Your search keyword '"Terreni E"' showing total 13 results

1. Development and validation of high-performance liquid chromatography method to quantify tavaborole during in vitro transungual permeation studies

Author

Tampucci, S, Terreni, E, Burgalassi, S, Chetoni, P, and Monti, D.

Subjects

NAIL LACQUERS, ONYCHOMYCOSIS, PENETRATION, CICLOPIROX

Published

2018

2. Binary Polymeric Surfactant Mixtures for the Development of Novel Loteprednol Etabonate Nanomicellar Eyedrops.

Author

Tampucci S, Monti D, Burgalassi S, Terreni E, Paganini V, Di Gangi M, and Chetoni P

Abstract

The treatment of several ocular inflammatory conditions affecting different areas of the ocular globe involves the administration of topical ophthalmic formulations containing corticosteroids. This research was aimed at evaluating the solubilising efficacy of 5.0% w / w of different binary mixtures of commercial amphiphilic polymeric surfactants with the purpose of obtaining nanomicellar solutions containing a high amount of loteprednol etabonate (LE). The selected LE-TPGS/HS nanomicelles, containing 0.253 mg/mL of the drug, had a small size (=13.57 nm) and uniform distribution (Polydispersity Index = 0.271), appeared completely transparent and perfectly filterable through 0.2 μm membrane filter, and remained stable up to 30 days at 4 °C. The critical micellar concentration (CMC TPGS/HS ) was 0.0983 mM and the negative value of the interaction parameter between the polymeric-surfactant-building unit (β TPGS/HS = -0.1322) confirmed the ability of the polymeric surfactants to interact, favouring the dissolution of LE into nanomicelles. The disappearance of the endothermic peak of LE in the DSC analysis confirmed the interactions of LE with the polymeric surfactants. LE-TPGS/HS produced in vitro LE which sustained diffusion for 44 h (more than 40% of encapsulated LE). Furthermore, the lack of a significant cytotoxic effect on a sensitive corneal epithelial cell line makes it a candidate for further biological studies.

Published

2023

3. A hybrid ocular delivery system of cyclosporine-A comprising nanomicelle-laden polymeric inserts with improved efficacy and tolerability.

Author

Terreni E, Chetoni P, Burgalassi S, Tampucci S, Zucchetti E, Chipala E, Alany RG, Al-Kinani AA, and Monti D

Subjects

Animals, Micelles, Polymers, Rabbits, Cyclosporine, Dry Eye Syndromes drug therapy

Abstract

We report on hybrid nanomicelle-polymer inserts for improved delivery of cyclosporine A (CyA) to the surface of the eye. Hybrid inserts containing a nanomicellar formulation were prepared by the solvent casting method; their characteristics, in vitro release of CyA, eye irritation potential, nanomicelle distribution inside the insert, and in vivo pharmacokinetics of the most promising solid formulation (F3) were investigated. Nanomicelles capable of accommodating a therapeutically relevant amount of CyA (57.22 ± 5.90-68.52 ± 1.4 μg) were incorporated into five different polymeric formulations (F1-F5). The developed inserts displayed promising characteristics (size, weight, surface pH, and contact angle) that fulfill ocular tolerability requirements. Considering the technological properties and CyA in vitro release, F3 and F5 were the most promising formulations. SEM analysis suggested the F3 formulation as the potential prototype for CyA ocular delivery. The F3 formulation (CyA: 60.08 ± 2.85 μg) did not induce conjunctival irritation when HET-CAM assay was performed and was hence considered suitable for further study in a rabbit eye. The AUC value for CyA loaded in the F3 insert was about 2-fold greater than that obtained with the Ikervis® used as a control formulation. F3 produced a significant reduction (of about 7-folds) in the rate of CyA elimination from the tear fluid relative to Ikervis® and about 4-fold greater reduction than Nano-CyA ( p = 0.0187). The ability of F3 to delay the elimination of the drug from the precorneal area is particularly desirable when treating dry eye syndrome. Furthermore, F3 did not induce ocular discomfort, a typical characteristic of solid ocular inserts, including commercially available ones.

Published

2021

4. Combination of Nanomicellar Technology and In Situ Gelling Polymer as Ocular Drug Delivery System (ODDS) for Cyclosporine-A.

