Your search keyword '"Schoubben A"' showing total 375 results

351. Biologics, theranostics, and personalized medicine in drug delivery systems.

Author

Puccetti, Matteo, Pariano, Marilena, Schoubben, Aurélie, Giovagnoli, Stefano, and Ricci, Maurizio

Subjects

*DRUG delivery systems, *INDIVIDUALIZED medicine, *COMPANION diagnostics, *THERAPEUTICS, *BIOLOGICALS, *ELECTROCHEMICAL sensors

Abstract

The progress in human disease treatment can be greatly advanced through the implementation of nanomedicine. This approach involves targeted and cell-specific therapy, controlled drug release, personalized dosage forms, wearable drug delivery, and companion diagnostics. By integrating cutting-edge technologies with drug delivery systems, greater precision can be achieved at the tissue and cellular levels through the use of stimuli-responsive nanoparticles, and the development of electrochemical sensor systems. This precision targeting – by virtue of nanotechnology – allows for therapy to be directed specifically to affected tissues while greatly reducing side effects on healthy tissues. As such, nanomedicine has the potential to transform the treatment of conditions such as cancer, genetic diseases, and chronic illnesses by facilitating precise and cell-specific drug delivery. Additionally, personalized dosage forms and wearable devices offer the ability to tailor treatment to the unique needs of each patient, thereby increasing therapeutic effectiveness and compliance. Companion diagnostics further enable efficient monitoring of treatment response, enabling customized adjustments to the treatment plan. The question of whether all the potential therapeutic approaches outlined here are viable alternatives to current treatments is also discussed. In general, the application of nanotechnology in the field of biomedicine may provide a strong alternative to existing treatments for several reasons. In this review, we aim to present evidence that, although in early stages, fully merging advanced technology with innovative drug delivery shows promise for successful implementation across various disease areas, including cancer and genetic or chronic diseases. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

352. Lipid Nanoparticles Loading Steroidal Alkaloids of Tomatoes Affect Neuroblastoma Cell Viability in an In Vitro Model.

Author

Santonocito, Debora, Campisi, Agatina, Pellitteri, Rosalia, Sposito, Giovanni, Basilicata, Manuela Giovanna, Aquino, Giovanna, Pepe, Giacomo, Sarpietro, Maria Grazia, Pittalà, Maria Gaetana Giovanna, Schoubben, Aurelie, Pignatello, Rosario, and Puglia, Carmelo

Subjects

*STEROIDAL alkaloids, *CELL survival, *NEUROBLASTOMA, *TOMATOES, *NANOPARTICLES, *BOTANICAL chemistry, *ALKALOIDS, *NANOMEDICINE

Abstract

Tomato by-products represent a good source of phytochemical compounds with health properties, such as the steroidal glycoalkaloid α-tomatine (α-TM) and its aglycone tomatidine (TD). Both molecules have numerous beneficial properties, such as potential anticancer activity. Unfortunately, their therapeutic application is limited due to stability and bioavailability issues. Therefore, a valid strategy seems to be their encapsulation into Solid Lipid Nanoparticles (SLN). The nanoformulations containing α-TM (α-TM-SLN) and TD (TD-SLN) were prepared by solvent-diffusion technique and subsequently characterized in terms of technological parameters (particle size, polydispersity index, zeta potential, microscopy, and calorimetric studies). To assess the effect of α-TM and TD on the percentage of cellular viability in Olfactory Ensheathing Cells (OECs), a peculiar glial cell type of the olfactory system used as normal cells, and in SH-SY5Y, a neuroblastoma cancer cell line, an MTT test was performed. In addition, the effects of empty, α-TM-SLN, and TD-SLN were tested. Our results show that the treatment of OECs with blank-SLN, free α-TM (0.25 µg/mL), and TD (0.50 µg/mL) did not induce any significant change in the percentage of cell viability when compared with the control. In contrast, in SH-SY5Y-treated cells, a significant decrease in the percentage of cell viability when compared with the control was found. In particular, the effect appeared more evident when SH-SY5Y cells were exposed to α-TM-SLN and TD-SLN. No significant effect in blank-SLN-treated SH-SY5T cells was observed. Therefore, SLN is a promising approach for the delivery of α-TM and TD. [ABSTRACT FROM AUTHOR]

Published

2023

353. Mesoporous silica materials: From physico-chemical properties to enhanced dissolution of poorly water-soluble drugs.

Author

Maleki, Aziz, Kettiger, Helene, Schoubben, Aurélie, Rosenholm, Jessica M., Ambrogi, Valeria, and Hamidi, Mehrdad

Subjects

*MESOPOROUS silica, *PHARMACEUTICAL chemistry, *DRUG delivery systems, *CYCLODEXTRINS, *MICROEMULSIONS

Abstract

New approaches in pharmaceutical chemistry have resulted in more complex drug molecules in the quest to achieve higher affinity to their targets. However, these ‘highly active’ drugs can also suffer from poor water solubility. Hence, poorly water soluble drugs became a major challenge in drug formulation, and this problem is increasing, as currently about 40 of the marketed drugs and 90% of drug candidates are classified as poorly water soluble. Various approaches exist to circumvent poor water solubility and poor dissolution rate in aqueous environment, however, each having disadvantages and certain limitations. Recently, mesoporous silica materials (MSMs) have been proposed to be used as matrices for enhancing the apparent solubility and dissolution rate of different drug molecules. MSMs are ideal candidates for this purpose, as silica is a “generally regarded as safe” (GRAS) material, is biodegradable, and can be readily surface-modified in order to optimize drug loading and subsequent release in the human body. The major advantage of mesoporous silica as drug delivery systems (DDSs) for poorly water soluble drugs lies in their pore size, pore morphology, and versatility in alteration of the surface groups, which can result in optimized interactions between a drug candidate and MSM carrier by modifying the pore surfaces. Furthermore, the drug of interest can be loaded into these pores in a preferably amorphous state, which can increase the drug dissolution properties dramatically. The highlights of this review include a critical discussion about the modification of the physico-chemical properties of MSMs and how these physico-chemical modifications influence the drug loading and the subsequent dissolution of poorly water soluble drugs. It aims to further promote the use of MSMs as alternative strategy to common methods like solubility enhancement by cyclodextrins, micronization, or microemulsion techniques. This review can provide guidance on how to tailor MSMs to achieve optimized drug loading and drug dissolution. [ABSTRACT FROM AUTHOR]

Published

2017

354. Antioxidant and anti-inflammatory properties of a new NAC inhalable dry powder on lung epithelial cells.

Author

Bartolini, Desirée, Mancini, Lorenzo, Schoubben, Aurélie, Migni, Anna, Rende, Mario, Ricci, Maurizio, and Galli, Francesco

Subjects

*EPITHELIAL cells, *POWDERS, *ANTIOXIDANTS, *LUNGS

Published

2023

355. Ketorolac Loaded Poly(lactic-co-glycolic acid) Coating of AZ31 in the Treatment of Bone Fracture Pain.

Author

Puccetti, Matteo, Cusati, Eleonora, Antognelli, Cinzia, Ricci, Maurizio, Ambrogi, Valeria, and Schoubben, Aurélie

Subjects

*BONE fractures, *TREATMENT of fractures, *KETOROLAC, *TERIPARATIDE, *ALLOYS, *SURFACE coatings, *ZINC alloys

