Influence of Rheology of Dispersion Media in the Preparation of Polymeric Microspheres through Emulsification Method

Chitosan microspheres as drug delivery system have attained importance and attracted the attention of researchers in last few years. This study was aimed toward the elucidation of the effect of viscosity of external oil phase on the properties of microspheres prepared by emulsification method. Chitosan microspheres were prepared utilizing oil phase of different viscosity viz. castor oil, heavy liquid paraffin, light liquid paraffin and mixture of light paraffin, and petroleum ether (1:1 v/v ratio). Microspheres prepared in highly viscous castor oil exhibited an average size of 11.52 ± 0.57 µm with a percentage drug entrapment of 43.12 ± 2.14. On the other hand, very small microspheres of 3.15 ± 0.04 µm and 68.87 ± 1.03% drug entrapment were obtained when mixture of liquid paraffin and petroleum ether was utilized as oil phase. Effect of viscosity on percent mucoadhesion, percent drug entrapment, zeta potential, percent process yield, etc. of microspheres has been observed. In vitro drug release in phosphate buffer pH 7.4 was determined for different batch of microspheres. The results revealed a difference in the drug release pattern of the different microspheres prepared as a function of viscosity of different oil phase. Use of low viscose oil resulted in the formulation of spherical and small size microspheres. This work was a part of our ongoing thrust and project to develop microparticulate drug delivery system

Transformation and oncogenicity by Adenoviruses

Adenoviruses have attracted considerable attention since it was discovered by TRENTIN et all. and HUEBNER et al. that certain species (formerly called serotypes) are oncogenic when injected into newborn hamsters. Since then, adenoviruses have been used extensively as a model for studies on tumor induction in vivo and. cell transformation in vitro. Together with the small papovaviruses they have played an important role in fundamental cancer research and have provided invaluable tools for studies on the organization and the expression of eukaryotic genes. The introduction of new techniques of DNA sequencing, molecular cloning, and DNA transfection in the past few years have furter contributed to a rapid development of adenovirus research in all its diverse aspects