Author

Terreni E, Zucchetti E, Tampucci S, Burgalassi S, Monti D, and Chetoni P

Abstract

A combination of in situ gelling systems and a loaded drug self-assembling nanomicellar carrier was chosen in this study as a new potential Ocular Drug Delivery System (ODDS) for Cyclosporine-A (CyA), a poorly water-soluble drug. Two non-ionic surfactants (d-α-tocopherol polyethylene glycol succinate, VitE-TPGS and polyoxyl 40 hydrogenated castor oil, RH-40) were used to produce the nanomicelles. The physical-chemical characterization of the nanomicelles in terms of CyA entrapment (EE%) and loading efficiency (LE%), cloud point (CP), regeneration time (RT), size and polydispersity index (PI) allowed us to select the best combination of surfactant mixture, which showed appropriate stability, high CyA-EE (99.07%), very small and homogeneous dimensions and favored the solubilization of an amount of CyA (0.144% w / w ) comparable to that contained in marketed emulsion Ikervis ® . The selected nanomicellar formulation incorporated into optimized ion-sensitive polymeric dispersions of gellan gum (GG-LA: 0.10, 0.15 and 0.20% w / w ) able to trigger the sol-gel transition after instillation was characterized from technological (osmolality, pH, gelling capacity, rheological behavior, wettability, TEM and storage stability at 4 and 20 °C) and biopharmaceutical points of view. This new combined approach allowed us to obtain clear aqueous dispersions that were easy to instill and able to form a viscous gel when in contact with the tear fluid, improving CyA ocular bioavailability. Furthermore, this new ODDS prevented CyA transcorneal permeation, exhibited low cytotoxicity and prolonged the CyA resident time in the precorneal area compared to Ikervis ® .

Published

2021

5. pH-Responsive Nanostructures Based on Surface Active Fatty Acid-Protic Ionic Liquids for Imiquimod Delivery in Skin Cancer Topical Therapy.

Author

Tampucci S, Guazzelli L, Burgalassi S, Carpi S, Chetoni P, Mezzetta A, Nieri P, Polini B, Pomelli CS, Terreni E, and Monti D

Abstract

For topical treatment of skin cancer, the design of pH-responsive nanocarriers able to selectively release the drug in the tumor acidic microenvironment represents a reliable option for targeted delivery. In this context, a series of newly synthesized surface-active fatty acid-protic ionic liquids (FA-PILs), based on tetramethylguanidinium cation and different natural hydrophobic fatty acid carboxylates, have been investigated with the aim of developing a pH-sensitive nanostructured drug delivery system for cutaneous administration in the skin cancer therapy. The capability of FA-PILs to arrange in micelles when combined with each other and with the non-ionic surfactant d-α-Tocopherol polyethylene glycol succinate (vitamin E TPGS) as well as their ability to solubilize imiquimod, an immuno-stimulant drug used for the treatment of skin cancerous lesions, have been demonstrated. The FA-PILs-TPGS mixed micelles showed pH-sensitivity, suggesting that the acidic environment of cancer cells can trigger nanostructures' swelling and collapse with consequent rapid release of imiquimod and drug cytotoxic potential enhancement. The in vitro permeation/penetration study showed that the micellar formulation produced effective imiquimod concentrations into the skin exposed to acid environment, representing a potential efficacious and selective drug delivery system able to trigger the drug release in the tumor tissues, at lower and less irritating drug concentrations.

Published

2020

6. Development and Characterization of a Novel Peptide-Loaded Antimicrobial Ocular Insert.

Author

Terreni E, Burgalassi S, Chetoni P, Tampucci S, Zucchetti E, Fais R, Ghelardi E, Lupetti A, and Monti D

Subjects

Adhesives chemistry, Anti-Infective Agents administration & dosage, Anti-Infective Agents pharmacology, Drug Liberation, Freeze Drying, Hyaluronic Acid chemistry, Hypromellose Derivatives chemistry, Peptide Fragments administration & dosage, Peptide Fragments pharmacology, Protein Stability, Staphylococcus epidermidis drug effects, Administration, Ophthalmic, Anti-Infective Agents chemistry, Drug Carriers chemistry, Lactoferrin chemistry, Peptide Fragments chemistry

