Filippo Calascibetta scite author profile

Filippo Calascibetta

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9Publications

163Citation Statements Received

124Citation Statements Given

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Affiliations

University of Palermo

Publications

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Medicated hydrogels of hyaluronic acid derivatives for use in orthopedic field

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et al. 2013

International Journal of Pharmaceutics

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Self-assembling and auto-crosslinkable hyaluronic acid hydrogels with a fibrillar structure

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et al. 2010

Acta Biomaterialia

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A new hyaluronic acid pH sensitive derivative obtained by ATRP for potential oral administration of proteins

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et al. 2013

International Journal of Pharmaceutics

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Atom transfer radical polymerization (ATRP) has been successfully employed to obtain a new derivative of hyaluronic acid (HA) able to change its solubility as a function of external pH and then to be potentially useful for intestinal release of bioactive molecules, included enzymes and proteins.In particular, a macroinitiator has been prepared by linking 2-bromo-2-methypropionic acid (BMP) to the amino groups of ethylenediamino derivative of tetrabutyl ammonium salt of HA (HA-TBA-EDA). This macroinititor, named HA-TBA-EDA-BMP has been used for the ATRP of sodium methacrylate (MANa) using a complex of Cu(I) and 2,2 ′ -bipyridyl (Byp) as a catalyst.The resulting copolymer, named HA-EDA-BMP-MANa, has been characterized by 1 H NMR and size exclusion chromatography (SEC) analyses. A turbidimetric analysis has showed its pH sensitive behavior, being insoluble in simulated gastric fluid but soluble when pH increases more than 2.5. To confirm the ability of HA-EDA-BMP-MANa in protecting peptides or proteins from denaturation in acidic medium, ␣-chymotrypsin has been chosen as a model of protein molecule and its activity has been evaluated after entrapment into HA-EDA-BMP-MANa chains and treatment under simulated gastric conditions. Finally, cell compatibility has been evaluated by performing a MTS assay on murine dermal fibroblasts cultured with HA-EDA-BMP-MANa solutions.

In situ gel forming graft copolymers of a polyaspartamide and polylactic acid: Preparation and characterization

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et al. 2008

European Polymer Journal

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Polyaspartamide‐polylactide electrospun scaffolds for potential topical release of Ibuprofen

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et al. 2012

J Biomedical Materials Res

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In this work, the production and characterization of electrospun scaffolds of the copolymer α,β-poly(N-2-hydroxyethyl)-DL-aspartamide-graft-polylactic acid (PHEA-g-PLA), proposed for a potential topical release of Ibuprofen (IBU), are reported. The drug has been chemically linked to PHEA-g-PLA and/or physically mixed to the copolymer before electrospinning. Degradation studies have been performed as a function of time in Dulbecco phosphate buffer solution pH 7.4, for both unloaded and drug-loaded scaffolds. By using an appropriate ratio between drug physically blended to the copolymer and drug-copolymer conjugate, a useful control of its release can be obtained. MTS assay on human dermal fibroblasts cultured onto these scaffolds, showed the absence of toxicity as well as their ability to allow cell adhesion.

Inulin‐Based Hydrogel for Oral Delivery of Flutamide: Preparation, Characterization, and in vivo Release Studies

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et al. 2012

Macromolecular Bioscience

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The ability of a hydrogel obtained by crosslinking INUDV and PEGBa to facilitate sustained release of flutamide is examined. The hydrogel is prepared in pH = 7.4 PBS and no toxic solvents or catalysts are used. It is recovered in microparticulate form and its size distribution is determined. Mucoadhesive properties are evaluated in vitro by reproducing gastrointestinal conditions. Flutamide is loaded into the hydrogel using a post-fabrication encapsulation procedure that allows a drug loading comparable to that of market tablets. Drug-loaded microparticles are orally administered to cross-bred dogs and the in vivo study demonstrates their ability to prolong the half-life of the principal active metabolite approximately threefold and to significantly increase its bioavailability.

Electrospinning of α,β-poly(N-2-hydroxyethyl)-dl-aspartamide-graft-polylactic acid to produce a fibrillar scaffold

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et al. 2010

European Polymer Journal

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Injectable in situ forming microgels of hyaluronic acid-g-polylactic acid for methylprednisolone release

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et al. 2013

European Polymer Journal

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