S
Stefano Salmaso
Researcher at University of Padua
Publications - 101
Citations - 4013
Stefano Salmaso is an academic researcher from University of Padua. The author has contributed to research in topics: PEG ratio & Drug delivery. The author has an hindex of 32, co-authored 96 publications receiving 3449 citations. Previous affiliations of Stefano Salmaso include University of California, Los Angeles & University of Nottingham.
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Journal ArticleDOI
“SMART” Drug Delivery Systems: Double-Targeted pH-Responsive Pharmaceutical Nanocarriers
Rishikesh M. Sawant,Hurley James P,Stefano Salmaso,Amit Kale,E. V. Tolcheva,Tatyana S. Levchenko,Vladimir P. Torchilin +6 more
TL;DR: To develop targeted pharmaceutical carriers additionally capable of responding to certain local stimuli, such as decreased pH values in tumors or infarcts, targeted long-circulating PEGylated liposomes and PEG-phosphatidylethanolamine-based micelles have been prepared with several functions.
Journal ArticleDOI
Stealth properties to improve therapeutic efficacy of drug nanocarriers.
Stefano Salmaso,Paolo Caliceti +1 more
TL;DR: The basic concept underlining the “stealth” properties of drug nanocarriers, the parameters influencing the polymer coating performance in terms of opsonins/macrophages interaction with the colloid surface, the most commonly used materials for the coating process and the outcomes of this peculiar procedure are thoroughly discussed.
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Development and in vivo evaluation of an oral insulin-PEG delivery system.
TL;DR: In this article, a combination of PEGylated insulin with a thiolated polymer used as drug carrier matrix might be a promising strategy for oral insulin administration in diabetic mice.
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Cell up-take control of gold nanoparticles functionalized with a thermoresponsive polymer
Stefano Salmaso,Paolo Caliceti,Vincenzo Amendola,Moreno Meneghetti,Johannes P. Magnusson,George Pasparakis,Cameron Alexander +6 more
TL;DR: Data show that good control of the AuNP cell up-take can be obtained with the new polymer-gold nanoconjugates, and suggest that these systems might find use for targeting cells in vitro by a small temperature change or in vivo in body sites, such as inflamed or tumour tissues, where a temperature variation is already present.
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Intravital three-dimensional bioprinting
Anna Urciuolo,Ilaria Poli,Luca brandolino,Paolo Raffa,Valentina Scattolini,Cecilia Laterza,Giovanni Giuseppe Giobbe,Elisa Zambaiti,Giulia Selmin,Michael Magnussen,Laura Brigo,Paolo De Coppi,Paolo De Coppi,Stefano Salmaso,Monica Giomo,Nicola Elvassore +15 more
TL;DR: 3D cell-laden photosensitive polymer hydrogels can be bioprinted across and within tissues of live mice, using bio-orthogonal two-photon cycloaddition and crosslinking of the polymers at wavelengths longer than 850 nm.