Abstract

Infectious ocular keratitis is the leading cause of blindness worldwide. Bacterial resistance to classical pharmacological treatments raised the interest of researchers towards antimicrobial peptide (AMP)-based therapy. hLF 1-11, a synthetic antimicrobial peptide derived from the N-terminus of human lactoferrin, proved effective against different bacteria and yeast but, like all proteinaceous materials, it is unstable from chemical, physical, and biological points of view. In this study, new freeze-dried solid matrices containing mucoadhesive polymers were prepared and characterized in terms of rheology, hydration time, bioadhesion, drug content, and in vitro release. The formulation HPMC/T2/HA/hLF 1-11 fd was selected for the delivery of hLF 1-11, since it showed good drug recovery and no chemical degradation up to at least 6 months (long-term stability). Furthermore, the HPMC/T2/HA/hLF 1-11 fd matrix allowed for the release of the drug in a simulated physiological environment, linked to an optimal hydration time, and the peptide antimicrobial activity was preserved for up to 15 months of storage, a very promising result considering the chemical liability of proteinaceous material. For its properties, the freeze-dried matrix developed in this study could be a good platform for the delivery of antimicrobial peptides in the precorneal area to treat infectious phenomena of the ocular surface.

Published

2020

7. Assembling Surfactants-Mucoadhesive Polymer Nanomicelles (ASMP-Nano) for Ocular Delivery of Cyclosporine-A.

Author

Terreni E, Chetoni P, Tampucci S, Burgalassi S, Al-Kinani AA, Alany RG, and Monti D

Abstract

The physiological protective mechanisms of the eye reduce the bioavailability of topically administered drugs above all for those with high molecular weight and /or lipophilic characteristics, such as Cyclosporine A (CyA). The combined strategy based on the association of nanomicelles and mucoadhesive polymer seems promising since a limited number of commercial products containing CyA have been recently approved. The scope of this investigation was the design of Assembling Surfactants-Mucoadhesive Polymer Nanomicelles (ASMP-Nano), based on a binary system of two surfactants in combination with hyaluronic acid, and their biopharmaceutical evaluation. The optimisation of the ASMP-Nano in term of the amount of surfactants, CyA-loading and size determined the selection of the clear and stable Nano1HAB-CyA formulation containing 0.105% w / w CyA loaded-nanomicelles with a size of 14.41 nm. The nanostructured system had a protective effect towards epithelial corneal cells with a cell viability of more than 80%. It interacted with cellular barriers favouring the uptake and the accumulation of CyA into the cells as evidenced by fluorescent probe distribution, by hindering CyA permeation through reconstituted corneal epithelial tissue. In pharmacokinetics study on rabbits, the nanomicellar carrier prolonged the CyA retention time in the precorneal area mainly in presence of hyaluronic acid (HA), a mucoadhesive polymer., Competing Interests: The authors declare no conflict of interest

Published

2020

8. Formulations Based on Natural Ingredients for the Treatment of Nail Diseases.

Author

Tampucci S, Terreni E, Zucchetti E, Burgalassi S, Chetoni P, and Monti D

Subjects

Administration, Topical, Antifungal Agents therapeutic use, Chemistry, Pharmaceutical, Humans, Nails, Permeability, Biological Products therapeutic use, Nail Diseases drug therapy

Abstract

Nail is a strong and resistant structure, characterized by a low permeability to foreign molecules. Nails can be subjected to many diseases, among which fungal infections (e.g. onchomycosis) are the most common and responsible for nail structure alteration. Many formulations have been produced for the delivery of active ingredients to treat nail disorders, based on newly synthesized active molecules or containing chemical enhancers or chemically-modified polymers able to improve the drug transungual penetration. To avoid permanent alterations of the nail structure due to the use of chemical compounds or organic solvent-based formulation, researchers have developed novel formulations focusing on the use of new natural-based compounds. The purpose of this review is to provide information on the outcoming of natural ingredients-based formulations that have been developed in the last years as potential alternative to chemical-based formulations., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2020

9. Effect of 5-Oxo-2-Pyrrolidinecarboxylic Acid (PCA) as a New Topically Applied Agent for Dry Eye Syndrome Treatment.

Author

Tampucci S, Monti D, Burgalassi S, Terreni E, Zucchetti E, Baldacci F, and Chetoni P

