| Literature DB >> 24824141 |
Luigi Battaglia1, Marina Gallarate2, Elena Peira2, Daniela Chirio2, Elisabetta Muntoni2, Elena Biasibetti3, Maria Teresa Capucchio3, Alberto Valazza3, Pier Paolo Panciani4, Michele Lanotte4, Davide Schiffer5, Laura Annovazzi5, Valentina Caldera5, Marta Mellai5, Chiara Riganti6.
Abstract
The major obstacle to glioblastoma pharmacological therapy is the overcoming of the blood-brain barrier (BBB). In literature, several strategies have been proposed to overcome the BBB: in this experimental work, solid lipid nanoparticles (SLN), prepared according to fatty acid coacervation technique, are proposed as the vehicle for doxorubicin (Dox), to enhance its permeation through an artificial model of BBB. The in vitro cytotoxicity of Dox-loaded SLN has been measured on three different commercial and patient-derived glioma cell lines. Dox was entrapped within SLN thanks to hydrophobic ion pairing with negatively charged surfactants, used as counterions. Results indicate that Dox entrapped in SLN maintains its cytotoxic activity toward glioma cell lines; moreover, its permeation through hCMEC/D3 cell monolayer, assumed as a model of the BBB, was increased when the drug was entrapped in SLN. In conclusion, SLN proved to be a promising vehicle for the delivery of Dox to the brain in glioblastoma treatment.Entities:
Keywords: CNS; SLN; blood-brain barrier; coacervation; doxorubicin; glioblastoma; ion pairing; nanoparticles
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Year: 2014 PMID: 24824141 DOI: 10.1002/jps.24002
Source DB: PubMed Journal: J Pharm Sci ISSN: 0022-3549 Impact factor: 3.534