Laura Ravani - Academia.edu (original) (raw)

Papers by Laura Ravani

International Journal of Pharmaceutics, 2015

The aliphatic phosphine PTA (1,3,5-triaza-7-phosphaadamantane) is a promising ligand for metal co... more The aliphatic phosphine PTA (1,3,5-triaza-7-phosphaadamantane) is a promising ligand for metal complexes designed and developed as innovative inorganic drugs. In the present paper, an N-alkylated derivative of PTA, (PTAC 16 H 33)X (X = I, C1, or X = PF 6 , C2) and its platinum coordination complex cis-[PtCl 2 (PTAC 16 H 33) 2 ](PF 6) 2 , C3, were considered as components of cationic lipid nanoparticles (CLNs). Particularly, CLN1, CLN2 and CLN3 were obtained by adding derivatives C1, C2 or C3 during nanoparticles preparation, while CLN2-Pt were obtained by treating preformed CLN2 with Pt(II). It was demonstrated that CLN1, CLN2 and CLN3 can be produced with technological conventional methods. However, among the two here proposed protocols, the one based on the treatment of preformed nanoparticles appears more advantageous as compared to the other since it allows a quantitative association yield of Pt. As determined by ICP-OES, a content of P and Pt 2.2-fold and 2.5-fold higher in CLN2-Pt than in CLN3 was evidenced. For the first time was demonstrated that properly functionalized preformed nanoparticles can be efficiently used to obtain a post production Pt(II) complex while maintaining a cytotoxic activity toward cultured cells. In fact, the antiproliferative activity shown by CLN3, CLN2-Pt on the three model cancer cell lines was substantially similar and comparable to that of complex C3 in dmso solution. Thus N-alkylated-PTA derivatives in CLNs could be proposed as innovative biocompatible and water dispersible nanoparticles carrying lipophilic Pt complexes becoming an interesting and improved system with respect to dmso solution. 2015 Elsevier B.V. All rights reserved.

Experimental dermatology, Jan 21, 2015

The present study describes the production and characterization of nanostructured lipid dispersio... more The present study describes the production and characterization of nanostructured lipid dispersions (NLD) containing curcumin (CUR) as new tools for curcumin topical delivery. Four types of NLD based on monoolein in association with different emulsifiers were produced: Na cholate and poloxamer 407 (NLD1), poloxamer alone (NLD2), the mixture of Na cholate and Na caseinate (NLD3) and Na cholate alone (NLD4). Morphology, dimensional distribution of lipid dispersions were investigated by cryo-TEM and Photon Correlation Spectroscopy (PCS). In vitro studies based on Franz cell, membrane nylon and stratum corneum-epidermis (SCE) were carried out in order to compare the four NLDs in term of cytotoxicity in human keratinocytes and CUR diffusion. Our PCS studies showed differences in particles diameter among the different NLDs. In addition, cytotoxicity results in HaCaT cells evidenced that NLD1 and NLD2 were toxic at doses over 1 μM. Therefore Cryo-TEM was determined only for NLD3 and NLD4 s...

International Journal of Pharmaceutics, 2013

International Journal of Pharmaceutics, 2013

The purpose of this study was to investigate the potential of intranasal immunization with non-io... more The purpose of this study was to investigate the potential of intranasal immunization with non-ionic surfactant vesicles (NISV) containing either the secretory recombinant form of glycoprotein B (gBs) of herpes simplex virus type 1 or a related polylysine reach peptides (DTK) for induction of protective immunity against genital herpes infection in mice. NISV were prepared by lipid film hydration method. The mean diameter of vesicles was around 390 nm for DTK-containing NISV (DTK-NISV) and 320 nm for gB1s-containing NISV (gB1s-NISV). The encapsulation efficiency of the molecules was comprised between 57% and 70%. After 7-14 day NISV maintained stable dimensions and a drug encapsulation higher than 48%. We showed that intranasal immunization with gB1s-NISV induces gB-specific IgG antibody and lymphoproliferative responses, whereas vaccination with DTK-NISV was not able to generate a gB-specific immune response. Our results indicate that vaccination of BALB/c mice with gB1s-NISV induced Th1 responses, as characterized by increased titre of IG2a in plasma and IFN-production in CD4+ splenic cells. Intranasal immunization with gB1s-NISV could elicit 90% (almost complete) protection against a heterologous lethal vaginal challenge with herpes simplex virus type 2. These data may have implications for the development of a mucosal vaccine against genital herpes.

International Journal of Pharmaceutics, 2012

The purpose of this study was to investigate the potential of new positively charged solid lipid ... more The purpose of this study was to investigate the potential of new positively charged solid lipid nanoparticles (SLN) to convey nucleic acids. The cationic character of SLN was obtained by adding as cationic molecules two different long-chain cationic phosphines (CP), namely hexadecyl-PTA iodide (CP16) and octadecyl-PTA iodide (CP18). The obtained CP-SLN are characterized by a positive charge on the surface and reproducible dimensions around 220 nm. These nanosystems are able to efficiently bind nucleic acid molecules and to protect DNA from the activity of serum nucleases up to 120 min. Lastly, in vitro experiments demonstrated that CP-SLN exhibit a quite pronounced antiproliferative effect on cultured human K562 erythroleukemic cells and a limited effect as transfecting adjuvant. These data, and particularly the ability of CP-SLN to protect DNA from degradation, encourages further studies aimed at proposing these nanosystems as a potential approach to deliver nucleic acid to cells in living organisms.

