Mastering the Tools: Natural versus Artificial Vesicles in Nanomedicine

Naturally occurring extracellular vesicles and artificially made vesicles represent important tools in nanomedicine for the efficient delivery of biomolecules and drugs. Since its first appearance in the literature 50 years ago, the research on vesicles is progressing at a fast pace, with the main g...

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Veröffentlicht in:Advanced healthcare materials 2020-09, Vol.9 (18), p.e2000731-n/a, Article 2000731
Hauptverfasser: Leggio, Loredana, Arrabito, Giuseppe, Ferrara, Vittorio, Vivarelli, Silvia, Paternò, Greta, Marchetti, Bianca, Pignataro, Bruno, Iraci, Nunzio
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Sprache:eng
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Zusammenfassung:Naturally occurring extracellular vesicles and artificially made vesicles represent important tools in nanomedicine for the efficient delivery of biomolecules and drugs. Since its first appearance in the literature 50 years ago, the research on vesicles is progressing at a fast pace, with the main goal of developing carriers able to protect cargoes from degradation, as well as to deliver them in a time‐ and space‐controlled fashion. While natural occurring vesicles have the advantage of being fully compatible with their host, artificial vesicles can be easily synthetized and functionalized according to the target to reach. Research is striving to merge the advantages of natural and artificial vesicles, in order to provide a new generation of highly performing vesicles, which would improve the therapeutic index of transported molecules. This progress report summarizes current manufacturing techniques used to produce both natural and artificial vesicles, exploring the promises and pitfalls of the different production processes. Finally, pros and cons of natural versus artificial vesicles are discussed and compared, with special regard toward the current applications of both kinds of vesicles in the healthcare field. Lipid vesicles are emerging as fundamental tools for the development of novel theragnostic approaches in nanomedicine. This Review describes the properties of these natural (i.e., extracellular vesicles) versus artificial (e.g., liposomes, polymersomes) “delivery systems”. The most recent progress in the preparation and application of both systems, together with the perspectives for the realization of highly performing hybrid vesicles are provided.
ISSN:2192-2640
2192-2659
DOI:10.1002/adhm.202000731