Influence of steric stabilization of liposome-encapsulated hemoglobin on Listeria monocytogenes host defense.

Liposome-encapsulated hemoglobin (LEH) products are being investigated as potential blood substitutes. To determine if changes in LEH composition can modify the immune response, red blood cell substitutes based on conventional lipids containing phosphatidylinositol (LEH1) and sterically stabilized lipid vesicles containing polyethylene glycol phosphatidylethanolamine (LEH2) were tested for effects on host resistance. On Day 0, groups of 18 to 20 female CD-1 mice were given an intravenous (i.

Microencapsulation of hemoglobin in liposomes using a double emulsion, film dehydration/rehydration approach.

A double emulsion, film dehydration/rehydration approach was developed for encapsulation of hemoglobin (Hb) at high concentration in liposomes. The liposome-encapsulated Hb (LEH) membrane was formulated to contain either phosphatidylinositol (PI) or polyethyleneglycol phosphatidylethanolamine (PEG-PE) along with partially hydrogenated egg-PC, cholesterol, and alpha-tocopherol in a molar ratio of 0.1:1:1:0.

Efficacy, physical properties and pharmacokinetics of sterically-stabilized liposome-encapsulated hemoglobin.

We recently reported that hemoglobin (Hb) encapsulated in liposomes (LEH) containing phosphatidyl-inositol (PI) was efficacious in rats. However, liposomes containing PI may temporarily compromise mononuclear phagocytic system (MPS) function. The objective of this study was then to determine whether a polyethylene oxide derivative of phosphatidyl ethanolamine (PEG-PE) would serve as an acceptable substitute for PI in our LEH formulation.

Surface and bulk effects on platelet adhesion and aggregation during simple (laminar) shear flow of whole blood.

This study attempts to clarify the role of the artificial surface and the fluid bulk on platelet adhesion and aggregation events during simple shear flow of whole blood. The experimental approach involved the shearing of fresh whole blood samples over the shear rate range of 720-5680 s-1, which corresponded to a shear stress maximum of about 150 dyn cm-2. Results on platelet adhesion, measured as surface coverage by platelets, and platelet aggregation, measured in terms of reduction in platelet count and adenosine diphosphate (ADP) release, were determined as a function of the surface to volume ratio (S/V); and artificial surface used.

Effect of hirudin on platelet deposition to an artificial surface during low-stress shear flow of whole blood.

The effect of hirudin, a known inhibitor of thrombin, was evaluated for whole blood samples in terms of platelet deposition/adhesion to a non-biological test surface (tetrafluoroethylene-propylene copolymer), adenosine diphosphate (ADP) release and reduction in platelet count during laminar shear flow for a shear rate to 5680 s-1 (corresponding to a shear stress of about 150 dynes/cm2). Experiments were done in a cone-and-plate viscometer for samples of whole blood with and without the addition of hirudin. Whole blood samples containing hirudin showed about a 50% reduction in platelet surface coverage compared with blood samples not containing hirudin.