Abstract

Biodegradable metal alloys may be successfully used to support bone repair, avoiding second surgery commonly needed when inert metal alloys are used. Combining a biodegradable metal alloy with a suitable pain relief agent could improve patient quality of life. AZ31 alloy was coated using a poly(lactic-co-glycolic) acid (PLGA) polymer loaded with ketorolac tromethamine using the solvent casting method. The ketorolac release profile from the polymeric film and the coated AZ31 samples, the PLGA mass loss of polymeric film, and the cytotoxicity of the optimized coated alloy were assessed. The coated sample showed a ketorolac release that was prolonged for two weeks, which was slower than that of just the polymeric film, in simulated body fluid. PLGA mass loss was complete after a 45-day immersion in simulated body fluid. The PLGA coating was able to lower AZ31 and ketorolac tromethamine cytotoxicity observed in human osteoblasts. PLGA coating also prevents AZ31 cytotoxicity, which was identified in human fibroblasts. Therefore, PLGA was able to control ketorolac release and protect AZ31 from premature corrosion. These characteristics allow us to hypothesize that the use of ketorolac tromethamine-loaded PLGA coating on AZ31 in the management of bone fractures can favor osteosynthesis and relief pain. [ABSTRACT FROM AUTHOR]

Published

2023

356. Development of spray-dried N-acetylcysteine dry powder for inhalation.

Author

Mancini, Lorenzo, Paolantoni, Marco, Schoubben, Aurélie, and Ricci, Maurizio

Subjects

*POWDERS, *ANGIOTENSIN converting enzyme, *PROTEIN receptors, *ACETYLCYSTEINE, *VIRUS diseases

Abstract

[Display omitted] N-acetylcysteine (NAC) has both antioxidant and immunomodulatory activities and has been used as adjuvant therapy in several viral infections. Recently, NAC attracted attention for its possible role in reducing the affinity of the spike protein receptor binding domain to angiotensin-converting enzyme (ACE2) receptors. Since only NAC solutions are available for inhalation, the purpose of the work was to develop a NAC dry powder for inhalation using mannitol or leucine as excipient. The powder was successfully produced using co-spray-drying with leucine. ATR-FTIR analyses evidenced spectral variations ascribed to the formation of specific interactions between NAC and leucine. This effect on the NAC environment was not evident for NAC-mannitol powders, but mannitol was in a different polymorphic form compared to the supplied material. Both the feedstock concentration and the leucine content have an impact on the powder aerodynamic features. In particular, to maximize the respirable fraction, it is preferable to produce the powder starting from a 0.5 % w/v feedstock solution using 33 to 50 % w/w leucine content. The NAC-leucine powder was stable for ten months maintaining NAC content of 50 % (w/w) and about 200 μg of NAC was able to deposit on a transwell insert, useful for future in vitro studies. [ABSTRACT FROM AUTHOR]

Published

2023

357. Turning Microbial AhR Agonists into Therapeutic Agents via Drug Delivery Systems.

Author

Puccetti, Matteo, Pariano, Marilena, Wojtylo, Paulina, Schoubben, Aurélie, Giovagnoli, Stefano, and Ricci, Maurizio

Subjects

*DRUG delivery systems, *ARYL hydrocarbon receptors, *MICROBIAL metabolites, *NANOMEDICINE

Abstract

Developing therapeutics for inflammatory diseases is challenging due to physiological mucosal barriers, systemic side effects, and the local microbiota. In the search for novel methods to overcome some of these problems, drug delivery systems that improve tissue-targeted drug delivery and modulate the microbiota are highly desirable. Microbial metabolites are known to regulate immune responses, an observation that has resulted in important conceptual advances in areas such as metabolite pharmacology and metabolite therapeutics. Indeed, the doctrine of "one molecule, one target, one disease" that has dominated the pharmaceutical industry in the 20th century is being replaced by developing therapeutics which simultaneously manipulate multiple targets through novel formulation approaches, including the multitarget-directed ligands. Thus, metabolites may not only represent biomarkers for disease development, but also, being causally linked to human diseases, an unexploited source of therapeutics. We have shown the successful exploitation of this approach: by deciphering how signaling molecules, such as the microbial metabolite, indole-3-aldehyde, and the repurposed drug anakinra, interact with the aryl hydrocarbon receptor may pave the way for novel therapeutics in inflammatory human diseases, for the realization of which drug delivery platforms are instrumental. [ABSTRACT FROM AUTHOR]

Published

2023

358. Pulmonary drug delivery technology enables anakinra repurposing in cystic fibrosis.

Author

Puccetti, Matteo, Pariano, Marilena, Stincardini, Claudia, Wojtylo, Paulina, Schoubben, Aurelie, Nunzi, Emilia, Ricci, Maurizio, Romani, Luigina, and Giovagnoli, Stefano

Subjects

*DRUG delivery systems, *CYSTIC fibrosis, *ANAKINRA, *INHALERS, *NEUROENDOCRINE cells, *ANTI-inflammatory agents, *ANTI-infective agents

Abstract

Inflammation is a key pathological driver in cystic fibrosis (CF). Current therapies are ineffective in treating and preventing the escalation of inflammatory events often exacerbated by superimposed infection. In this work, we propose a novel treatment based on the pulmonary administration of anakinra, a non-glycosylated recombinant form of IL-1Ra. An inhalable dry powder of anakinra was successfully developed to meet the specific needs of lung drug delivery. The new formulation was investigated in vitro for aerodynamic performances and activity and in vivo for its pharmacological profile, including the pharmacokinetics, treatment schedule, antimicrobial and anti-inflammatory activity and systemic toxicity. The protein was structurally preserved inside the formulation and retained its pharmacological activity in vitro immediately after preparation and over time when stored at ambient conditions. Anakinra when delivered to the lungs showed an improved and extended therapeutic efficacy in CF models in vivo as well as higher potency compared to systemic delivery. Peripheral side effects were significantly reduced and correlated with lower serum levels compared to systemic treatment. These findings provide proof-of-concept demonstration for anakinra repurposing in CF through the pulmonary route. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

359. Unconventional Extraction of Total Non-Polar Carotenoids from Pumpkin Pulp and Their Nanoencapsulation.

Author

Pinna, Nicola, Ianni, Federica, Blasi, Francesca, Stefani, Arianna, Codini, Michela, Sabatini, Stefano, Schoubben, Aurélie, and Cossignani, Lina

Subjects

*CAROTENOIDS, *PUMPKINS, *HIGH performance liquid chromatography, *BUTTERNUT squash, *ETHANOL, *EXTRACTION techniques, *INTESTINAL absorption

Abstract

Pumpkin is considered a functional food with beneficial effects on human health due to the presence of interesting bioactives. In this research, the impact of unconventional ultrasound-assisted extraction (UAE) and microwave-assisted extraction techniques on the recovery of total non-polar carotenoids from Cucurbita moschata pulp was investigated. A binary (hexane:isopropanol, 60:40 v/v) and a ternary (hexane:acetone:ethanol, 50:25:25 v/v/v) mixture were tested. The extracts were characterized for their antioxidant properties by in vitro assays, while the carotenoid profiling was determined by high-performance liquid chromatography coupled with a diode array detector. UAE with the binary mixture (30 min, 45 °C) was the most successful extracting technique, taking into consideration all analytical data and their correlations. In parallel, solid lipid nanoparticles (SLN) were optimized for the encapsulation of the extract, using β-carotene as a reference compound. SLN, loaded with up to 1% β-carotene, had dimensions (~350 nm) compatible with increased intestinal absorption. Additionally, the ABTS ((2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) assay showed that the technological process did not change the antioxidant capacity of β-carotene. These SLN will be used to load an even higher percentage of the extract without affecting their dimensions due to its liquid nature and higher miscibility with the lipid with respect to the solid β-carotene. [ABSTRACT FROM AUTHOR]

