Sabrina Bochicchio

Research Fellow

+39.089.968291

sbochicchio@unisa.it

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Theses

PhD thesis

Sabrina Bochicchio, Nanostructured vectors for the transport of active molecules through biological membranes for pharmaceutical and nutraceutical applications, PhD in Industrial Engineering at University of Salerno, Supervisor: Prof. Ing. Anna Angela Barba, Scientific Committee: Prof. Sotiris Missailidis (Instituto Oswaldo Cruz, Brasil, Open University, UK), Prof. Gabriele Grassi (University Hospital of Cattinara, Trieste), Prof. Gaetano Lamberti (Università degli Studi di Salerno

Publications

2017

Dalmoro, Annalisa; Abrami, Michela; Galzerano, Barbara; Bochicchio, Sabrina; Barba, Anna Angela; Grassi, Mario; Larobina, Domenico

Injectable chitosan/b-glycerophosphate system for sustained release: gelation study, structural investigation and erosion tests Journal Article

In: Current Drug Delivery, vol. 14, no. 2, pp. 216 - 223, 2017.

Abstract | Links | BibTeX | Tags: Hydrogel Characterization

@article{Dalmoro2016b,

title = { Injectable chitosan/b-glycerophosphate system for sustained release: gelation study, structural investigation and erosion tests},

author = {Annalisa Dalmoro and Michela Abrami and Barbara Galzerano and Sabrina Bochicchio and Anna Angela Barba and Mario Grassi and Domenico Larobina},

url = {https://www.gruppotpp.it/wp-content/uploads/2017/03/06.-Dalmoro-et-al-CDD-142-216-223-2017.pdf



http://benthamscience.com/journals/current-drug-delivery/volume/14/issue/2/page/216/



},

doi = {10.2174/1567201813666160721142202},

year  = {2017},

date = {2017-02-08},

issuetitle = {NEW TRENDS IN GENE THERAPY: MULTIDISCIPLINARY APPROACHES TO SIRNAS CONTROLLED DELIVERY},

journal = {Current Drug Delivery},

volume = {14},

number = {2},

pages = {216 - 223},

abstract = {Hydrogels can constitute reliable delivery systems of drugs, including those based on nucleic acids (NABDs) such as small interfering ribonucleic acid (siRNA). Their nature, structure, and response to physiological or external stimuli strongly influence the delivery mechanisms of entrapped active molecules, and, in turns, their possible uses in pharmacological and biomedical applications. In this study a thermo-gelling chitosan/β-glycero-phosphate system has been optimized in order to assess its use as injectable system able to: i) gelling at physiological pH and temperature, and ii) modulate the release of included active ingredients. To this aim we first analyzed the effect of acetic acid concentration on the gelation temperature. We then found the “optimized composition”, namely, the one in which the Tgel is equal to the physiological temperature. The resulting gel was tested, by low field nuclear magnetic resonance (LF-NMR), to evaluate its average mesh-size, which can affect release kinetics of loaded drug. Finally, films of gelled chitosan, loaded with a model drug, have been tested in vitro to monitor their characteristic times, i.e. diffusion and erosion time, when they are exposed to a medium mimicking a physiological environment (buffer solution at pH 7.4). Results display that the optimized system is deemed to be an ideal candidate as injectable gelling material for a sustained release.},

keywords = {Hydrogel Characterization},

pubstate = {published},

tppubtype = {article}

}