ABSTRACT
Abstract Solid dispersions (SDs) of ursolic acid (UA) were developed using polyvinylpyrrolidone K30 (PVP K30) in combination with non-ionic surfactants, such as D-α-tocopherol polyethylene glycol 1000 succinate (TPGS) or poloxamer 407 (P407) with the aim of enhancing solubility and in vitro release of the UA. SDs were investigated using a 24 full factorial design, subsequently the selected formulations were characterized for water solubility, X-ray diffractometry (XRD), differential scanning calorimetry (DSC), particle diameter, scanning electron microscopy, drug content, physical-chemical stability and in vitro release profile. SDs showed higher UA water-solubility than physical mixtures (PMs), which was attributed by transition of the drug from crystalline to amorphous or molecular state in the SDs, as indicated by XRD and DSC analyses. SD1 (with P407) and SD2 (with TPGS) were chosen for further investigation because they had higher drug load. SD1 proved to be more stable than SD2, revealing that P407 contributed to ensure the stability of the UA. Furthermore, SD1 and SD2 increased UA release by diffusion and swelling-controlled transport, following the Weibull model. Thus, solid dispersions obtained with PVP k-30 and P407 proved to be advantageous to enhance aqueous solubility and stability of UA.
Subject(s)
Polyethylene Glycols/administration & dosage , Solubility , Poloxamer/adverse effects , Diffusion , X-Rays/adverse effects , In Vitro Techniques , Calorimetry, Differential Scanning/methods , Pharmaceutical Preparations/analysis , Microscopy, Electron, Scanning/methodsABSTRACT
Abstract Conventional orthodontic treatment with the use of stainless steel may be detrimental to oral health by promoting demineralizing lesions appearance and increasing adhesion and formation of bacterial biofilm, inducing the development of cavities. An alternative that has been researched to reduce the side effects of orthodontic treatment is the coating of materials with antimicrobial nanoparticles. Nanometric- sized particles increase their surface area and contact with the microbial membrane, consequently intensifying their bacteriostatic and bactericidal effect. In this work, hydrothermal synthesis, a "green" process was used to attach silver nanoparticles (AgNPs) to the surface of two different brands of orthodontic wires. The coated materials were analyzed for their physicochemical properties by scanning electron microscopy (SEM), X-ray diffraction (XRD) and differential scanning calorimetry (DSC), which showed the distribution of AgNPs along the wires without modifying their properties. In the microbiological test, one of the brands showed a statistically significant difference in microbial adhesion and biofilm formation by Staphylococcus aureus and Streptococcus mutans. Results lead to the conclusion that antimicrobial orthodontic wires coated with silver nanoparticles through hydrothermal synthesis is a promising material for the improvement of orthodontic treatment.
Subject(s)
Orthodontic Wires , Staphylococcus aureus/drug effects , Streptococcus mutans/drug effects , Metal Nanoparticles , Anti-Bacterial Agents/pharmacology , Silver , Bacterial Adhesion , Calorimetry , Microscopy, Electron, Scanning , Dental PlaqueABSTRACT
Study of polymorphism is of great importance for the pharmaceutical industry once polymorphs may display diï¬erent physicochemical properties, which, in turn, may result in stability diï¬erences that can bring problems for the manufacturing stages and the quality of fnal products. Although research on organic polymorphs has greatly increased in the last decades, it still does not cover all needs for the pharmaceutical market. Techniques such as spectroscopy in the infrared region, nuclear magnetic resonance, thermal analysis, X-ray diï¬raction, etc., can be used to identify polymorphism. The polymorphism is a property of the crystalline solid state, and can be evaluated by X-ray diï¬raction once each polymorph exhibits one specifc X-ray diï¬raction pattern. The JST-XRD program is a tool designed to help the identifcation of crystalline phases (including polymorphs) present in pharmaceutical ingredients and tablets by using X-ray diï¬raction data obtained from scientifc articles and patents. This paper presents new implementations for the JST-XRD and describes its use in the analysis of active pharmaceutical ingredient and marketed tablets of norï¬oxacin, mebendazole and atorvastatin calcium. By the means of comparison, JSTXRD allowed identifying the crystalline phases in the diï¬raction patterns of the analyzed drugs, showing the program suitability for polymorphism research, pre-formulation and quality control in pharmaceutical industries. JST-XRD can also be used for educational purposes in undergraduate and graduate programs in order to show the potentiality of X-ray powder diï¬raction in polymorphism analysis.(AU)
O estudo do polimorfsmo é de grande importância na indústria farmacêutica porque os polimorfos podem apresentar diferentes propriedades físico-químicas, podendo resultar em diferenças na estabilidade e desse modo causar problemas nas etapas de manufatura e no produto fnal. Embora a pesquisa de moléculas orgânicas que apresentam polimorfsmo tenha aumentado bastante nas últimas décadas, ainda não contempla todas as necessidades do mercado farmacêutico. Para a identifcação de polimorfsmo podem ser utilizadas técnicas como espectroscopia na região do infravermelho, ressonância nuclear magnética, análise térmica (DSC), difração de raios X, etc. O polimorfsmo, por ser uma propriedade do estado sólido e cristalino, pode ser avaliado através da difração de raios X, já que cada polimorfo apresenta um padrão de difração de raios X único. O programa JST-XRD é uma ferramenta projetada para auxiliar a identifcação de fases cristalinas, incluindo polimorfos, presentes em insumos farmacêuticos e comprimidos, usando dados de difração de raios X obtidos em artigos científcos e patentes. Esse trabalho apresenta novas implementações no JST-XRD e descreve seu uso na análise de amostras de princípio ativo e comprimidos comerciais de norï¬oxacino, mebendazol e atorvastatina cálcica. Através das comparações realizadas, JSTXRD permitiu identifcar todas as fases cristalinas dos difratogramas dos fármacos analisados, mostrando que o programa é adequado para pesquisa em polimorfsmo; na pré-formulação e controle de qualidade em indústrias farmacêuticas, assim como para uso didático em cursos de graduação e pós-graduação a fm de mostrar as potencialidades da difração de raios X na análise de polimorfsmo.(AU)
Subject(s)
Tablets/chemistry , X-Ray Diffraction/methods , Software , Crystallization/methods , Pharmaceutical Raw Material , Norfloxacin/chemistry , Evaluation Studies as Topic , Drug Stability , Atorvastatin/chemistry , Mebendazole/chemistryABSTRACT
O polimorfismo pode ocasionar desvios de qualidade durante o processo produtivo e influenciar o desempenho dos medicamentos. Por isso, o entendimento do fenômeno e suas implicações abre um campo amplo de possibilidades a serem exploradas na área farmacêutica, incluindo o surgimento de novos paradigmas e ferramentas na garantia da qualidade de medicamentos. Este trabalho apresenta uma introdução aos aspectos básicos do fenômeno do polimorfismo e suas implicações na produção e controle de medicamentos, com ênfase no polimorfismo dos fármacos.
Polymorphism can cause quality deviations during the production of medicines and can influence their effectiveness. Therefore, an understanding of this phenomenon and its implications opens a wide of possibilities to be explored in the pharmaceutical , including the emergence of new paradigms and tools for the quality assurance of medicines. This paper presents an introduction to basic aspects of the polymorphism phenomenon and its implications for the production and control of medicines, with emphasis on drug polymorphs.