Abstract

The aim of the study was the evaluation of the suitability of 5-oxo-2-pyrrolidinecarboxylic acid (PCA), also in combination with hyaluronic acid (HA), as artificial tears for treatment of dry eye syndrome (DES). Different aqueous formulations containing 0.10% w/w of PCA were used to determine: (i) ex vivo permeation profile of PCA in isolated rabbit corneas; (ii) in vivo residence time of PCA in the precorneal area of rabbits; and (iii) in vivo ability of PCA to counteract the reduction of tear production in an experimental model of DES induced in rabbits. The pharmacokinetic profile of PCA in tear fluid was characterized by high concentrations immediately after application, followed by a rapid decrease, with half-life values of 17.16 and 22.27 min for solutions containing PCA alone and in combination with HA, respectively, when 100 µL of solutions were instilled. The addition of HA almost doubled the PCA bioavailability minimizing the ex vivo apparent corneal permeability of PCA. A positive Shirmer Test Score (STS) was observed for PCA compared to contralateral eyes at all days of treatment for PCA/HA formulation. PCA provides protection from desiccation probably for its osmoprotective activity and high water⁻binding capability, and this behaviour was enhanced by HA., Competing Interests: S.T., D.M., S.B., E.T., E.Z., and P.C. declare that they have not conflict of interest. F.B. is an employee of Laboratori Baldacci SpA; The funder had no role in the collection, analyses, or interpretation of data; in the writing of the manuscript, and in the decision to publish the results.

Published

2018

10. Freeze-dried matrices for ocular administration of bevacizumab: a comparison between subconjunctival and intravitreal administration in rabbits.

Author

Burgalassi S, Monti D, Nicosia N, Tampucci S, Terreni E, Vento A, and Chetoni P

Subjects

Administration, Ophthalmic, Angiogenesis Inhibitors chemistry, Animals, Bevacizumab chemistry, Delayed-Action Preparations administration & dosage, Delayed-Action Preparations chemistry, Drug Liberation, Drug Stability, Eye drug effects, Eye metabolism, Freeze Drying, Intraocular Pressure drug effects, Male, Polymers administration & dosage, Polymers chemistry, Rabbits, Rheology, Sterilization, Viscosity, Water chemistry, Angiogenesis Inhibitors administration & dosage, Bevacizumab administration & dosage

Abstract

This work was aimed to tune solid matrices for bevacizumab (BVZ) subconjunctival or intravitreal administration in order to prolong drug release, to reduce the number of applications and consequently the side effects. Matrices, with sizes suitable for intravitreal or subconjunctival administration, based on hydroxypropylmethyl cellulose (HPMC), polyvinylpyrrolidone (PVP), polyvinyl alcohol (PVA) and polyacrylic acid (PAA) were obtained by freeze-drying of polymeric dispersions either in phosphate buffer solution or water and were sterilized by gamma rays. The matrices were characterized from the technological point of view and evaluated for in vitro release of dextran and BVZ. In vivo evaluation of BVZ release in ocular humours was finally carried out on rabbits. The obtained matrices showed solvent sorption time ranging from a few seconds for PAA to 46 min for HPMC, with shorter times when prepared in buffer solution. The hydration times were up to 5.5-fold higher after sterilization. HPMC and PVA matrices showed a slowdown of the release rate of both dextran and BVZ, but HPMC was selected for following in vivo studies also in consideration of its higher viscosity after rehydration of the matrix. HPMC matrix was well tolerated by the rabbit eye when intravitreally and subconjunctivally administered. The different treatment produced the same effect in terms of drug concentration in aqueous and vitreous humour up to 12 weeks after administration. The results of this study support the possible use of lyophilized matrices as a BVZ delivery system to the posterior segment of the eye.

Published

2018

11. Influence of a Combination of Chemical Enhancers and Iontophoresis on In Vitro Transungual Permeation of Nystatin.

Author

Monti D, Egiziano E, Burgalassi S, Tampucci S, Terreni E, Tivegna S, and Chetoni P

Subjects

Administration, Cutaneous, Animals, Anti-Bacterial Agents administration & dosage, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents metabolism, Cattle, Dose-Response Relationship, Drug, Excipients administration & dosage, Excipients chemistry, Excipients metabolism, Nystatin administration & dosage, Permeability drug effects, Hoof and Claw drug effects, Hoof and Claw metabolism, Iontophoresis methods, Nystatin chemistry, Nystatin metabolism

