Excipients represent the complement of the active principle in any pharmaceutical form. Their function is to provide stability, protection, and to ensure absorption of the drug and acceptability in patients. Cellulose is a conventional excipient in many pharmaceutical solid dosage products. Most of the sources used to extract microcrystalline cellulose come from cotton or wood, which are expensive and in high demand from other industries. As plants are considered the main source of excipient production, we have taken advantage of the biodiversity of Ecuador to evaluate microcrystalline cellulose extracted from borojó (Alibertia patinoi), a native plant, as an excipient for solid dosage formulations. The method of choice for tablet manufacturing was direct compression since it is a conventional fabrication method in the pharmaceutical industry. First, we performed scanning electron microscopy (SEM), Fourier-transform infrared (FTIR) spectroscopy, and X-ray diffraction (XRD) in order to compare the structure and characteristics of the extracted cellulose with two reference commercial cellulose materials. Second, we performed quality tests to evaluate the use of the isolate as an excipient including fluidity, hardness, friability, and disintegration. Compared with commercial and microcrystalline cellulose, the extracted cellulose from the native plant showed comparable characteristics and is consequently a potential excipient that could be used in the pharmaceutical industry. Last, we performed a dissolution test in which we concluded that all tablets have a short release time of active principle.
This work focuses on the search and development of drugs that may become new alternatives to the commercial drugs currently available for treatment of leishmaniasis. We have designed and synthesized 12 derivatives of bis(spiropyrazolone)cyclopropanes. We then characterized their potential application in therapeutic use. For this, the in vitro biological activities against three eukaryotic models—S. cerevisiae, five cancer cell lines, and the parasite L. mexicana—were evaluated. In addition, cytotoxicity against non-cancerous mammalian cells has been evaluated and other properties of interest have been characterized, such as genotoxicity, antioxidant properties and, in silico predictive adsorption, distribution, metabolism, and excretion (ADME). The results that we present here represent a first screening, indicating two derivatives of bis(spiropyrazolone)cyclopropanes as good candidates for the treatment of leishmaniasis. They have good specificity against parasites with respect to mammalian cells.
Many drugs are administered in the form of liquid-dispersed nanoparticles. Frequently, one of the overlooked aspects in the development of this drug delivery system is the loss of efficacy and the degradation of the carried drugs. Estimating the shelf life of drug products implies the storage of samples under controlled conditions of temperature and humidity for different periods, ranging from months to years, delaying decisions during development, manufacturing, and commercialization. Adapting well-known isothermal and nonisothermal methods to nanoparticles would allow correlating kinetic parameters obtained in a single mathematical model and predicting the shelf life faster than traditional methods. Unlike the traditional approaches, the isoconversional method (i) considers drug products as heterogeneous systems, without a unique kinetic order, (ii) establishes a maximum percentage of degradation, (iii) assumes the same kinetics for all processes regardless of the conditions, and (iv) includes the influence of humidity by a modification of Arrhenius equation. This method serves in calculating the kinetic parameters and shelf life derived from them, in a few weeks. In the same way, nonisothermal treatments allow obtaining these parameters by differential scanning calorimetry. Samples are subjected to different heating rates to establish the temperature at which the thermal decomposition event occurs and, thus, to calculate in a few days the activation energy and the preexponential factor using the Kissinger method. But this approach has limitations: the isoconversional method does not consider crystalline state of the sample, while nonisothermal method ignores the effect of the storage conditions. Processing nanoparticles for isothermal and nonisothermal treatments would allow accurate and fast prediction of the drug-loaded nanoparticle shelf life correlating parameters obtained using a single mathematical model. The accuracy of the prediction would be assessed by comparison of estimated shelf life versus data coming from traditional stability studies.
La conservación documental en los últimos años cumple un rol importante en la sociedad, debido a que trata derecuperar la memoria histórica y el acervo documental de la misma. Uno de los problemas de mayor incidencia ydificultad es la presencia de hongos y sus productos metabólicos en los documentos, ya que potencialmente ocasionanla pérdida total de la información dificultando de esta forma los procesos de restauración. El presente estudio buscaformular una solución para tratar esta contaminación de hongos, con el uso de fluconazol como agente antifúngico. Seinició aislando los hongos presentes en los libros, seguido del uso del Diagrama pseudoternario para la formulaciónde la solución de Fluconazol, y por último, se evaluó la eficacia de esta formulación por técnicas microbiológicasmodificadas, obteniéndose de esta manera, una reducción porcentual de Unidades Formadoras de Colonias de hongosmayor al 90%, mediante la nebulización de una solución de Fluconazol al 24% compuesta por una mezcla decosolventes: Agua: 20%, Metanol: 50%, Etanol: 30%, con un tiempo de aplicación de 15 minutos.
Objetivos: Determinar la calidad microbiológica de una muestra de productos naturales procesados de uso medicinal de libre comercio en Quito, Ecuador. Materiales y métodos: 83 productos se sometieron a recuentos de microorganismos aerobios, mohos y levaduras por técnicas convencionales estandarizadas, de acuerdo a la Farmacopea de los Estados Unidos (USP, por sus siglas en inglés). Se identificaron los microorganismos presentes y se determinó su sensibilidad antimicrobiana usando el método de difusión en agar. Resultados: El 17,0% de los jarabes, el 27,0% de los productos tópicos y el 43,0% de los sólidos orales excedieron los límites especificados para el recuento total de microorganismos aerobios, mientras que el 33,0% de los jarabes, el 7,0% de los productos tópicos y el 36,0% de los sólidos orales excedieron el límite para mohos y levaduras. Los productos de uso ocular no pasaron la prueba de esterilidad. El género bacteriano más frecuentemente aislado fue Bacillus, seguido por Escherichia coli, Klebsiella y Enterobacter. Salmonella ni Staphylococcus aureus se encontraron en ningún producto, pero microorganismos potencialmente patógenos como Pseudomonas se aislaron en el 40,0% de los colirios. Enterobacter y Escherichia coli mostraron resistencia a múltiples compuestos y Pseudomonas no fue resistente a ningún antibiótico. Conclusiones: La calidad microbiológica de los productos examinados no fue adecuada. Se aislaron microorganismos potencialmente patógenos y resistentes a antibióticos. Estos productos podrían no ser aptos para su distribución y consumo, aun cuando muchos de ellos cuenten con registro sanitario. El control y regulación por los entes responsables es indispensable.
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