Materials Science and Engineering: C, 2015

This study describes the preparation, characterization, and in vivo evaluation in rats of nanostr... more This study describes the preparation, characterization, and in vivo evaluation in rats of nanostructured lipid carriers (NLCs) encapsulating rimonabant (RMN) as prototypical cannabinoid antagonist. A study was conducted in order to optimize NLC production by melt and ultrasonication method. NLCs were prepared by alternatively adding the lipid phase into the aqueous one (direct protocol) or the aqueous phase into the lipid one (reverse protocol). RMN-NLCs have been characterized by cryogenic transmission electron microscopy (cryo-TEM), X-ray, photon correlation spectroscopy (PCS) and sedimentation field flow fractionation (SdFFF). Reverse NLCs were treated with polysorbate 80. RMN release kinetics have been determined in vitro by dialysis method. In vivo RMN biodistribution in rats was evaluated after intranasal (i.n.) administration of reverse RMN-NLC. The reverse protocol enabled to prevent the lost of lipid phase and to achieve higher RMN encapsulation efficacy (EE) with respect to the direct protocol (98% w/w versus 67% w/w). The use of different protocols did not affect NLC morphology and dimensional distribution. An in vitro dissolutive release rate of RMN was calculated. The in vivo data indicate that i.n. administration of RMN by reverse NLC treated with polysorbate 80 increased RMN concentration in the brain with respect to the drug in solution. The nanoencapsulation protocol presented here appears as an optimal strategy to improve the low solubility of cannabinoid compounds in an aqueous system suitable for in vivo administration.

Materials Science and Engineering: C, 2015

This paper describes the production, characterization and in vivo activity of lipid nanocarriers ... more This paper describes the production, characterization and in vivo activity of lipid nanocarriers (LN) containing a levodopa prodrug (LD-PD) with therapeutic potential in Parkinson's disease. LD is the mainstay of the pharmacotherapy of Parkinson's disease. However, after a good initial response, motor fluctuations, dyskinesia and loss of efficacy, develop over time, partly due to oscillations in plasma and brain levels of the drug. LD-PD was produced with the aim of prolonging the pharmacological activity of LD. To improve solubility, and simultaneously provide a long lasting release and therapeutic efficacy, the prodrug was formulated in tristearin/lecithin LN. The obtained formulation was homogeneous in particle size and remained stable for up to 2 months from preparation. For the three different tested LD concentrations, namely 1.25, 2.5 and 5.0 mg/ml, the morphological characterization revealed no substantial differences between unloaded and LD-PD loaded LN. The calorimetric test showed an interaction between the lipid phase and the loaded prodrug. In vitro studies using the dialysis method and enzymatic degradation procedure showed that the LD-PD loaded LN provided a controlled prodrug release. Finally, two behavioural tests specific to akinesia (bar test) or akinesia/bradykinesia (drag test) performed in 6hydroxydopamine hemilesioned mice (a model of Parkinson's disease) demonstrated that the LD-PD loaded LN attenuated parkinsonian disabilities, showing a slightly reduced maximal efficacy but a longer lasting action (up to 24 h) than an equal dose of LD. We conclude that LD-PD loaded LN may represent a future LD formulation useful in Parkinson's disease therapy.

New Biotechnology, 2014

Solid lipid nanoparticles (SLNs) consisting of tristearin or tribehenin, and monoolein aqueous di... more Solid lipid nanoparticles (SLNs) consisting of tristearin or tribehenin, and monoolein aqueous dispersions (MADs) consisting of glyceryl-monoolein have been studied as potential nanocarriers for nucleic acids. The cationic character of nanocarriers was obtained by adding cationic surfactants, such as diisobutylphenoxyethyl-dimethylbenzyl ammonium chloride (DEBDA) or PEG-15 Cocopolyamine (PCPA), to the lipid composition. The products were characterised in terms of size and morphology by Cryo-TEM and PCS. The charge properties were determined by measuring the zeta potential. Our experimental protocol enabled us to obtain homogeneous and stable cationic nanosystems within 3-6 months of production. Assessment of cytotoxicity on HepG2 cells by MTT assays indicated that MAD preparations were less toxic than SLN, and in general PCPA-containing formulations are less cytotoxic than DEBDA-containing ones. The formation of electrostatic complexes with salmon sperm or plasmid DNA, used as model nucleic acids, was evaluated by electrophoresis on agarose gel. The results confirmed that all the formulations studied are able to form the complex. Finally, we investigated the ability of SLN and MAD to deliver DNA into HepG2 cells, and to this purpose we exploited expression plasmids for green fluorescent protein or firefly luciferase. Although with reduced efficiency, the results showed that the produced nanocarriers are able to convey plasmids into cells. The data obtained encourage further study aimed at improving these new formulations and proposing them as novel in vitro transfection reagents with potential application to in vivo delivery of nucleic acids.