Published

2022

360. The influence of environmental regulation on the FDI location choice of EU ETS-covered MNEs.

Author

De Beule, Filip, Dewaelheyns, Nico, Schoubben, Frederiek, Struyfs, Kristof, and Van Hulle, Cynthia

Subjects

*ENVIRONMENTAL regulations, *ENVIRONMENTAL policy, *EMISSIONS trading, *LOGISTIC regression analysis, *ENVIRONMENTAL economics, *ECONOMIES of agglomeration

Abstract

This paper explores how cross-country differences in environmental regulatory stringency among member states of the world's largest multinational cap-and-trade system, the European Union Emission Trading Scheme (EU ETS), influenced the FDI location choice of listed multinationals (MNEs) regulated by the environmental policy. After controlling for other country characteristics driving FDI location choice, we find that the likelihood of EU ETS-covered MNEs locating new FDI projects in less environmentally stringent member states strongly depends on firm- and industry-specific environmental characteristics during the system's first two phases. Our results are robust to different measures of environmental stringency and provide evidence for the existence of an intra-regional pollution haven effect (PHE). This investment behavior by MNEs is, moreover, only found in the industries least compensated for the environmental costs induced by the policy. This suggests that the EU inadvertently promoted an intra-regional PHE not only by allowing cross-country variation in environmental stringency but also by overly focusing on and compensating for external carbon leakage risk. Our conclusions have major implications for countries and regions currently establishing or implementing an emissions trading system. • We examine the largest multinational cap-and-trade scheme in the world, the EU ETS. • Current research on the pollution haven effect focuses on FDI outside the EU ETS. • We explore intra-EU ETS differences in environmental stringency among member states. • Using a conditional logit model, we find evidence of an intra-regional PHE. • PHE driven by most polluting firms in industries with limited strategic flexibility. [ABSTRACT FROM AUTHOR]

Published

2022

361. Hybrid nano-carrier of citral in starch composites for potential application in active packaging.

Author

Viscusi, Gianluca, Lamberti, Elena, Boccalon, Elisa, Fancello, Francesco, Zara, Severino, Schoubben, Aurélie, Nocchetti, Morena, and Gorrasi, Giuliana

Subjects

*LAYERED double hydroxides, *ESSENTIAL oils, *FOOD packaging, *FOOD spoilage, *X-ray diffraction, *HALLOYSITE

Abstract

Nowaday the use of essential oils, having antimicrobial activity, is quite limited in the field of active packaging for the difficulty to retain the active compound for a long time into the material. The paper reports the design and fabrication of a nano-carrier able to incorporate and protect an essential oil (i.e. citral) for targeted applications. The hybrid filler was produced by growing layered double hydroxide (LDH) nanocrystals as plates on halloysite nanotubes (Hal) (Hal@LDH). Such hybrid filler was used as a carrier of citral as an antimicrobial essential oil. The active filler was incorporated into the starch matrix at 5, 10, and 15 wt% and films were produced. The structural organization of the filler was conducted by using Scansion Electron Microscopy (SEM), Thermogravimetric Analysis (TGA) and X-ray Diffraction (XRD) analysis. The obtained bio-composite films were structurally analyzed through XRD and SEM with EDX analysis. The physical performances were evaluated through the analysis of mechanical properties, contact angle, radical scavenging activity and release kinetics of citral, as a function of filler loading. To assess the possibility of using such composites for food packaging applications, tests were carried out on different strains such as Escherichia coli, Listeria monocytogenes, and Salmonella bongori. • A hybrid carrier loaded with citral was prepared to produce starch based active films. • The used methodology to produce the hybrid carrier was ball milling at ambient temperature. • Analysis of structure and physical properties of the composites was carrier out. • Films showed antimicrobial activity against pathogens active in food spoilage. [ABSTRACT FROM AUTHOR]

Published

2024

362. Wound Dressing: Combination of Acacia Gum/PVP/Cyclic Dextrin in Bioadhesive Patches Loaded with Grape Seed Extract.

Author

Pagano, Cinzia, Luzi, Francesca, Ricci, Maurizio, Michele, Alessandro Di, Puglia, Debora, Ceccarini, Maria Rachele, Beccari, Tommaso, Blasi, Francesca, Cossignani, Lina, Schoubben, Aurélie, Primavilla, Sara, Iborra, César Antonio Viseras, and Perioli, Luana

Subjects

*GRAPE seed extract, *GUM arabic, *WOUND care, *PHENOLS, *WOUNDS & injuries

Abstract

The success of wound treatment is conditioned by the combination of both suitable active ingredients and formulation. Grape seed extract (GSE), a waste by-product obtained by grape processing, is a natural source rich in many phenolic compounds responsible for antioxidant, anti-inflammatory, and antimicrobial activities and for this reason useful to be used in a wound care product. Bioadhesive polymeric patches have been realized by combining acacia gum (AG) and polyvinylpyrrolidone (PVP). Prototypes were prepared by considering different AG/PVP ratios and the most suitable in terms of mechanical and bioadhesion properties resulted in the 9.5/1.0 ratio. This patch was loaded with GSE combined with cyclic dextrin (CD) to obtain the molecular dispersion of the active ingredient in the dried formulation. The loaded patch resulted mechanically resistant and able to release GSE by a sustained mechanism reaching concentrations able to stimulate keratinocytes' growth, to exert both antibacterial and antioxidant activities. [ABSTRACT FROM AUTHOR]

Published

2022

363. Chitosan composite microparticles: A promising gastroadhesive system for taxifolin.

Author

Stenger Moura, F.C., Perioli, L., Pagano, C., Vivani, R., Ambrogi, V., Bresolin, T.M., Ricci, M., and Schoubben, A.

Subjects

*CHITOSAN, *GASTRIC mucosa, *MESOPOROUS silica, *SMALL intestine, *SPRAY drying, *SOLUBILITY

Abstract

• Taxifolin is better absorbed in the stomach then in the small intestine. • Taxifolin loaded into Syloid was amorphous and showed solubility increase. • Taxifolin-Syloid complex was successfully loaded in chitosan microparticle. • Chitosan microparticles released taxifolin for 5 h in simulated gastric fluid. • Microparticles adhered to gastric mucosa for 5 h avoiding taxifolin intestinal degradation. Taxifolin possesses gastroprotective property but is characterized by low water solubility, is instabile in alkaline medium, and is degraded by the intestinal bacteria flora. The purpose of the work was therefore to produce a gastroadhesive formulation to prolong taxifolin residence time and release in the stomach. We first demonstrated that taxifolin is stable in simulated gastric fluid with or without pepsin and mucus, and is able to cross pig gastric mucus layer and stomach mucosa. Next, gastromucoadhesive microparticles composed of Syloid® AL-1 mesoporous silica, chitosan and HPMC were produced using spray-drying. Microparticles were characterized by a spherical shape and a mean volume-equivalent diameter around 12 μm. The optimized microparticles were able to release taxifolin and to adhere to pig stomach mucosa for 5 h. [ABSTRACT FROM AUTHOR]

Published

2019

364. Development of a new indole derivative dry powder for inhalation for the treatment of biofilm-associated lung infections.

