Marc Alexandre Schott scite author profile

Amphotericin B (AmB) and clofazimine are potent drugs hindered by their low water solubilities and their toxicities. Carriers able to increase their apparent water solubilities are needed for these drugs and for other molecules with similar properties. Random amphiphilic copolymers derived from poly(dimethylmalic acid) were obtained using different hydrophobization ratios and side group sizes. Apparent water solubilities of pyrene, clofazimine, and AmB were increased up to 10 000, 20 000 and 1000 times, respectively, in aqueous solutions containing these polymers. The presence of sodium chloride in polymer solution increased pyrene solubility but decreased the solubilities of clofazimine and AmB, compared to the salt-free solutions. Synergy between hydrophobic and electrostatic interactions was observed for polar and cationic molecules. Degradation studies showed that the examined polymers were degradable, but none of them were totally degraded in 28 days. These polymers could be used as a new tool for drug solubilization.

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Nanoaggregates of Biodegradable Amphiphilic Random Polycations for Delivering Water-Insoluble Drugs

Nottelet

Patterer

François

et al. 2012

Biomacromolecules

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Cationic amphiphilic random copolyesters were obtained by copolymerization of 5-Z-amino-δ-valerolactone and ε-caprolactone. The amino content of the final copolymers was controlled by the polymerization feed ratio and was in the range 10 to 100%. Copolymers solubility and aggregation behavior was assessed by conductometric and zeta potential analyses. A critical aggregation concentration of ca. 0.05% (w/v) was found for all water-soluble copolymers that formed nanoaggregates. Two populations were found to be present in equilibrium with hydrodynamic diameters in the range of 30-50 and 100-250 nm. The capacity to use the amphiphilic and cationic character of the nanoaggregates to encapsulate highly hydrophobic compounds was further investigated. Finally, copolymers hemo- and cytocompatibility were evaluated by hemagglutination, hemolysis, and cells proliferation tests. The results showed that the proposed cationic amphiphilic random copolyesters are biocompatible.

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Marc Alexandre Schott

Solubilization of Water-Insoluble Drugs Due to Random Amphiphilic and Degradable Poly(dimethylmalic acid) Derivatives

Nanoaggregates of Biodegradable Amphiphilic Random Polycations for Delivering Water-Insoluble Drugs

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