Materials Science and Engineering: C, 2013

The present study describes the production and characterization of monoolein aqueous dispersions ... more The present study describes the production and characterization of monoolein aqueous dispersions (MAD) as drug delivery systems for curcumin (CR). MAD based on monoolein and different emulsifiers have been produced and characterized. Morphology and dimensional distribution have been investigated by Cryogenic Transmission Electron Microscopy (cryo-TEM), Xray and Photon Correlation Spectroscopy (PCS). Monoolein in different mixtures with sodium cholate, sodium caseinate, bentonite and poloxamer resulted in heterogeneous dispersions constituted of unilamellar vesicles, cubosomes and sponge type phases, depending on the employed components, as found by cryo-TEM and X-ray studies. CR was encapsulated with entrapment efficiencies depending on the MAD composition, particularly the highest was reached in the case of monoolein/poloxamer/sodium cholate mixture. The same mixture was able to maintain CR stability also after 6 months. CR release modalities were in vitro investigated in order to mimic a possible subcutaneous administration of MAD. It was found that MAD constituted of monoolein/poloxamer and monoolein/poloxamer/sodium cholate mixtures were able to sustain CR release. MAD viscous vehicles were produced by xanthan gum. CR percutaneous absorption has been studied in vitro using excised human skin membranes [stratum corneum epidermis (SCE)] mounted into Franz cells. It was found that fluxes (F n) of CR incorporated in MAD are influenced by the presence of monoolein based nanosystems. In particular xanthan gum based MAD better control CR diffusion from MAD.

Journal of Pharmaceutical Sciences, 2010

The present study concerns the percutaneous absorption of naproxen (NPX), as model anti-inflammat... more The present study concerns the percutaneous absorption of naproxen (NPX), as model anti-inflammatory drug, included in liposome formulations constituted of different lipids: stratum corneum lipids (SCL) and phosphatidylcholine/cholesterol (PC/CHOL). Liposome dispersions were produced using two different methods: reverse-phase evaporation (REV) and thin layer evaporation (TLE). Morphology and dimensions of the disperse phase were characterized by cryo-transmission electron microscopy (cryo-TEM) and photon correlation spectroscopy, respectively. X-ray diffraction was employed to determine the structural organization of the vesicles. In vitro diffusion was studied by Franz cell on liposome dispersions viscosized by carbomer. Tape stripping was performed to investigate in vivo the performance of differently composed liposomes as NPX delivery system. Cryo-TEM showed spherical vesicles and bigger irregular elongated nanoparticles for TLE SCL liposomes. REV resulted in spherical and elongated multilamellar vesicles. Also X-ray diffraction evidenced L alpha or L beta multilamellar vesicles for PC/CHOL and SCL liposome respectively. The in vitro study showed a lower NPX flux for SCL with respect to PC/CHOL liposome. Tape stripping corroborate the in vitro findings regarding SCL, suggesting that liposomes create a drug reservoir mixing with SC lipids, whilst PC/CHOL liposome promoted NPX permeation through the skin. Liposome lipid composition seems to affect NPX permeation through the skin.

Journal of Liposome Research, 2009

The present article describes a comparative study of the performances of liposomes and ethosomes ... more The present article describes a comparative study of the performances of liposomes and ethosomes as specialized delivery systems for distamycin A (DA) and two of its derivatives. Liposomes and ethosomes were prepared by classical methods, extruded through polycarbonate filters, and characterized in terms of dimensions, morphology, and encapsulation efficiency. It was found that DA was associated with vesicles (either liposomes or ethosomes) by around 16.0%, while both derivatives of DA showed a percentage of association around 80% in the case of liposomes and around 50% in the case of ethosomes. In vitro antiproliferative activity experiments performed on cultured human and mouse leukemic cells demonstrated that vesicles were able to increase the activity of both derivatives of DA. In addition, it was demonstrated that the aging of both liposomes-and ethosomes-associated distamycin suspensions did not heavily influence the vesicle size, while all samples showed a relevant drug leakage with time. Moreover, according to the different physicochemical characteristics of DA and its derivatives (i.e., log P), vesicle-associated DA showed the highest loss of drug with respect to both its derivatives. In conclusion, the enhancement of drug activity expressed by these specialized delivery systems-associated DD could be interesting to obtain an efficient therapeutic effect aimed at reducing or minimizing toxic effects occurring with distamycins administration.

