Le pubblicazioni dei componenti del gruppo di ricerca.
2020
Bochicchio, Sabrina; Dalmoro, Annalisa; Simone, Veronica De; Bertoncin, Paolo; Lamberti, Gaetano; Barba, Anna Angela
Simil-Microfluidic Nanotechnology in Manufacturing of Liposomes as Hydrophobic Antioxidants Skin Release Systems Journal Article
In: Cosmetics, vol. 7, no 22, pp. 13, 2020.
Abstract | Links | BibTeX | Tags: antioxidants, cosmeceutics, nanoliposomes, simil-microfluidic technology, transdermal delivery
@article{Bochicchio2020,
title = {Simil-Microfluidic Nanotechnology in Manufacturing of Liposomes as Hydrophobic Antioxidants Skin Release Systems},
author = {Sabrina Bochicchio and Annalisa Dalmoro and Veronica De Simone and Paolo Bertoncin and Gaetano Lamberti and Anna Angela Barba},
url = {https://www.mdpi.com/2079-9284/7/2/22/pdf},
doi = {10.3390/cosmetics7020022},
year = {2020},
date = {2020-04-03},
journal = {Cosmetics},
volume = {7},
number = {22},
pages = {13},
abstract = {Novel nanotechnologies represent the most attractive and innovative tools to date exploited by cosmetic companies to improve the effectiveness of their formulations. In this context, nanoliposomes have had a great impact in topical preparations and dermocosmetics, allowing the transcutaneous penetration and absorption of several active ingredients and improving the stability of sensitive molecules. Despite the recent boom of this class of delivery systems, their industrial production is still limited by the lack of easily scalable production techniques. In this work, nanoliposomes for the topical administration of vitamin D3, K2, E, and curcumin, molecules with high antioxidant and skin curative properties but unstable and poorly absorbable, were produced through a novel simil-microfluidic technique. The developed high-yield semi continuous method is proposed as an alternative to face the problems linked with low productive conventional methods in order to produce antioxidant formulations with improved features. The novel technique has allowed to obtain a massive production of stable antioxidant vesicles of an 84\textendash145 nm size range, negatively charged, and characterized by high loads and encapsulation efficiencies. The obtained products as well as the developed high-performance technology make the achieved formulations very interesting for potential topical applications in the cosmetics/cosmeceutical field. },
keywords = {antioxidants, cosmeceutics, nanoliposomes, simil-microfluidic technology, transdermal delivery},
pubstate = {published},
tppubtype = {article}
}
Novel nanotechnologies represent the most attractive and innovative tools to date exploited by cosmetic companies to improve the effectiveness of their formulations. In this context, nanoliposomes have had a great impact in topical preparations and dermocosmetics, allowing the transcutaneous penetration and absorption of several active ingredients and improving the stability of sensitive molecules. Despite the recent boom of this class of delivery systems, their industrial production is still limited by the lack of easily scalable production techniques. In this work, nanoliposomes for the topical administration of vitamin D3, K2, E, and curcumin, molecules with high antioxidant and skin curative properties but unstable and poorly absorbable, were produced through a novel simil-microfluidic technique. The developed high-yield semi continuous method is proposed as an alternative to face the problems linked with low productive conventional methods in order to produce antioxidant formulations with improved features. The novel technique has allowed to obtain a massive production of stable antioxidant vesicles of an 84–145 nm size range, negatively charged, and characterized by high loads and encapsulation efficiencies. The obtained products as well as the developed high-performance technology make the achieved formulations very interesting for potential topical applications in the cosmetics/cosmeceutical field.