Abstract

Polylactide (PLA) or poly(lactide-coglycolide) (PLGA) nanoparticles containing loperamide (LPM) were prepared by an incorporation or adsorption method with the objective of developing nanoparticles with a rapid drug release. The use of polymers such as PLA with lower molecular weights and the addition of sorhitan fatty acid esters (SFAE) for the incorporation led to an almost complete entrapment of LPM in nanoparticles. Preparation of PLA nanoparticles by adsorption was performed by addition of LPM methanol solution before, during and after evaporation of dichloromethane from the system. The adsorption of LPM onto the nanoparticles with low molecular weight PLA (m.w. 2000) showed an isotherm with a good correlation to the Langmuir equation. A high amount of LPM can be entrapped or adsorbed in nanoparticles only with low molecular weights of PLA or PLGA. In the incorporation method, the addition of SFAEs increased drug entrapment. However, in the adsorption method they had no effect on nanoparticle drug adsorption. The drug-release profiles from both nanoparticles, prepared by the adsorption and incorporation methods, were biphasic with an initial rapid release and a second slower release phase, although their initial extents of release were different. The release rates wcrc almost the same for both the adsorption and incorporation method without SFAEs. The addition of SFAEs to the adsorption system increased the extent of drug release from nanoparticles. In conclusion, a rapid loperamide release from nanoparticles can be achicved hy use of PLA or PLGA with low molecular weights and in the adsorption method by the addition of SFAEs.

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