Indian Journal of Pharmaceutical Sciences, 2011

Indian Journal of Pharmaceutical Sciences, 2012

Cortesi, et al.: Eudragit ® Microparticles for the Release of Budesonide This study compares the ... more Cortesi, et al.: Eudragit ® Microparticles for the Release of Budesonide This study compares the behaviour of budesonide-containing microparticles made of Eudragit ® RS or Eudragit ® RS/ Eudragit ® RL 70:30 (w/w) prepared either by solvent evaporation or spray-drying technique. The loading efficiency of budesonide within microparticles was about 72% for microparticles prepared by solvent evaporation and around 78% for spray-dried microparticles. Thermal analyses were assessed to collect information about the structural stability of budesonide within the polymeric microspheres. The in vitro release was performed using simulating gastric (fasted state simulated gastric fluid) and intestinal (fasted state simulated intestinal fluid) fluids as the receiving solutions. After 3 h the drug release from Eudragit ® RS/Eudragit ® RL microparticles was about 6-fold higher than that obtained in the case of monopolymer microparticles. Using fasted state simulated intestinal fluid the drug was released between 4 and 30% in both types of preparations. Eudragit ® RS microparticles showed a better protection of the drug from gastric acidity than those of Eudragit ® RS/Eudragit ® RL allowing us to propose Eudragit ® RS microparticles as a hypothetical system of colon specific controlled delivery.

European Journal of Pharmaceutics and Biopharmaceutics, 2014

The present study describes the production and characterization of monoolein aqueous dispersions ... more The present study describes the production and characterization of monoolein aqueous dispersions (MAD) and lecithin organogels (ORG) as percutaneous delivery systems for curcumin (CUR). In particular, MAD stabilized by sodium cholate/poloxamer and w0 3 ORG lipid carriers, both in the presence and absence of CUR, have been considered: MAD morphology and dimensional distribution have been investigated by Cryogenic Transmission Electron Microscopy (cryo-TEM) and Photon Correlation Spectroscopy (PCS), while the inner structure of MAD and ORG has been studied by X-ray scattering techniques. As a general result, CUR chemical stability has been found to be better controlled by MAD, probably because CUR is more protected in the case of CUR-MAD with respect to CUR-ORG. To investigate the performance of differently composed lipid formulations as CUR delivery system, in vitro studies, based on Franz cell and stratum corneum-epidermis (SCE) membranes, and in vivo studies, based on skin reflectance spectrophotometry and tape stripping, were then performed. The results indicated that ORG induces a rapid and intense initial penetration of CUR probably due to a strong interaction between the peculiar supramolecular aggregation structure of phospholipids in the vehicle and the lipids present in the stratum corneum. Conversely, CUR incorporated into MAD can be released in a controlled fashion possibly because of the formation of a CUR depot in the stratum corneum. In this respect ORG could be employed in pathologies requiring rapid CUR action, while MAD could be proposed for assuring a prolonged CUR activity.

European Journal of Pharmaceutics and Biopharmaceutics, 2012

The physico-chemical properties and in vivo efficacies of two nanoparticulate systems delivering ... more The physico-chemical properties and in vivo efficacies of two nanoparticulate systems delivering the antiparkinsonian drug bromocriptine (BC) were compared in the present study. Monoolein Aqueous Dispersions (MADs) and Nanostructured Lipid Carriers (NLCs) were produced and characterized. Cryogenic transmission electron microscopy (cryo-TEM) and X-ray diffraction revealed the morphology of MAD and NLC. Dimensional distribution was determined by Photon Correlation Spectroscopy (PCS) and Sedimentation Field Flow Fractionation (SdFFF). In particular, BC was shown to be encapsulated with high entrapment efficiency both in MAD and in NLC, according to SdFFF combined with HPLC. Two behavioral tests specific for akinesia (bar test) or akinesia/bradykinesia (drag test) were used to compare the effects of the different BC formulations on motor disabilities in 6-hydroxydopamine hemilesioned rats in vivo, a model of Parkinson's disease. Both free BC and BC-NLC reduced the immobility time in the bar test and enhanced the number of steps in the drag test, although the effects of encapsulated BC were longer lasting (5 h). Conversely, BC-MAD was ineffective in the bar test and improved stepping activity in the drag test to a much lower degree than those achieved with the other preparations. We conclude that MAD and NLC can encapsulate BC, although only NLC provide long-lasting therapeutic effects possibly extending BC half-life in vivo.

Current Analytical Chemistry, 2013

The development of drug delivery systems in experimental therapy usually requires in vitro releas... more The development of drug delivery systems in experimental therapy usually requires in vitro release models, that should posses specific characteristics including: low cost, simple procedure, high reproducibility and very importantly resemble as strictly as possible the in vivo behaviour. In this respect, the paper describes the effects of the use of different experimental procedures on the drug release profiles from controlled delivery formulations based on nano and micro systems. As examples of micro and nanosystems, microparticles constituted of poly-lactide-co-glycolide (PEM) or gelatine (GEM) and nanostructured lipid carriers (NLC) or cubosomes (CBS) were selected, respectively. All the analysed formulations contained bromocriptine (BC) that represents a poorly water-soluble drug. The influence of the experimental release method and of release media has been investigated using different experimental setup including direct and reverse dialysis, flow-through cell, USP XXII paddle and Franz cell methods.

Materials Science and Engineering: C, 2013

European Journal of Pharmaceutics and Biopharmaceutics, 2014

Please cite this article in press as: E. Esposito et al., Effect of nanostructured lipid vehicles... more Please cite this article in press as: E. Esposito et al., Effect of nanostructured lipid vehicles on percutaneous absorption of curcumin, Eur. J. Pharm. Biopharm. (2013), http://dx.

