Surface-Modified Liposomal Formulation of Amphotericin B: In vitro Evaluation of Potential Against Visceral Leishmaniasis.

Surface modification of liposomes with targeting ligands is known to improve the efficacy with reduced untoward effects in treating infective diseases like visceral leishmaniasis (VL). In the present study, modified ligand (ML), designed by modifying polysaccharide with a long chain lipid was incorporated in liposomes with the objective to target amphotericin B (Amp B) to reticuloendothelial system and macrophages. Conventional liposomes (CL) and surface modified liposomes (SML) were characterized for size, shape, and entrapment efficiency (E.E.). Amp B SML with 3% w/w of ML retained the vesicular nature with particle size of ∼205 nm, E.E. of ∼95% and good stability. SML showed increased cellular uptake in RAW 264.7 cells which could be attributed to receptor-mediated endocytosis. Compared to Amp B solution, Amp B liposomes exhibited tenfold increased safety in vitro in RAW 264.7 and J774A.1 cell lines. Pharmacokinetics and biodistribution studies revealed high t 1/2, area under the curve (AUC)0-24, reduced clearance and prolonged retention in liver and spleen with Amp B SML compared to other formulations. In promastigote and amastigote models, Amp B SML showed enhanced performance with low 50% inhibitory concentration (IC50) compared to Amp B solution and Amp B CL. Thus, due to the targeting ability of ML, SML has the potential to achieve enhanced efficacy in treating VL.

Malnutrition and its oral outcome - a review.

Malnutrition affects the oral health and a poor oral health in turn, may lead to malnutrition. This interdependent relationship sees good nutritional health, thus promoting good oral health and vice versa. Malnutrition may alter the homeostasis, which can lead to disease progression of the oral cavity, reduce the resistance to the microbial biofilm and reduce the capacity of tissue healing. It may even affect the development of the oral cavity. Protein-energy malnutrition occurs when there is a deficiency of protein, energy foods or both, which are relative to a body's need. Studies have suggested that enamel hypoplasia, salivary gland hypofunction and saliva compositional changes may be the mechanisms through which the malnutrition is associated with caries, while an altered eruption timing may create a challenge in the analysis of the age specific caries rates. This paper gives an insight on the relationship of the malnutrition and the protein-energy malnutrition with the oral health status.

Validation of quinidine as a probe substrate for the in vitro P-gp inhibition assay in Caco-2 cell monolayer.

Although quinidine has been recommended as a probe substrate for the P-gp inhibition assay using Caco-2 cell monolayer, it has not been studied widely in the in vitro system. In the present investigation, in vitro permeability studies using Caco-2 cell monolayer were carried out in order to optimize and validate quinidine as a P-gp probe substrate. In bi-directional Caco-2 assay across different passages, a good efflux ratio of more than ten was consistently obtained at 100 nM donor concentration of quinidine. Quinidine was found to have a good mass balance in the Caco-2 system. The inhibitory potencies of known P-gp inhibitors viz verapamil, ketoconazole, tacrolimus and cyclosporine A, determined over a wide concentration range, showed low apparent IC(50) values. Overall, quinidine was found to be a good probe substrate for routine use to assess the in vitro inhibitory potency of NCEs on Pgp-mediated transport.

Development and validation of RP-HPLC-fluorescence method for quantitative determination of quinidine, a probe substrate for P-glycoprotein inhibition assay using Caco-2 cell monolayer.

A simple, sensitive and specific reverse-phase high-performance liquid chromatographic (RP-HPLC) method with fluorescence detection was developed for quantitation of quinidine from HBSS buffer. The method was applicable in the bi-directional transport assay for evaluation of the inhibitory effect of test compounds on P-glycoprotein-mediated quinidine transport; quinidine was used as a probe P-glycoprotein substrate. The calibration curve was linear (correlation coefficient >/=99) in the range 0.30-100.00 nm. The method was validated and is specific and sensitive with limit of quantitation of 300 pm for quinidine. The method was found to be accurate and precise in the working calibration range. Stability studies were carried out at different storage conditions where the analyte was found to be stable. The applicability and reliability of the analytical method was evaluated by successful demonstration of efflux ratio (P(app)B --> A/P(app)A --> B) in the Caco-2 cell monolayer efflux assay. The efflux ratio for quinidine (100 nm) alone was 10.8, which reduced to less than 2 in the presence of the classical P-gp inhibitors verapamil and ketoconazole (100 mum each).