Author

Xiroudaki, Styliani, Sabbatini, Samuele, Pecoraro, Camilla, Cascioferro, Stella, Diana, Patrizia, Wauthoz, Nathalie, Antognelli, Cinzia, Monari, Claudia, Giovagnoli, Stefano, and Schoubben, Aurélie

Subjects

*LUNG infections, *INDOLE derivatives, *METHICILLIN-resistant staphylococcus aureus, *PARTICLE size distribution, *POWDERS

Abstract

[Display omitted] The aim of this work was to produce an inhalable dry powder formulation of a new anti-biofilm compound (SC38). For this purpose, chitosan was used as a polymeric carrier and l -leucine as a dispersibility enhancer. SC38 was entrapped by spray-drying into previously optimized chitosan microparticles. The final formulation was fully characterized in vitro in terms of particle morphology, particle size and distribution, flowability, aerodynamic properties, anti-biofilm activity and effects on lung cell viability. The SC38-loaded chitosan microparticles exhibited favorable aerodynamic properties with emitted and respirable fractions higher than 80 % and 45 % respectively. The optimized formulation successfully inhibited biofilm formation at microparticle concentrations starting from 20 μg/mL for methicillin-sensitive and 100 μg/mL for methicillin-resistant Staphylococcus aureus and showed a relatively safe profile in lung cells after 72 h exposure. Future in vivo tolerability and efficacy studies are needed to unravel the potential of this novel formulation for the treatment of difficult-to-treat biofilm-mediated lung infections. [ABSTRACT FROM AUTHOR]

Published

2023

365. Lipid nanoparticles as carrier for octyl-methoxycinnamate: in vitro percutaneous absorption and photostability studies.

Author

Puglia, Carmelo, Bonina, Francesco, Rizza, Luisa, Blasi, Paolo, Schoubben, Aurelie, Perrotta, Rosario, Tarico, Maria Stella, and Damiani, Elisabetta

Subjects

*LIPIDS, *NANOPARTICLES, *CINNAMATES, *SKIN absorption, *NANOSTRUCTURED materials, *ULTRAVIOLET radiation, *SOLUBILITY

Abstract

The aim of the present study was the evaluation of lipid nanoparticles (solid lipid nanoparticles, SLN, and nanostructured lipid carriers, NLC) as potential carriers for octyl-methoxycinnamate (OMC). The release pattern of OMC from SLN and NLC was evaluated in vitro, determining its percutaneous absorption through excised human skin. Additional in vitro studies were performed in order to evaluate, after UVA radiation treatment, the spectral stability of OMC-loaded lipid nanoparticles. From the obtained results, ultrasonication method yielded both SLN and NLC in the nanometer range with a high active loading and a particle shape close to spherical. Differential scanning calorimetry data pointed out the key role of the inner oil phase of NLC in stabilizing the particle architecture and in increasing the solubility of OMC as compared with SLN. In vitro results showed that OMC, when incorporated in viscosized NLC dispersions (OMC-NLC), exhibited a lower flux with respect to viscosized SLN dispersions (OMC-SLN) and two reference formulations: a microemulsion (OMC-ME) and a hydroalcoholic gel (OMC-GEL). Photostability studies revealed that viscosized NLC dispersions were the most efficient at preserving OMC from ultraviolet-mediated photodegradation. © 2011 Wiley Periodicals, Inc. and the American Pharmacists Association J Pharm Sci 101:301-311, 2012 [ABSTRACT FROM AUTHOR]

Published

2012

366. Development of Triazole-based Dry Powder Formulations for Inhalation

Author

Merlos, Romain, Amighi, Karim, Wauthoz, Nathalie, Langer, Ingrid, Fontaine, Véronique, Van Antwerpen, Pierre, Vanderbist, Francis, Flament, Marie-Pierre, and Schoubben, Aurélie

Subjects

Solid Dispersions, Jet-milling, Inhalation, Upscaling, Spray-drying, Pharmacie galénique, Triazole, Voriconazole, Itraconazole, DPI Formulations, Pulmonary Invasive Aspergillosis

Abstract

Among the different pulmonary fungal infections, aspergillosis, and in particular invasive pulmonary aspergillosis (IPA), are becoming the most worrying diseases in immunocompromised patients. This is due to their high incidence and mortality. Indeed, invasive aspergillosis manifests as invasive pulmonary disease accounting for 50/60% of all cases, with a mortality of 50-90% in severely immunocompromised patients. Triazoles act by inhibiting 14-α demethylase, a fungal cytochrome P450 enzyme implicated in the synthesis of ergosterol, an essential constituent of fungal cell walls. Moreover, they interact with the same cytochrome present in large quantities in the human liver, inducing possible drug-drug interactions in IPA patients. Consequently, interactions resulting from inhibitors, inductors, or substrates of cytochromes can modify the plasmatic concentrations of triazoles or other drugs administered concomitantly. To overcome these important issues, pulmonary delivery of triazoles could be an interesting alternative to conventional routes.The aim of this work was to develop triazole-based dry powders for inhalation able to be deposited adequately in the lungs, with a release of drug and a lung retention that can optimize its pharmacological action. This work focused on two active pharmaceutical ingredients (API): itraconazole (ITZ), for which improved solubility was needed, and voriconazole (VCZ), for which slow release was required.Concerning ITZ, solid dispersions for inhalation (SDIs) comprising ITZ and mannitol were previously developed in our laboratory. The selected SDI showed interesting results in terms of improved dissolution and lung retention in vivo in mice during a pharmacokinetic study. Therefore, this SDI was tested in a murine preclinical model of IPA and showed promising results in terms of prophylaxis efficacy. One aim of this work was to continue the pharmaceutical development of this promising SDI by making a scaling-up study. These methods were intended to improve the SDI’s ecological footprint and productivity by increasing the production yield and decreasing the amount of solvents and time used in its manufacture. During the first step of this study, the obtained SDI showed interesting results obtaining similar powder characteristics (i.e. amorphous content, aerodynamic performance, and dissolution profiles) from concentrated solutions using a laboratory-scale spray-dryer B-290 (Büchi, Switzerland) before using a pilot-scale spray-dryer (GEA Niro, Denmark). Then, the upscaling was performed on the pilot spray-dryer allowing the production of SDIs with increased productivity (yield and process duration). These SDIs had similar powder characteristics than the optimized lab-scale SDIs. During the second part of this work we developed VCZ based dry powder for inhalation. The aim was to slow down the release of this highly permeable and very slightly soluble API and to prolong its lung residence. To this end, various lipidic excipients were chosen. The selection took into account the potential good pulmonary tolerance of the lipids and their hydrophobicity to evaluate their ability to slow down the VCZ release (FPFs 20-25%, slowed release up to 24h, burst effect of ± 58% of VCZ dissolved within 30min). Immediate-release SDIs were also developed to have a comparator reference for the pharmacokinetic and efficacy studies (FPFs of 40%).Then, a pharmacokinetic study in mice was performed following the pulmonary administration of one immediate-release and two sustained-release SDIs (with or without PEG excipient). With an 80-fold higher pulmonary exposure over 24 hours, the slow-release SDIs presented a real interest compared to the immediate-release SDI. Moreover, in accordance with these results, VCZ plasma exposure following the administration of the SDI with PL90-H was more than 1.5-fold higher than its pulmonary exposure (AUC0-24 of 8.70 µg.h/g in the lungs and 14.70 µg.h/mL in the plasma). The slow-release formulations presented plasma exposures at least 15 times lower than their pulmonary exposures (AUC0-24 in lung of 741.40 and 686.85 µg.h/g vs plasmatic AUC0-24 of 37.44 and 42.81 µg.h.mL, respectively with and without PEG excipient). Moreover, the presence of PEG excipient did not influence the residence time and the exposure of the VCZ within the lungs. Finally, the sustained-release SDIs administration by inhalation led to VCZ lung and plasma concentrations higher than the minimal inhibitory concentration (MIC) of VCZ against Aspergillus fumigatus (1 μg/mL) over 24 h. Finally, a murine model of IPA was developed in our lab. The immunosuppression model was fixed and performed by the intraperitoneal (IP) injection of corticosteroids to induce a neutropenia state. Then, different doses of spores (from 1.10^4 to 5.10^6 spores) were inoculated to the neutropenic mice via an endotracheal instillation and the survival rate of each group was observed. Unfortunately, the survival rate resulting from the different infections were not reproducible. Therefore, these models were not suitable to conduct the efficacy study. This underlined the link between the immunosuppressive model and the infection. Indeed, the IPA murine model should be developed according to the immune state of the animal, the Aspergillus conidia species and its concentration to be used., Doctorat en Sciences biomédicales et pharmaceutiques (Pharmacie), info:eu-repo/semantics/nonPublished