International Journal of Pharmaceutics, 2015

The aliphatic phosphine PTA (1,3,5-triaza-7-phosphaadamantane) is a promising ligand for metal co... more The aliphatic phosphine PTA (1,3,5-triaza-7-phosphaadamantane) is a promising ligand for metal complexes designed and developed as innovative inorganic drugs. In the present paper, an N-alkylated derivative of PTA, (PTAC 16 H 33)X (X = I, C1, or X = PF 6 , C2) and its platinum coordination complex cis-[PtCl 2 (PTAC 16 H 33) 2 ](PF 6) 2 , C3, were considered as components of cationic lipid nanoparticles (CLNs). Particularly, CLN1, CLN2 and CLN3 were obtained by adding derivatives C1, C2 or C3 during nanoparticles preparation, while CLN2-Pt were obtained by treating preformed CLN2 with Pt(II). It was demonstrated that CLN1, CLN2 and CLN3 can be produced with technological conventional methods. However, among the two here proposed protocols, the one based on the treatment of preformed nanoparticles appears more advantageous as compared to the other since it allows a quantitative association yield of Pt. As determined by ICP-OES, a content of P and Pt 2.2-fold and 2.5-fold higher in CLN2-Pt than in CLN3 was evidenced. For the first time was demonstrated that properly functionalized preformed nanoparticles can be efficiently used to obtain a post production Pt(II) complex while maintaining a cytotoxic activity toward cultured cells. In fact, the antiproliferative activity shown by CLN3, CLN2-Pt on the three model cancer cell lines was substantially similar and comparable to that of complex C3 in dmso solution. Thus N-alkylated-PTA derivatives in CLNs could be proposed as innovative biocompatible and water dispersible nanoparticles carrying lipophilic Pt complexes becoming an interesting and improved system with respect to dmso solution. 2015 Elsevier B.V. All rights reserved.

Experimental dermatology, Jan 21, 2015

The present study describes the production and characterization of nanostructured lipid dispersio... more The present study describes the production and characterization of nanostructured lipid dispersions (NLD) containing curcumin (CUR) as new tools for curcumin topical delivery. Four types of NLD based on monoolein in association with different emulsifiers were produced: Na cholate and poloxamer 407 (NLD1), poloxamer alone (NLD2), the mixture of Na cholate and Na caseinate (NLD3) and Na cholate alone (NLD4). Morphology, dimensional distribution of lipid dispersions were investigated by cryo-TEM and Photon Correlation Spectroscopy (PCS). In vitro studies based on Franz cell, membrane nylon and stratum corneum-epidermis (SCE) were carried out in order to compare the four NLDs in term of cytotoxicity in human keratinocytes and CUR diffusion. Our PCS studies showed differences in particles diameter among the different NLDs. In addition, cytotoxicity results in HaCaT cells evidenced that NLD1 and NLD2 were toxic at doses over 1 μM. Therefore Cryo-TEM was determined only for NLD3 and NLD4 s...

International Journal of Pharmaceutics, 2013

International Journal of Pharmaceutics, 2013

The purpose of this study was to investigate the potential of intranasal immunization with non-io... more The purpose of this study was to investigate the potential of intranasal immunization with non-ionic surfactant vesicles (NISV) containing either the secretory recombinant form of glycoprotein B (gBs) of herpes simplex virus type 1 or a related polylysine reach peptides (DTK) for induction of protective immunity against genital herpes infection in mice. NISV were prepared by lipid film hydration method. The mean diameter of vesicles was around 390 nm for DTK-containing NISV (DTK-NISV) and 320 nm for gB1s-containing NISV (gB1s-NISV). The encapsulation efficiency of the molecules was comprised between 57% and 70%. After 7-14 day NISV maintained stable dimensions and a drug encapsulation higher than 48%. We showed that intranasal immunization with gB1s-NISV induces gB-specific IgG antibody and lymphoproliferative responses, whereas vaccination with DTK-NISV was not able to generate a gB-specific immune response. Our results indicate that vaccination of BALB/c mice with gB1s-NISV induced Th1 responses, as characterized by increased titre of IG2a in plasma and IFN-production in CD4+ splenic cells. Intranasal immunization with gB1s-NISV could elicit 90% (almost complete) protection against a heterologous lethal vaginal challenge with herpes simplex virus type 2. These data may have implications for the development of a mucosal vaccine against genital herpes.

International Journal of Pharmaceutics, 2012

The purpose of this study was to investigate the potential of new positively charged solid lipid ... more The purpose of this study was to investigate the potential of new positively charged solid lipid nanoparticles (SLN) to convey nucleic acids. The cationic character of SLN was obtained by adding as cationic molecules two different long-chain cationic phosphines (CP), namely hexadecyl-PTA iodide (CP16) and octadecyl-PTA iodide (CP18). The obtained CP-SLN are characterized by a positive charge on the surface and reproducible dimensions around 220 nm. These nanosystems are able to efficiently bind nucleic acid molecules and to protect DNA from the activity of serum nucleases up to 120 min. Lastly, in vitro experiments demonstrated that CP-SLN exhibit a quite pronounced antiproliferative effect on cultured human K562 erythroleukemic cells and a limited effect as transfecting adjuvant. These data, and particularly the ability of CP-SLN to protect DNA from degradation, encourages further studies aimed at proposing these nanosystems as a potential approach to deliver nucleic acid to cells in living organisms.