Abstract

To promote transungual permeation of nystatin (NYST), molecule with high molecular weight, no water-soluble, amphoteric by iontophoresis. The synergic effect of the combination of cetylpyridinium chloride, CPC, or polyoxyethylene (20) sorbitan monooleate, TW80, and iontophoresis was investigated. In vitro permeation experiments were carried out through bovine hoof slices using vertical diffusion cells. A low current density (0.2 mA/cm 2 ) was applied by introducing Ag/AgCl electrodes in the donor (anode) and receptor (cathode) chambers. The donor phase consisted of a solution, a suspension, or gel-type vehicles containing NYST and surfactants in pH 5.6 HEPES buffer. The addition of CPC to NYST suspension (SOSP) produced a fivefold increase on the permeability of the bovine hoof membrane to the drug. The application of anodal iontophoresis further improved NYST flux. Conversely, NYST transungual permeation was not influenced by TW80 either in the passive diffusion or iontophoretic flux. Furthermore, the iontophoretic treatment does not appear to induce irreversible alterations to the hoof bovine membranes. The present work demonstrated the efficacy of iontophoresis as a treatment for different nail pathologies with large molecules very slightly soluble in water without irreversibly affecting the nail structure. A synergistic effect between CPC and iontophoresis was observed.

Published

2018

12. A water-soluble, mucoadhesive quaternary ammonium chitosan-methyl-β-cyclodextrin conjugate forming inclusion complexes with dexamethasone.

Author

Piras AM, Zambito Y, Burgalassi S, Monti D, Tampucci S, Terreni E, Fabiano A, Balzano F, Uccello-Barretta G, and Chetoni P

Subjects

Animals, Carbohydrate Conformation, Cell Line, Cell Survival drug effects, Drug Compounding, Chitosan chemistry, Dexamethasone chemistry, Quaternary Ammonium Compounds, Water, beta-Cyclodextrins chemistry

Abstract

The ocular bioavailability of lipophilic drugs, such as dexamethasone, depends on both drug water solubility and mucoadhesion/permeation. Cyclodextrins and chitosan are frequently employed to either improve drug solubility or prolong drug contact onto mucosae, respectively. Although the covalent conjugation of cyclodextrin and chitosan brings to mucoadhesive drug complexes, their water solubility is restricted to acidic pHs. This paper describes a straightforward grafting of methyl-β-cyclodextrin (MCD) on quaternary ammonium chitosan (QA-Ch60), mediated by hexamethylene diisocyanate. The resulting product is a water-soluble chitosan derivative, having a 10-atom long spacer between the quaternized chitosan and the cyclodextrin. The derivative is capable of complexing the model drug dexamethasone and stable complexes were also observed for the lyophilized products. Furthermore, the conjugate preserves the mucoadhesive properties typical of quaternized chitosan and its safety as solubilizing excipient for ophthalmic applications was preliminary assessed by in vitro cytotoxicity evaluations. Taken as a whole, the observed features appear promising for future processing of the developed product into 3D solid forms, such as controlled drug delivery systems, films or drug eluting medical devices.

Published

2018

13. Development and Validation of an HPLC-UV Method to Quantify Tavaborole During in Vitro Transungual Permeation Studies.

Author

Tampucci S, Terreni E, Burgalassi S, Chetoni P, and Monti D

Subjects

Animals, Antifungal Agents isolation & purification, Boron Compounds isolation & purification, Bridged Bicyclo Compounds, Heterocyclic isolation & purification, Cattle, Hoof and Claw chemistry, Limit of Detection, Reproducibility of Results, Antifungal Agents analysis, Boron Compounds analysis, Bridged Bicyclo Compounds, Heterocyclic analysis, Chromatography, High Pressure Liquid methods, Spectrophotometry, Ultraviolet methods

Abstract

A selective and rapid reversed-phase HPLC-UV method was developed and validated to quantify tavaborole (TAV; AN2690) in biological samples, i.e., in receiving phase and in bovine hoof membrane extract derived from in vitro transungual permeation studies. A simple solid-liquid extraction procedure was used to recover the drug from the bovine hoof slices. TAV chromatographic separation was achieved on a Luna PFP column (150 × 4.6 mm, 5 μm) using a mobile phase consisting of a 70% phosphoric acid solution (10 mM, pH 2.0) with 30% acetonitrile. The detection wavelength was set to 220 nm using a UV detector. The method exhibited good linearity in the calibration ranges, which were 0.5-8.0 and 0.03-2.5 μg/mL for the receiving phase and hoof membranes, respectively. The obtained LOD and LOQ values were 0.023 and 0.069 μg/mL, respectively, for the receiving phase and 0.0024 and 0.007 μg/mL for the bovine hoof membrane extracts. In all cases, the CV for intraday and interday precision was widely below the limit of 2%, demonstrating good precision. The analytical method described was sensitive, precise, linear, and accurate and could be applicable for clinical and bioanalytical studies as an alternative to other analytical methods, which are quite expensive and not always available in research laboratories.

Published

2018