Published

2019

367. Taxifolin and gastro-adhesive microparticles containing taxifolin promotes gastric healing in vivo, inhibits Helicobacter pylori in vitro and proton pump reversibly in silico.

Author

Stenger Moura, Fernanda Cristina, Cechinel-Filho, Valdir, Greco, Francesco Antonio, Venzon, Larissa, Meurer, Mariane Caroline, França, Tauani Caroline dos Santos, Longo, Bruna, Somensi, Lincon Bordignon, Mariano, Luisa Nathalia Bolda, Cruz, Alexandre Bella, Macchiarulo, Antonio, Schoubben, Aurélie, Ricci, Maurizio, Belle Bresolin, Tania Mari, and da Silva, Luisa Mota

Subjects

*HELICOBACTER pylori, *HEALING, *GLUTATHIONE, *PROTONS, *ACETIC acid, *CLARITHROMYCIN, *MUCINS

Abstract

Taxifolin (3,5,7,3,4-pentahydroxy flavanone or dihydroquercetin, Tax) was identified as a gastroprotective compound and a gastroadhesive formulation was recently developed to prolong its residence time and release in the stomach. So, the gastric healing effectiveness of Tax and gastro-mucoadhesive microparticles containing Tax (MPTax) against the acetic acid induced-gastric ulcer in rats was investigated in this study. Moreover, the interactions between Tax and H+/K+-ATPase were investigated in silico , and its anti- H. pylori activity was determined in vitro. The oral treatment with MPTax (81.37 mg/kg, containing 12.29% of Tax) twice a day for seven days reduced the ulcer area by 63%, compared to vehicle-treated group (Veh: 91.9 ± 10.3 mm2). Tax (10 mg/kg, p.o) reduced the ulcer by 40% but with a p = 0.07 versus Veh group. Histological analysis confirmed these effects. Tax and MPTax increased the gastric mucin amount, reduced the myeloperoxidase activity, and increased the glutathione reduced content at ulcer site. However, only MPTax decreased the lipoperoxide accumulation at ulcer site. Besides, Tax and MPTax normalize the catalase and glutathione S -transferase activity. Tax showed reversible interaction with H+/K+-ATPase in silico and its anti- H. pylori effects was confirmed (MIC = 625 μg/mL). These results suggest that the antiulcer property of Tax involves the strengthening of the gastric protective factors in parallel to its inhibitory interaction with H+/K+-ATPase and H. pylori. Considering that ulcer healing action displayed by Tax was favored by gastroadhesive microparticles, this approach seems to be promising for its oral delivery to treat acid-peptic diseases. • MPTax (81.37 mg/kg, containing 12.29% of Tax) accelerates the gastric healing. • Tax and MPTax increased the gastric mucin and reduce MPO activity at ulcer site. • Tax and MPTax increased the GSH and normalize CAT and GST acitivities at ulcer site. • In silico trials revealed that Tax can reversibly inhibit the H+/K+-ATPase. • The anti- H. pylori effects of Tax was confirmed (MIC = 625 μg/mL). [ABSTRACT FROM AUTHOR]

Published

2021

368. Development and Evaluation of Controlled-Release Cisplatin Dry Powders for Inhalation against Lung Tumours

Author

Levet, Vincent, Amighi, Karim, Wauthoz, Nathalie, Kauffmann, Jean-Michel, Dufrasne, François, Sculier, Jean-Paul, Vanderbist, Francis, and Schoubben, Aurélie

Subjects

lavage broncho-alvéolaire, Pharmacocinétique, Controlled-release, Spray-drying, Pharmacie galénique, SCLC, High pressure homogenization, lung cancer model, tristearin, NSCLC, Cancérologie, Dry powder inhaler, tristearine, Cisplatine, Microparticules lipidiques solides, broncho alveolar lavage, Libération contrôlée, pegylation, Sciences pharmaceutiques, Pneumologie, cancer du poumon, Cisplatin, Solid Lipid Microparticles, Technologie pharmaceutique, Poudres sèches pour inhalation