Materials Science and Engineering: C, 2015

This study describes the preparation, characterization, and in vivo evaluation in rats of nanostr... more This study describes the preparation, characterization, and in vivo evaluation in rats of nanostructured lipid carriers (NLCs) encapsulating rimonabant (RMN) as prototypical cannabinoid antagonist. A study was conducted in order to optimize NLC production by melt and ultrasonication method. NLCs were prepared by alternatively adding the lipid phase into the aqueous one (direct protocol) or the aqueous phase into the lipid one (reverse protocol). RMN-NLCs have been characterized by cryogenic transmission electron microscopy (cryo-TEM), X-ray, photon correlation spectroscopy (PCS) and sedimentation field flow fractionation (SdFFF). Reverse NLCs were treated with polysorbate 80. RMN release kinetics have been determined in vitro by dialysis method. In vivo RMN biodistribution in rats was evaluated after intranasal (i.n.) administration of reverse RMN-NLC. The reverse protocol enabled to prevent the lost of lipid phase and to achieve higher RMN encapsulation efficacy (EE) with respect to the direct protocol (98% w/w versus 67% w/w). The use of different protocols did not affect NLC morphology and dimensional distribution. An in vitro dissolutive release rate of RMN was calculated. The in vivo data indicate that i.n. administration of RMN by reverse NLC treated with polysorbate 80 increased RMN concentration in the brain with respect to the drug in solution. The nanoencapsulation protocol presented here appears as an optimal strategy to improve the low solubility of cannabinoid compounds in an aqueous system suitable for in vivo administration.

Materials Science and Engineering: C, 2015

This paper describes the production, characterization and in vivo activity of lipid nanocarriers ... more This paper describes the production, characterization and in vivo activity of lipid nanocarriers (LN) containing a levodopa prodrug (LD-PD) with therapeutic potential in Parkinson's disease. LD is the mainstay of the pharmacotherapy of Parkinson's disease. However, after a good initial response, motor fluctuations, dyskinesia and loss of efficacy, develop over time, partly due to oscillations in plasma and brain levels of the drug. LD-PD was produced with the aim of prolonging the pharmacological activity of LD. To improve solubility, and simultaneously provide a long lasting release and therapeutic efficacy, the prodrug was formulated in tristearin/lecithin LN. The obtained formulation was homogeneous in particle size and remained stable for up to 2 months from preparation. For the three different tested LD concentrations, namely 1.25, 2.5 and 5.0 mg/ml, the morphological characterization revealed no substantial differences between unloaded and LD-PD loaded LN. The calorimetric test showed an interaction between the lipid phase and the loaded prodrug. In vitro studies using the dialysis method and enzymatic degradation procedure showed that the LD-PD loaded LN provided a controlled prodrug release. Finally, two behavioural tests specific to akinesia (bar test) or akinesia/bradykinesia (drag test) performed in 6hydroxydopamine hemilesioned mice (a model of Parkinson's disease) demonstrated that the LD-PD loaded LN attenuated parkinsonian disabilities, showing a slightly reduced maximal efficacy but a longer lasting action (up to 24 h) than an equal dose of LD. We conclude that LD-PD loaded LN may represent a future LD formulation useful in Parkinson's disease therapy.

New Biotechnology, 2014

Solid lipid nanoparticles (SLNs) consisting of tristearin or tribehenin, and monoolein aqueous di... more Solid lipid nanoparticles (SLNs) consisting of tristearin or tribehenin, and monoolein aqueous dispersions (MADs) consisting of glyceryl-monoolein have been studied as potential nanocarriers for nucleic acids. The cationic character of nanocarriers was obtained by adding cationic surfactants, such as diisobutylphenoxyethyl-dimethylbenzyl ammonium chloride (DEBDA) or PEG-15 Cocopolyamine (PCPA), to the lipid composition. The products were characterised in terms of size and morphology by Cryo-TEM and PCS. The charge properties were determined by measuring the zeta potential. Our experimental protocol enabled us to obtain homogeneous and stable cationic nanosystems within 3-6 months of production. Assessment of cytotoxicity on HepG2 cells by MTT assays indicated that MAD preparations were less toxic than SLN, and in general PCPA-containing formulations are less cytotoxic than DEBDA-containing ones. The formation of electrostatic complexes with salmon sperm or plasmid DNA, used as model nucleic acids, was evaluated by electrophoresis on agarose gel. The results confirmed that all the formulations studied are able to form the complex. Finally, we investigated the ability of SLN and MAD to deliver DNA into HepG2 cells, and to this purpose we exploited expression plasmids for green fluorescent protein or firefly luciferase. Although with reduced efficiency, the results showed that the produced nanocarriers are able to convey plasmids into cells. The data obtained encourage further study aimed at improving these new formulations and proposing them as novel in vitro transfection reagents with potential application to in vivo delivery of nucleic acids.

