Serum–liposome interaction is an oxygen-dependent process (original) (raw)
Related papers
Liposome disposition in vivo. III. Dose and vesicle-size effects
Biochimica et biophysica acta, 1981
The effect of lipid dose (4,3-512.8 mumol total lipid/kg body weight), administered intravenously as liposomes encapsulating radioactive inulin, upon the ability of mouse organs to bind and/or take-up the radioactive label has been studied in vivo. Three different liposome diameters were investigated: 0.46 micrometers (L), 0.16 micrometers (M) and 0.058 micrometers(S). All liposomes were negatively charged with lipid composition of phosphatidylcholine/phosphatidic acid/cholesterol/alpha-tocopherol in the molar ration 4 : 1 : 5 : 0.1 or 4 : 1 : 1 : 0.05. Overall radioactive label disposition after 2 h was consistent with localization predominantly in the reticuloendothelial system. A saturation of liver with increasing lipid dose was demonstrated for all three sizes, together with a corresponding increase in blood levels. Spleen radioactivity increased with increasing dose of L- and M-liposomes, but decreased for increasing doses of S-liposomes. Levels in residual carcass exhibited n...
Biochimica et Biophysica Acta (BBA) - Biomembranes, 1991
Well-defined liposome systems have previously established the influence of size, surface charge lipid composition and surface ligands, on in vivo fate and behaviour of model compounds entrapped in liposomes. In the present study, preformed liposomes which quantitatively retain aqueous markers were covalenty coupled via dipalmitoylphosphatidyl-ethanolamine, to the hydrophilic polymer, monomethoxypoly(ethylene glycol) (MPEG 5000). Such liposomes retain the coating in the presence of plasma, and appear to adsorb plasma components more slowly than liposomes without the polymer, shown using an aqueous two-phase partitioning technique. MPEG-coupled liposomes were cleared from the blood circulation up to 30% more slowly than liposomes without MPEG after intravenous administration to mice, despite the unmodified liposomes being of a composition and size shown previously to favour achievement of maximum half-life. It is suggested that the polymer acts as a surface barrier to plasma factors which otherwise bind to liposomes in the blood and accelerate vesicle removal.
International Journal of Indigenous Herbs and Drugs
Liposomes, spherical shaped vesicles consisting of one or more phospholipid bilayers, were first described in the mid60s. Today, they are a very useful reproduction, reagent, and tool in various scientific disciplines, including mathematics and theoretical physics, biophysics, chemistry, colloid science, biochemistry, and biology. Among several talented new drug delivery systems, liposomes characterize an advanced technology to deliver active molecules to the site of action. Research on liposome technology has progressed from conventional vesicles to ‘second-generation liposomes’, in which long-circulating liposomes are obtained by modulating the lipid composition, size, and charge of the vesicle. Liposomes with modified surfaces have also been developed using several molecules, such as glycolipids. They are of 0.05- 5.0 micrometer in diameter. Liposomes are used for the treatment of various diseases like tumors or cancer. In this review article provides a Liposomal Drug Delivery Sy...