Abstract

Lung cancer is the deadliest cancer in the world, with a global 5-year survival rate of about 15%. Despite a notable impact of the latest improvements in prevention, screening, detection and staging, the efficacy of conventional treatments is not sufficient and has reached a therapeutic plateau. These conventional treatments involve a combination of surgery, radiotherapy (RT) and chemotherapy (CT). CT is used in almost all stages: in operable and inoperable stages to limit tumour cell invasion and in latest stages as a palliative treatment. Cisplatin is one of the most frequently used and most potent drugs available. It is administered by parenteral route at doses limited by its high and cumulative nephrotoxicity but also by other systemic toxicities (e.g. ototoxicity). Its administration therefore requires many precautions (long hydration procedure, surveillance of the renal function), which mobilize medical personnel. A major limitation of parental CT is the low concentration of drug that successfully reaches the tumour or the metastases. A potential additional modality could be aerosolized CT to localize lung cancer treatment. It has shown a relative local tolerance for cisplatin through preclinical and clinical studies in humans by means of nebulized solutions or liposomal formulations. As a local treatment, aerosolized CT has a clear pharmacokinetic (PK) advantage, as it can increase local exposure while decreasing systemic exposure. However, because CT drugs, such as cisplatin, are active at rather high doses (in the mg range), the duration of administration from nebulizers is very long as it depends on the drug solubility or on drug encapsulation into liposomes. They also pose a high risk of environmental contamination and require HEPA-filtrated hoods during the nebulization procedure. Of all the inhalation devices available to deliver high drug doses, dry powder inhalers (DPIs) were chosen in this work. These were chosen to circumvent the above issues by providing higher deposited doses, in very short timeframes, using a patient-driven device that could help limit environmental exposure to only very low levels of drug. DPI in general also have the advantage of being applicable to both poorly-water-soluble and to water-soluble anticancer drugs. However, because direct deposition of high quantities of anticancer drugs to the lung parenchyma could pose a high risk of local irritation and pulmonary adverse effects, controlled release (CR) of cisplatin from deposited particles in the lung parenchyma was needed. However, in the lungs, foreign undissolved particles are rapidly eliminated by means of naturally occurring clearance mechanisms, in particular macrophage uptake in the alveoli. Therefore, formulation strategies able to limit the particles clearance are needed to assure high lung residence of these CR particles. The formulation strategy of this work was to develop DPI formulation based on solid-lipid microparticles (SLM) able to (i) be deposited into the lung, (ii) control the release of cisplatin and (iii) escape macrophage uptake in order to remain in the lung long enough and at a concentration able to optimize the therapeutic index (i.e. increase the potential therapeutic effect and decrease the potential side effects).The primary objectives of the SLM-based DPI formulations were to (i) exhibit aerodynamic properties compatible with lung cancer patients abilities and cisplatin requirements (e.g. a high deposited fraction, high deagglomeration abilities under low airflow within a low-resistance DPI, deposition in the mg range), (ii) provide a CR matrix for cisplatin in vitro, (iii) be able to be retained into the lung long enough in vivo, (iv) using scalable production techniques and (v) using only potentially well-tolerated excipients.Cisplatin was initially reduced to microcrystals under high-pressure homogenization (HPH) cycles up to 20 000 psi. This procedure permitted uncoated particles with mean diameters below 1.0 μm to be obtained. To assess the cisplatin release abilities of the DPI formulations on the deposited fraction only, a new dissolution test was adapted. This test used a classical paddle apparatus from the pharmacopoeia and a Fast Screening Impactor (FSI). An excipient-free formulation, obtained from the spray dried suspension of cisplatin microcrystals (100% cisplatin) was initially produced. It was compared to a 95:5 cisplatin/tocopheryl polyethylene glycol succinate (TPGS) formulation, which exhibited a higher deposition ability (fine particle fraction (FPF) of 24.2 vs. 51.5% of the nominal dose, respectively). Both exhibited immediate release (IR), with 90% dissolved under 10 minutes.Solid lipid microparticle (SLM)-based formulations were then produced using the cisplatin microcrystalline suspension and various lipid excipients. Those had previously been screened for their ability to be spray dried following their solubilisation in heated isopropanol. The addition of a triglyceride, tristearin (TS), as the main lipid component and if necessary a polyethylene glycol (PEG) excipient-comprising fraction with TPGS or distearoyl phosphoethanolamine polyethylene glycol 2000 (DSPE-mPEG-2000) as a surface modifier, provided spray dried particles with interesting characteristics. These formulations, comprised of at least 50% cisplatin, exhibited high CR abilities in simulated lung fluid at 37°C for more than 24 h (as low as 56% released after 24 h) and a low burst-effect (as low as 24% and 16% after 10 minutes with and without PEGylated excipients, respectively). They also showed high aerodynamic properties, with a high FPF ranging from 37.3 to 50.3% w/w of the nominal dose and a low median mass aerodynamic diameter (MMAD) between 2.0 and 2.4 μm. The process also offered high production yields (> 60%).The best IR DPI formulation (evaluated on the FPF, i.e. cisplatin/TPGS 95:5) and the most promising CR formulations without (i.e. cisplatin/TS 50:50) and with PEGylated excipients (evaluated on CR abilities, i.e. cisplatin/TS/TPGS 50:49.5:0.5) were then administered to CD 1 mice, concurrently to endotracheal nebulization (EN) of a cisplatin solution. This was done using specific endotracheal devices, the Penn-Century Inc. DP-4M© Dry Powder Insufflatorn and for the cisplatin solution, the Microsprayer™ IA-1C©. They were compared to intravenous (IV) injection during a PK study over 48 hours. The administration of DPI formulations required the development of a spray dried diluent (Mannitol:Leucine 10:1) and specific dilution method (3D mixing for 4 hours and double-sieving) to be able to deliver precise and repeatable quantities of powder into the lungs of mice at 1.25 mg/kg dose. A PK study was carried out of the lungs, blood, kidneys, liver, mediastinum and spleen of the mice. The study used a developed and validated electrothermal atomic absorption spectrometry (ETAAS) method. Results showed that endotracheal administration of DPI formulations permitted the exposure of the lungs to cisplatin, expressed as the area under the curve (AUC) to be greatly increased while decreasing the systemic exposure. More precisely, the only formulation that exhibited prolonged lung retention was the one comprising PEGylated excipient (cisplatin/TS/TPGS 50:49.5:0.5), which was observed for ~7 hours. This lung retention was associated with smoother concentration vs. time profiles in blood (higher tmax and lower Cmax), which also confirmed its CR abilities in vivo as dissolved cisplatin is a highly permeable drug. The overall exposure, established by the AUC, helped calculate the target efficiency (Te: the ratio of AUC in the lungs to the sum of AUC in non-target organs) and the target advantage (Ta: ratio of AUC in the lungs by the tested route to the AUC in the lungs by the IV route). For instance, the Ta of the aforementioned formulation (cisplatin/TS/TPGS 50:49.5:0.5) was of 10.9, as compared to 1 for IV, 3.3 for EN, 2.6 for the IR DPI formulation (cisplatin/TPGS 95:5) and 3.7 for the non-PEGylated CR DPI formulation (cisplatin/TS 50:50). In the meantime, the Te for the same formulations were 1.6, 0.09, 1.1, 0.4 and 0.9, respectively, showing again the great efficiency of the inhaled route vs. the IV route in targeting the lungs. More importantly, it showed the added efficiency of the CR DPI formulation with lung retention abilities, provided by the addition of PEGylated excipients. In the last part of the work, maximum tolerated doses (MTD) of formulations were established. These showed that the best candidate, selected based on the PK results (CR DPI with lung retention abilities composed of cisplatin/TS/TPGS 