Pande, et al.: Formulation of Sertaconazole Nitrate MicrospongesPresent study was taken up to develop a topical formulation that releases the drug in controlled manner, reduce the side effects associated with topical drug delivery and improve product efficacy with aid of microsponges. Microsponges loaded with sertaconazole nitrate were prepared by using quasi emulsion solvent diffusion with five different proportions of the polymer (Eudragit RS 100). The developed microsponges were analyzed for particle size, production yield, entrapment efficiency and drug content. Scanning electron microscopic images of microsponges revealed that they are spherical in shape and contain pores. Pore structure analysis was done by using mercury intrusion porosimetry technique, which confirmed the porous nature of microsponges. Microsponges were then incorporated in to a 1% corbopol gel and evaluated for pH, drug content, texture profile analysis and in vitro drug release. The batch F IV was found to be optimal as it shown 69.38% controlled drug release in 8 h that followed Higuchi model.
The use of nanotechnology based on the development and fabrication of nanostructures is one approach that has been employed to overcome the challenges involved with conventional drug delivery systems. Formulating Nanoplex is the new trend in nanotechnology. A nanoplex is a complex formed by a drug nanoparticle with an oppositely charged polyelectrolyte. Both cationic and anionic drugs form complexes with oppositely charged polyelectrolytes. Compared with other nanostructures, the yield of Nanoplex is greater and the complexation efficiency is better. Nanoplex are also easier to prepare. Nanoplex formulation is characterized through the production yield, complexation efficiency, drug loading, particle size and zeta potential using scanning electron microscopy, differential scanning calorimetry, X-ray diffraction and dialysis studies. Nanoplex have wide-ranging applications in different fields such as cancer therapy, gene drug delivery, drug delivery to the brain and protein and peptide drug delivery.Uniterms: Nanotechnology. Nanoplex/formulation. Nanoplex/characterization. Nanoplex/applications O uso da nanotecnologia baseada no desenvolvimento e na fabricação de nanoestruturas é uma abordagem que tem sido empregada para superar os desafios envolvidos nos sistemas de liberação de fármacos convencionais. A formulação de nanoplexos é a nova tendência na nanotecnologia. Um nanoplexo é um complexo formado pela nanopartícula do fármaco com poplieletrólito de carga oposta. Tanto fármacos catiônicos quanto aniônicos formam complexos com polieletrólitos opostamente carregados. Comparado com outras nanoestruturas, o rendimento dos nanoplexos é maior e a eficiência de complexação é melhor. Nanoplexos são, também. De mais fácil preparação. A formulação de nanoplexo é caracterizada pelo rendimento de produção, eficiência de complexação, carga do fármaco, tamanho de partícula e potencial zeta, utilizando microscopia eletrônica de varredura, calorimetria exploratória diferencial, difração de raios X e estudos de diálise. Os nanoplexos têm aplicações amplas em diferentes campos, como terapia antineoplásica, liberação em terapia gênica, liberação cerebral de fármaco, liberação de fármacos protéicos e peptídicos.Unitermos: Nanotecnologia. Nanoplexos/formulação. Nanoplexos/caracterização. Nanoplexos/ aplicações.
Here the investigations are done while distillation of ethanol-water mixture for separating ethanol from fermentation process. Focus is to study reduction in time required and hence saving in energy for the distillation process of ethanol-water mixture under the influence of surface-active agents (Surfactants). This novelty is from observation of these surfactants to enhance heat transfer rate because of surface tension reduction in aqueous solutions. SDS (Sodium Dodecyl Sulphate), NH4Cl (Ammonium Chloride) and SLBS (Sodium lauryl benzene sulphonate) surfactants in different concentration are experimented. The concentration of these surfactant is varied from 1700 ppm to 2800 ppm. This range is decided by observing critical micelle concentration of used surfactants. Results showed that time is reduced and hence energy consumption is also reduced. Results shown by NH4Cl are found to be more useful as it is ecofriendly surfactant which is not affecting ethanol-water mixture. Use of ammonium chloride as surfactant in distillation is actually useful to reduce energy without hampering the quality of process is the novelty of this work.
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