Publications

by Keyword: Nanovesicles


By year:[ 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 ]

Martí Coma-Cros, Elisabet, Biosca, Arnau, Lantero, Elena, Manca, Maria, Caddeo, Carla, Gutiérrez, Lucía, Ramírez, Miriam, Borgheti-Cardoso, Livia, Manconi, Maria, Fernàndez-Busquets, Xavier, (2018). Antimalarial activity of orally administered curcumin incorporated in Eudragit®-containing liposomes International Journal of Molecular Sciences 19, (5), 1361

Curcumin is an antimalarial compound easy to obtain and inexpensive, having shown little toxicity across a diverse population. However, the clinical use of this interesting polyphenol has been hampered by its poor oral absorption, extremely low aqueous solubility and rapid metabolism. In this study, we have used the anionic copolymer Eudragit® S100 to assemble liposomes incorporating curcumin and containing either hyaluronan (Eudragit-hyaluronan liposomes) or the water-soluble dextrin Nutriose® FM06 (Eudragit-nutriosomes). Upon oral administration of the rehydrated freeze-dried nanosystems administered at 25/75 mg curcumin·kg−1·day−1, only Eudragit-nutriosomes improved the in vivo antimalarial activity of curcumin in a dose-dependent manner, by enhancing the survival of all Plasmodium yoelii-infected mice up to 11/11 days, as compared to 6/7 days upon administration of an equal dose of the free compound. On the other hand, animals treated with curcumin incorporated in Eudragit-hyaluronan liposomes did not live longer than the controls, a result consistent with the lower stability of this formulation after reconstitution. Polymer-lipid nanovesicles hold promise for their development into systems for the oral delivery of curcumin-based antimalarial therapies.

Keywords: Malaria, Curcumin, Nanomedicine, Oral administration, Lipid nanovesicles, Eudragit, Nutriose, Hyaluronan, Plasmodium yoelii


Cabrera, I., Elizondo, E., Esteban, O., Corchero, J. L., Melgarejo, M., Pulido, D., Córdoba, A., Moreno, E., Unzueta, U., Vazquez, E., Abasolo, I., Schwartz, S., Villaverde, A., Albericio, F., Royo, M., García-Parajo, M. F., Ventosa, N., Veciana, J., (2013). Multifunctional nanovesicle-bioactive conjugates prepared by a one-step scalable method using CO2-expanded solvents Nano Letters 13, (8), 3766-3774

The integration of therapeutic biomolecules, such as proteins and peptides, in nanovesicles is a widely used strategy to improve their stability and efficacy. However, the translation of these promising nanotherapeutics to clinical tests is still challenged by the complexity involved in the preparation of functional nanovesicles and their reproducibility, scalability, and cost production. Here we introduce a simple one-step methodology based on the use of CO2-expanded solvents to prepare multifunctional nanovesicle- bioactive conjugates. We demonstrate high vesicle-to-vesicle homogeneity in terms of size and lamellarity, batch-to-batch consistency, and reproducibility upon scaling-up. Importantly, the procedure is readily amenable to the integration/encapsulation of multiple components into the nanovesicles in a single step and yields sufficient quantities for clinical research. The simplicity, reproducibility, and scalability render this one-step fabrication process ideal for the rapid and low-cost translation of nanomedicine candidates from the bench to the clinic.

Keywords: Bioconjugates, Compressed fluids, Liposomes, Manomedicine, Nanovesicles, Scale-up, Supercritical fluids