50:49.5:0.5) had better overall tolerance than IR approaches (DPI formulation at cisplatin/TPGS 95:5 and EN of a cisplatin solution). More precisely, it was possible to double the administered dosage for the CR formulation (1.0 mg/kg) vs. the IR DPI and EN (both at 0.5 mg/kg) under a repeated administration scheme (3 times a week for 2 weeks).Moreover, an assessment of the lung tolerance of this best candidate was realized and compared to the IR DPI, EN and the IV route. It was done through analysis of the broncho-alveolar lavage fluid (BALF) 24 hours following a single administration at the pre-determined MTD. IL-1β, IL-6 and TNF-α cytokines were not increased following the administrations. No evidence of tissue damage or cytotoxicity could be observed through quantification of the protein content and of lactate dehydrogenase (LDH) activity. The only observations were a decrease in total cells and an increase in polynuclear neutrophils (PN) cells in the BALF, which was not observed by IV or following the administration of the vehicle of the CR formulation alone (i.e. PEGylated SLM and dry diluent). This increase was not directly linked to the formulation but rather to cisplatin, as it was observed in each cisplatin inhalation experiments, and not with the vehicle of the CR formulation, which was comparable to the non-treated mice.In parallel, we realized a survival study following the administration of the best DPI formulation candidate (cisplatin/TS/TPGS 50:49.5:0.5) vs. the IR DPI candidate (cisplatin/TPGS 95:5), both at their respective MTD under the aforementioned repeated dosing scheme. Cisplatin was administered to mice bearing a grafted orthotopic M109-HiFR lung tumour model, previously developed in the laboratory. The DPI formulations were evaluated against IV administration at each dose (0.5 and 1.0 mg/kg, respectively). This study first confirmed the lower toxicity of the CR approach, as the IR DPI formulation caused a much higher number of deaths during treatment of the grafted mice. The CR formulation administered at 1.0 mg/kg showed a higher survival than the negative control but a tumour response comparable to IV administered at half this dose (0.5 mg/kg). This unexpected outcome with regard to the PK results is explained by the fact that the tumour model is highly metastatic. Mice treated with inhaled formulations died due to distant tumour involvement, while those treated systemically died due to pulmonary tumour involvement. This led us to believe that this kind of treatment may have greater potential in combination, adjuvant to the parenteral route.This work helped establish the proof-of-concept of a cisplatin CR DPI formulation with an up-scalable process. The SLM approach confirmed that encapsulation of drugs exhibiting low solubility, such as cisplatin, was possible using highly hydrophobic excipients and that surface modification was mandatory to provide notable lung retention in vivo. The SLM approach showed good signs of tolerance during the exploratory study but still needs to be confirmed under a chronic scheme using other determinants such as histopathological analyses of the lung tissue. Moreover, comparison of the nephrotoxicity of formulations against that of the IV route should be conducted with appropriate and sensitive methods. Finally, the survival study of the CR DPI formulation showed mitigated results, partly because of the orthotopic model characteristics. This could be proof that inhaled CT has a role to play combined with classical systemic CT. This needs to be assessed in a further study.Le cancer du poumon est le cancer ayant le taux de mortalité le plus élevé au monde, avec un taux de survie global à 5 ans d'environ 15%. Malgré un impact notable des dernières améliorations en matière de prévention, de dépistage, et de classification du cancer du poumon, l'efficacité des traitements classiques n'est toujours pas suffisante et semble avoir atteint un plateau thérapeutique. Ces traitements classiques comprennent de la chirurgie, de la radiothérapie et de la chimiothérapie, le plus souvent en combinaison. La chimiothérapie est utilisée à presque tous les stades: dans les stades opérables et inopérables afin de limiter l'invasion par les cellules tumorales jusqu’aux derniers stades en tant que traitement palliatif. Le cisplatine est l'un des médicaments anticancéreux les plus fréquemment utilisés et les plus puissants actuellement disponibles. Il est administré par voie parentérale à des doses qui sont limitées par sa néphrotoxicité élevée et cumulative mais également par d'autres toxicités systémiques (par exemple, de l'ototoxicité). Son administration nécessite donc de nombreuses précautions (longue procédure d'hydratation, surveillance de la fonction rénale), ce qui mobilise fortement le personnel médical. Une limitation importante de la chimiothérapie parentérale est la faible concentration d’actif qui atteint avec succès la tumeur ou les métastases. Une autre voie d’accès potentielle pourrait être la chimiothérapie inhalée pour traiter le cancer du poumon. Cette approche a montré une relativement bonne tolérance locale pour le cisplatine à travers différentes études précliniques et cliniques chez l'homme au moyen de solutions ou de formulations liposomales nébulisées. En tant que traitement via la voie pulmonaire, la chimiothérapie inhalée présente un avantage pharmacocinétique évident, car elle permet d’augmenter l'exposition locale tout en diminuant l'exposition systémique. Cependant, du fait que les médicaments chimiothérapeutiques, tels que le cisplatine, soient actifs à des doses relativement élevées (dans la gamme du mg), la durée d'administration à partir des nébuliseurs s’avère en pratique très longue car elle dépend principalement de la solubilité de l’actif ou de son encapsulation dans les liposomes. Les nébuliseurs présentent également un risque élevé de contamination de l'environnement et nécessitent de lourds appareillages (hottes filtrantes en particulier) pendant la procédure d’administration.Parmi tous les dispositifs d'inhalation existants, capables de délivrer des doses élevées de médicaments, les inhalateurs de poudre sèche (DPI) semblent être de bons candidats. Ceux-ci ont été choisis dans ce travail afin de contourner les problèmes énumérés ci-dessus, en fournissant des doses pulmonaires plus élevées, dans des délais très courts. De plus, ces dispositifs sont activés par le flux inspiratoire du patient, ce qui pourrait aider à limiter l'exposition environnementale à des niveaux très faibles. Les inhalateurs à poudre sèche présentent également l'avantage d'être utilisables à la fois avec des médicaments solubles et des médicaments peu solubles dans l’eau. Malgré tout, étant donné que la déposition directe de quantités élevées de médicaments chimiothérapeutiques dans le parenchyme pulmonaire pourrait présenter un risque élevé d'irritation et d'effets indésirables locaux, une libération contrôlée du cisplatine à partir de particules déposées dans le parenchyme pulmonaire s’avère nécessaire. Cependant, dans les poumons, ces particules non dissoutes d’origine étrangère sont rapidement éliminées par les mécanismes d’élimination, en particulier par la clairance par les macrophages au niveau des alvéoles. Par conséquent, des stratégies de formulation capables de limiter la clairance des particules sont nécessaires pour assurer une résidence pulmonaire élevée de ces particules à libération contrôlée.La stratégie de formulation de ce travail a donc consisté à développer une formulation pour inhalateur à poudre sèche à base de microparticules lipidiques solides capable de (i) être déposées dans le poumon, (ii) de contrôler la libération du cisplatine et (iii) de rester dans le poumon suffisamment longtemps dans le but d’optimiser l'indice thérapeutique (c'est-à-dire augmenter le potentiel thérapeutique du cisplatine et diminuer ses potentiels effets secondaires).Les objectifs principaux des formulations basées sur les microparticules lipidiques solides étaient (i) de présenter des hautes charges en cisplatine au sein des microparticules lipidiques tout en présentant des propriétés aérodynamiques compatibles avec la capacité pulmonaire des patients atteints de cancer du poumon (par exemple, une fraction déposée élevée et une capacité élevée à la désagglomération sous faible débit d'air dans un inhalateur de faible résistance), (ii) de fournir une matrice capable de libérer le cisplatine de manière contrôlée in vitro, (iii) d’être capable de rester dans le poumon suffisamment longtemps in vivo, tout cela (iv) en utilisant des techniques de production ayant une bonne capacité