The effects of lyophilization on the stability of liposomes containing 5-FU.

Multilamellar liposomes containing 5-fluorouracil (5-FU) were prepared by modified lipid film hydration method and were lyophilized with or without saccharose as cryoprotectant. The effect of lyophilization on the stability of liposomes was evaluated by comparing the vesicle size, encapsulation efficiency and the drug release rate before and after lyophilization/rehydration. The process of lyophilization, without cryoprotectant, resulted in particle size increase and significant content leakage. By the addition of saccharose, the lipid bilayers become more stable and less permeable to the encapsulated drug, saccharose imparted 5-FU retention of about 80% after lyophilization/rehydration. Freeze-drying did not affect the particle size of liposomes containing saccharose as cryoprotectant. The drug release profiles of rehydrated liposomes followed Higuchi's square root model. Also, the obtained release profiles were all biphasic: a rapid initial drug release phase (burst release of the portion of the drug that leaked out of liposomes during the lyophilization) was followed by a slower, approximately constant drug release phase (zero-order kinetics).

Release profile of lidocaine HCl from topical liposomal gel formulation.

Liposomal hydrogel formulations of lidocaine HCl, suitable for topical application, have been prepared and drug release properties in vitro have been evaluated. Liposomes composed of Soya lechitin and cholesterol, with lidocaine HCl, entrapped in the inner water compartment, were prepared by simple hydration method. Topical liposomal gel formulations were prepared by incorporation of liposomes into a structured vehicle (hydrogels of Carbopol 940 in concentration of 1.5, 1.75 and 2%). High percentage of encapsulated drug in liposomes has been obtained (over 70%). Liposomal gel formulations provided prolonged drug release rate. The concentration of gelling agent in a range 1.5-2.0% affected the release rate slightly. In vitro release data showed that release kinetic can be described as diffusion-controlled, while liposomes act as reservoir systems for continuous delivery of drug. Proposed formulations provided stable percentage of entrapped drug and drug release within an examination period of 3 weeks.