Materials Science and Engineering: C, 2013

The present study describes the production and characterization of monoolein aqueous dispersions ... more The present study describes the production and characterization of monoolein aqueous dispersions (MAD) as drug delivery systems for curcumin (CR). MAD based on monoolein and different emulsifiers have been produced and characterized. Morphology and dimensional distribution have been investigated by Cryogenic Transmission Electron Microscopy (cryo-TEM), Xray and Photon Correlation Spectroscopy (PCS). Monoolein in different mixtures with sodium cholate, sodium caseinate, bentonite and poloxamer resulted in heterogeneous dispersions constituted of unilamellar vesicles, cubosomes and sponge type phases, depending on the employed components, as found by cryo-TEM and X-ray studies. CR was encapsulated with entrapment efficiencies depending on the MAD composition, particularly the highest was reached in the case of monoolein/poloxamer/sodium cholate mixture. The same mixture was able to maintain CR stability also after 6 months. CR release modalities were in vitro investigated in order to mimic a possible subcutaneous administration of MAD. It was found that MAD constituted of monoolein/poloxamer and monoolein/poloxamer/sodium cholate mixtures were able to sustain CR release. MAD viscous vehicles were produced by xanthan gum. CR percutaneous absorption has been studied in vitro using excised human skin membranes [stratum corneum epidermis (SCE)] mounted into Franz cells. It was found that fluxes (F n) of CR incorporated in MAD are influenced by the presence of monoolein based nanosystems. In particular xanthan gum based MAD better control CR diffusion from MAD.

Journal of Pharmaceutical Sciences, 2010

The present study concerns the percutaneous absorption of naproxen (NPX), as model anti-inflammat... more The present study concerns the percutaneous absorption of naproxen (NPX), as model anti-inflammatory drug, included in liposome formulations constituted of different lipids: stratum corneum lipids (SCL) and phosphatidylcholine/cholesterol (PC/CHOL). Liposome dispersions were produced using two different methods: reverse-phase evaporation (REV) and thin layer evaporation (TLE). Morphology and dimensions of the disperse phase were characterized by cryo-transmission electron microscopy (cryo-TEM) and photon correlation spectroscopy, respectively. X-ray diffraction was employed to determine the structural organization of the vesicles. In vitro diffusion was studied by Franz cell on liposome dispersions viscosized by carbomer. Tape stripping was performed to investigate in vivo the performance of differently composed liposomes as NPX delivery system. Cryo-TEM showed spherical vesicles and bigger irregular elongated nanoparticles for TLE SCL liposomes. REV resulted in spherical and elongated multilamellar vesicles. Also X-ray diffraction evidenced L alpha or L beta multilamellar vesicles for PC/CHOL and SCL liposome respectively. The in vitro study showed a lower NPX flux for SCL with respect to PC/CHOL liposome. Tape stripping corroborate the in vitro findings regarding SCL, suggesting that liposomes create a drug reservoir mixing with SC lipids, whilst PC/CHOL liposome promoted NPX permeation through the skin. Liposome lipid composition seems to affect NPX permeation through the skin.

Journal of Liposome Research, 2009

The present article describes a comparative study of the performances of liposomes and ethosomes ... more The present article describes a comparative study of the performances of liposomes and ethosomes as specialized delivery systems for distamycin A (DA) and two of its derivatives. Liposomes and ethosomes were prepared by classical methods, extruded through polycarbonate filters, and characterized in terms of dimensions, morphology, and encapsulation efficiency. It was found that DA was associated with vesicles (either liposomes or ethosomes) by around 16.0%, while both derivatives of DA showed a percentage of association around 80% in the case of liposomes and around 50% in the case of ethosomes. In vitro antiproliferative activity experiments performed on cultured human and mouse leukemic cells demonstrated that vesicles were able to increase the activity of both derivatives of DA. In addition, it was demonstrated that the aging of both liposomes-and ethosomes-associated distamycin suspensions did not heavily influence the vesicle size, while all samples showed a relevant drug leakage with time. Moreover, according to the different physicochemical characteristics of DA and its derivatives (i.e., log P), vesicle-associated DA showed the highest loss of drug with respect to both its derivatives. In conclusion, the enhancement of drug activity expressed by these specialized delivery systems-associated DD could be interesting to obtain an efficient therapeutic effect aimed at reducing or minimizing toxic effects occurring with distamycins administration.

