 80 on promotion of nimesulide aqueous solubility were studied. The media were also evaluated regarding their pH, surface tension and critical micelle concentration. All media without surfactant gave very low nimesulide solubility ( 300 mg/mL) were got in phosphate buffer pH 7.4 with polysorbate 80 as additive. As surfactant concentration increases, higher drug saturation values are obtained by micellar solubilization. Dissolution profiles of three nimesulide tablets formulations were conducted employing media with different surfactant concentration by the rotating paddle-method. The results indicated that surfactants in nimesulide dissolution studies should be criteriously chosen in order to avoid poor discriminating medium characteristics.

Development and Validation of a Discriminative Dissolution Test for Nimesulide Suspensions

The dissolution test for oral dosage forms has recently widened to a variety of special dosage forms such as suspensions. For class II drugs, such as nimesulide (NMS), this study is very important because formulation problems may compromise drug bioavailability. In the present work, tests with four brands of commercially available NMS (RA, TS, TB, and TC) have been performed in order to study their dissolution at different conditions. The suspensions have been characterized relatively to particle size, pH, and density besides NMS assay and the amount of drug in solution in the suspension vehicles. The dissolution study was conducted using the following media: simulated intestinal fluid, pH 6.8, containing polysorbate 80 (P80) or sodium lauryl sulfate (SLS); phosphate buffer, pH 7.4, with P80 and aqueous solution of SLS. Concerning the quantitative analysis, the UV–VIS spectrophotometry could have been used in substitution to high-performance liquid chromatography since the methodology had been adequately validated. The influence of the drug particle size distribution was significant on the dissolution profiles of NMS formulations, confirming to be a factor that should be strictly controlled in the development of oral suspensions.

Desenvolvimento e validação de metodologia analítica para a determinação do teor de ácido glicólico na matéria-prima e em formulações dermocosméticas

Glycolic acid is widely used in therapeutical care as a soft peeling, leading to the thickness of the horny layer, which is useful in the renewal of the epidermis and the reduction of the face lines. However, in high concentrations it can be associated to a potential of irritation of the skin. A chemical peeling has diverse clinical applications, among them the treatment of injured skin face like: acne, ichthyose, melasma, warts and other else. The present work had the goal to establish and to validate an analytical methodology for the determination of the glycolic acid purity in the raw material and in the dermocosmetic formulations, the acid-base neutralization titration method was used, and the end point was determined with visual indicator as well as potenciometric. The analysis of glycolic acid in the raw material, and particularly, in the finished product is important to maintain the quality control and to guarantee the consumers security. Therefore, the raw material and the products, with glycolic acid, were analyzed in two days, as its purity in free and total glycolic acid was determined using sodium hydroxide 0,1xa0N and the hydrochloric acid 0,1xa0N solutions. The developed methodology was based on the reaction with the active substance and with the property characteristics of these formulations. It was demonstrated to be practical and efficient in quantify the glycolic acid.