Solid lipid nanoparticles of irbesartan: preparation, characterization, optimization and pharmacokinetic studies

ABSTRACT Irbesartan is an antihypertensive with limited bioavailability and solid lipid nanoparticles (SLN) is one of the approaches to improve bioavailability. Solid lipid nanoparticles were prepared using glyceryl monostearate by solvent emulsification method followed by probe sonication. Irbesartan loaded SLNs were characterized and optimized by parameters like particle size, zeta potential, surface morphology entrapment efficiency and in vitro release. The optimized formulation was then further evaluated for the pharmacokinetic studies in Wistar rats. Irbesartan-loaded SLN of particle size 523.7 nm and 73.8% entrapment efficiency showed good bioavailability in Wistar rats and also showed optimum stability in the studies. The SLN prepared using glyceryl monostearate by solvent emulsification method leads to improve bioavailability of the drug

Prilling of fatty acids as a continuous process for the development of controlled release multiparticulate dosage forms

In this study, prilling was evaluated as a technique for the development of multiparticulate dosage forms using the fatty acids, stearic acid, and behenic acid as potential matrix formers to control the release of metoprolol tartrate (MPT), a highly water soluble drug. The in vitro drug release was dependent on the drug load, type of fatty acid, and pH of the dissolution medium. Higher drug loads resulted in faster release with behenic acid releasing drug over longer periods relative to stearic acid. The in vitro drug release was pH-dependent at low drug load with the release being slower at lower pH. Due to ionization of the fatty acid at pH 7.4, drug release was susceptible to the ionic strength at this pH value. Solid state characterization indicated that the crystalline state of the fatty acids was not affected by thermal processing via prilling, while the crystallinity of MPT was decreased. During storage, the amorphous MPT fraction recrystallized in the entire matrix. Drug release from behenic acid matrices was increased during storage at 40 C; however, no polymorphism of behenic acid was detected. The bioavailability of MPT, after oral administration to dogs as prills containing 30% and 40% MPT using behenic acid as matrix former, was not significantly different from a commercial sustained release reference formulation, although the 40% MPT prills showed a burst release.prilling; fatty acids; metoprolol tartrate; controlled release; multiparticulate dosage forms; stabilit

Basic Science Considerations in Primary Total Hip Replacement Arthroplasty

Total Hip Replacement is one of the most common operations performed in the developed world today. An increasingly ageing population means that the numbers of people undergoing this operation is set to rise. There are a numerous number of prosthesis on the market and it is often difficult to choose between them. It is therefore necessary to have a good understanding of the basic scientific principles in Total Hip Replacement and the evidence base underpinning them. This paper reviews the relevant anatomical and biomechanical principles in THA. It goes on to elaborate on the structural properties of materials used in modern implants and looks at the evidence base for different types of fixation including cemented and uncemented components. Modern bearing surfaces are discussed in addition to the scientific basis of various surface engineering modifications in THA prostheses. The basic science considerations in component alignment and abductor tension are also discussed. A brief discussion on modular and custom designs of THR is also included. This article reviews basic science concepts and the rationale underpinning the use of the femoral and acetabular component in total hip replacement