Indian Journal of Pharmaceutical Sciences, 2011

Indian Journal of Pharmaceutical Sciences, 2012

Cortesi, et al.: Eudragit ® Microparticles for the Release of Budesonide This study compares the ... more Cortesi, et al.: Eudragit ® Microparticles for the Release of Budesonide This study compares the behaviour of budesonide-containing microparticles made of Eudragit ® RS or Eudragit ® RS/ Eudragit ® RL 70:30 (w/w) prepared either by solvent evaporation or spray-drying technique. The loading efficiency of budesonide within microparticles was about 72% for microparticles prepared by solvent evaporation and around 78% for spray-dried microparticles. Thermal analyses were assessed to collect information about the structural stability of budesonide within the polymeric microspheres. The in vitro release was performed using simulating gastric (fasted state simulated gastric fluid) and intestinal (fasted state simulated intestinal fluid) fluids as the receiving solutions. After 3 h the drug release from Eudragit ® RS/Eudragit ® RL microparticles was about 6-fold higher than that obtained in the case of monopolymer microparticles. Using fasted state simulated intestinal fluid the drug was released between 4 and 30% in both types of preparations. Eudragit ® RS microparticles showed a better protection of the drug from gastric acidity than those of Eudragit ® RS/Eudragit ® RL allowing us to propose Eudragit ® RS microparticles as a hypothetical system of colon specific controlled delivery.

European Journal of Pharmaceutics and Biopharmaceutics, 2014

The present study describes the production and characterization of monoolein aqueous dispersions ... more The present study describes the production and characterization of monoolein aqueous dispersions (MAD) and lecithin organogels (ORG) as percutaneous delivery systems for curcumin (CUR). In particular, MAD stabilized by sodium cholate/poloxamer and w0 3 ORG lipid carriers, both in the presence and absence of CUR, have been considered: MAD morphology and dimensional distribution have been investigated by Cryogenic Transmission Electron Microscopy (cryo-TEM) and Photon Correlation Spectroscopy (PCS), while the inner structure of MAD and ORG has been studied by X-ray scattering techniques. As a general result, CUR chemical stability has been found to be better controlled by MAD, probably because CUR is more protected in the case of CUR-MAD with respect to CUR-ORG. To investigate the performance of differently composed lipid formulations as CUR delivery system, in vitro studies, based on Franz cell and stratum corneum-epidermis (SCE) membranes, and in vivo studies, based on skin reflectance spectrophotometry and tape stripping, were then performed. The results indicated that ORG induces a rapid and intense initial penetration of CUR probably due to a strong interaction between the peculiar supramolecular aggregation structure of phospholipids in the vehicle and the lipids present in the stratum corneum. Conversely, CUR incorporated into MAD can be released in a controlled fashion possibly because of the formation of a CUR depot in the stratum corneum. In this respect ORG could be employed in pathologies requiring rapid CUR action, while MAD could be proposed for assuring a prolonged CUR activity.

European Journal of Pharmaceutics and Biopharmaceutics, 2012

The physico-chemical properties and in vivo efficacies of two nanoparticulate systems delivering ... more The physico-chemical properties and in vivo efficacies of two nanoparticulate systems delivering the antiparkinsonian drug bromocriptine (BC) were compared in the present study. Monoolein Aqueous Dispersions (MADs) and Nanostructured Lipid Carriers (NLCs) were produced and characterized. Cryogenic transmission electron microscopy (cryo-TEM) and X-ray diffraction revealed the morphology of MAD and NLC. Dimensional distribution was determined by Photon Correlation Spectroscopy (PCS) and Sedimentation Field Flow Fractionation (SdFFF). In particular, BC was shown to be encapsulated with high entrapment efficiency both in MAD and in NLC, according to SdFFF combined with HPLC. Two behavioral tests specific for akinesia (bar test) or akinesia/bradykinesia (drag test) were used to compare the effects of the different BC formulations on motor disabilities in 6-hydroxydopamine hemilesioned rats in vivo, a model of Parkinson's disease. Both free BC and BC-NLC reduced the immobility time in the bar test and enhanced the number of steps in the drag test, although the effects of encapsulated BC were longer lasting (5 h). Conversely, BC-MAD was ineffective in the bar test and improved stepping activity in the drag test to a much lower degree than those achieved with the other preparations. We conclude that MAD and NLC can encapsulate BC, although only NLC provide long-lasting therapeutic effects possibly extending BC half-life in vivo.

Current Analytical Chemistry, 2013

The development of drug delivery systems in experimental therapy usually requires in vitro releas... more The development of drug delivery systems in experimental therapy usually requires in vitro release models, that should posses specific characteristics including: low cost, simple procedure, high reproducibility and very importantly resemble as strictly as possible the in vivo behaviour. In this respect, the paper describes the effects of the use of different experimental procedures on the drug release profiles from controlled delivery formulations based on nano and micro systems. As examples of micro and nanosystems, microparticles constituted of poly-lactide-co-glycolide (PEM) or gelatine (GEM) and nanostructured lipid carriers (NLC) or cubosomes (CBS) were selected, respectively. All the analysed formulations contained bromocriptine (BC) that represents a poorly water-soluble drug. The influence of the experimental release method and of release media has been investigated using different experimental setup including direct and reverse dialysis, flow-through cell, USP XXII paddle and Franz cell methods.

Materials Science and Engineering: C, 2013

European Journal of Pharmaceutics and Biopharmaceutics, 2014

Please cite this article in press as: E. Esposito et al., Effect of nanostructured lipid vehicles... more Please cite this article in press as: E. Esposito et al., Effect of nanostructured lipid vehicles on percutaneous absorption of curcumin, Eur. J. Pharm. Biopharm. (2013), http://dx.