Abstract
Poly( l-lactide) (PLLA) nanoparticles loaded with retinyl palmitate (RP) were successfully prepared by rapid expansion of a supercritical carbon dioxide (CO 2) solution into an aqueous receiving solution containing a stabilizing agent (RESOLV). Three stabilizing agents, Pluronic F127, Pluronic F68, and sodium dodecyl sulfate (SDS) have been employed and the Pluronic F127 was found to be more effective for stabilizing PLLA/RP nanoparticles than Pluronic F68 and SDS, as RESOLV into a 0.1 wt% Pluronic F127 solution produced a stable nanosuspension consisting mainly of well-dispersed, individual nanoparticles. The effect of rapid expansion processing conditions (i.e., degree of saturation ( S), pre-expansion temperature ( T pre), and concentrations of PLLA and RP ( C PLLA, C RP)) on the particle size, form, and RP loading was systematically investigated. It was found that spherical PLLA/RP nanoparticles with an average size range of ∼40–110 nm and RP loadings of 0.9–6.2 wt% were consistently produced by RESOLV. The size of PLLA/RP nanoparticles increased from ∼30–80 to ∼30–160 nm as the solution degree of saturation changed from S < 1 to S > 1, independent of T pre, C PLLA, and C RP. The entrapment capacity of RP in PLLA nanoparticles was predominantly determined by T pre and C RP. Increasing the T pre from 70 to 100 °C and the C RP from 0.05 to 0.15 wt% increased the encapsulated RP content at least twofold. Our results show that the technique with benign supercritical CO 2 should be generally applicable to nanoparticle fabrications of other important active ingredients, especially in liquid form, in polymeric nanoparticles.
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