d’augmentation d’échelle et (v) de n’utiliser que des excipients potentiellement bien tolérés au niveau du poumon.Le cisplatine a été initialement réduit sous forme microcristalline à l’aide de cycles d'homogénéisation à haute pression jusqu'à 20 000 psi. Cette procédure a permis d'obtenir des particules non enrobées ayant un diamètre moyen inférieur à 1.0 μm. Afin d’évaluer les capacités de libération du cisplatine des formulations à partir de la fraction capable théoriquement de se déposer dans les poumons, un nouveau test de dissolution a été adapté à partir d’un appareil à palettes classique de la pharmacopée et d’un impacteur à cascade « Fast Screening Impactor ». Une formulation sans excipient, obtenue à partir de la suspension de cisplatine, soumise à la technique de séchage par l’atomisation (100% de cisplatine) a été produite comme point de départ. Celle-ci a ensuite été comparée à une formulation de cisplatine/tocophéryl polyéthylène glycol succinate (TPGS) (95:5), qui présentait une capacité de déposition pulmonaire in vitro (fraction de particules fines (FPF) de 24.2% pour la première et de 51.5% pour la deuxième, exprimée par rapport à la dose nominale). Toutes deux ont démontré des capacités de libération immédiate, avec 90% du cisplatin dissous en moins de 10 minutes.D’autres formulations, cette fois élaborées sous la forme de microparticules lipidiques solides ont ensuite été produites à partir de la suspension microcristalline de cisplatine et de divers excipients lipidiques. Ces microparticules avaient préalablement été testées pour leur aptitude à être séchées par atomisation après solubilisation des excipients dans de l'isopropanol chaud. L’ajout d’un triglycéride, la tristéarine (TS), comme excipient lipidique principal et également d’une fraction comprenant un excipient contenant du polyéthylène glycol (PEG), à l’aide de TPGS ou de distéaroyl phosphoéthanolamine polyéthylène glycol 2000 (DSPE-mPEG-2000) a montré des résultats intéressants. Ces formulations, ayant une teneur en cisplatine d’au moins 50%, ont présenté des aptitudes élevées pour la libération contrôlée dans le fluide pulmonaire simulé in vitro à 37 °C, et ce, pendant plus de 24 h (jusqu'à 56% libérées après 24 h) ainsi qu’un faible « burst-effect » (de seulement 24% et 16% après 10 minutes avec et sans excipients PEGylés, respectivement). Elles ont également montré des propriétés aérodynamiques élevées, avec une FPF élevée allant de 37.3 à 50.3% m/m par rapport à la dose nominale et un diamètre aérodynamique compris entre 2.0 et 2.4 μm. Le meilleur candidat à libération immédiate (évaluée sur base de la FPF, soit la formulation cisplatine/TPGS 95:5 m/m) et les formulations à libération contrôlée les plus prometteuses n’incluant pas d’excipients PEGylés (cisplatine/TS 50:50 m/m) et incluant des excipients PEGylés (évalués sur les capacités de libération contrôlée, c'est-à-dire la formulation cisplatin/TS/TPGS 50:49.5:0.5 m/m/m) ont ensuite été administrées à des souris CD-1, en comparaison d’une nébulisation endotrachéale d'une solution de cisplatine. Ceci a été fait à l’aide de dispositifs endotrachéaux dédiés aux poudres pour le DP-4M© « Dry Powder Insufflator » et aux solutions pour le Microsprayer™ IA-1C© de Penn-Century. Ces formulations ont été comparées à l'injection intraveineuse (IV) au cours d’une étude pharmacocinétique étendue sur 48 heures.L'administration de formulations de poudres sèches pour inhalation a nécessité le développement préalable d'un diluant par atomisation (Mannitol:Leucine 10:1 m/m) ainsi que d’une méthode de dilution des poudres (mélange tridimensionnel pendant 4 heures et suivi d’un double-tamisage) afin de pouvoir délivrer des quantités précises et répétables de poudre dans les poumons de souris à la dose d’1.25 mg/kg. Le suivi des paramètres pharmacocinétiques a ainsi pu être réalisé au niveau des poumons, du sang, des reins, du foie, du médiastin et de la rate des souris. Ceci a été fait à l’aide d’une méthode de spectrométrie d'absorption atomique électrothermique, qui a été préalablement développée et validée. Les résultats obtenus ont montré que l'administration endotrachéale de formulations de poudres sèches permettait d’augmenter fortement l'exposition des poumons par le cisplatine, exprimée en aire sous la courbe (AUC) tout en diminuant l'exposition systémique. Plus précisément, la seule formulation présentant une rétention pulmonaire prolongée était celle qui comprenait un excipient PEGylé (cisplatine/TS/TPGS 50:49.5:0.5 m/m/m), ce qui a été observé pendant environ 7 heures. Cette rétention pulmonaire a été associée à des profils de concentration en fonction du temps plus réguliers dans le sang (tmax supérieur et Cmax inférieur), ce qui a également confirmé ses capacités de libération contrôlée in vivo car la perméabilité de l’épithélium pulmonaire pour le cisplatine dissous s’est avérée très élevée. L'exposition globale établie à partir de l’AUC a permis de calculer l’efficacité de ciblage (Te: rapport de l'AUC mesurée dans les poumons et de la somme des AUC mesurées dans les organes non cibles) et l’avantage du ciblage (Ta: rapport de l’AUC mesuré dans les poumons suite à l’administration pulmonaire et de l'AUC mesurée dans les poumons suite à l’administration par la voie IV). Par exemple, le Ta de la formulation décrite ci-dessus (cisplatine/TS/TPGS 50:49.5:0.5 m/m/m) était de 10.9, comparativement à 1 pour l’IV, 3.3 pour la nébulisation endotrachéale, 2.6 pour la formulation de poudre sèche à libération immédiate (cisplatine/TPGS 95:5 w/w) et 3.7 pour la formulation de poudre sèche à libération contrôlée ne comprenant pas d’excipient PEGylé (cisplatine/TS 50:50). Dans le même temps, le Te mesuré pour les mêmes formulations était de 1.6, 0.09, 1.1, 0.4 et 0.9, respectivement, démontrant également le rendement élevé de la voie inhalée par rapport à la voie IV dans sa capacité à cibler les poumons. Plus important encore, ceci a démontré le grand avantage des capacités de rétention pulmonaire de la formulation à libération contrôlée comprenant un excipient PEGylé.Dans la dernière partie de ce travail, les doses maximales tolérées (DMT) des formulations ont été déterminées. Le meilleur candidat, choisi en fonction des résultats de pharmacocinétique (formulation à libération contrôlée ayant des capacités de rétention pulmonaire composé de cisplatine/TS/TPGS 50:49.5:0.5 m/m/m), avait une meilleure tolérance globale que les deux approches à libération immédiate testées (formulation de poudre sèche cisplatine/TPGS 95:5 et la nébulisation endotrachéale d'une solution de cisplatine). Plus précisément, il s’est avéré possible de doubler le dosage administré pour la formulation à libération contrôlée (1.0 mg/kg) par rapport à la poudre sèche à libération immédiate et à la nébulisation endotrachéale (toutes les deux à 0.5 mg/kg) suivant un schéma d'administration chronique (3 fois par semaine pendant 2 semaines). De plus, une évaluation de la tolérance pulmonaire de cette formulation à libération prolongée a été réalisée et comparée à la poudre sèche à libération immédiate, à la nébulisation endotrachéale et à la voie IV. Elle a été réalisée par analyse du liquide provenant du lavage broncho-alvéolaire, 24 heures après une administration unique à la dose maximale tolérée préalablement déterminée pour chaque formulation. Aucune augmentation des cytokines IL-1β, IL-6 et TNF-α n’a pu être détectée à la suite des administrations. Aucunes preuves de lésion tissulaire ou de cytotoxicité n'ont pu être observées au travers du dosage de la teneur en protéines totale et de l'activité de la lactate déshydrogénase. Les seules observations qui ont pu être faites ont été une diminution des cellules totales et une augmentation des polynucléaires neutrophiles dans le lavage broncho-alvéolaire, ce qui n'a pas été observé suite à l’administration IV ou après l'administration du véhicule de la formulation à libération contrôlée seul (c'est-à-dire les microparticules lipidiques solides PEGylées et le diluant). Cette augmentation ne semble pas liée aux microparticules lipidiques solides ou au diluent mais probablement à l’exposition pulmonaire au cisplatine, car cette augmentation a été observée pour chaque groupe inhalé contenant du cisplatine. Le cisplatine a ensuite été administré à des souris qui ont été greffées de manière orthotopique par une lignée murine de carcinome pulmonaire M109-HiFR, modèle préclinique préalablement développé au sein de notre laboratoire. Les formulations de poudres sèches ont été évaluées par rapport à l'administration IV à chaque dose testée (0.5 et 1.0 mg/kg, respectivement). Cette étude a d'abord confirmé la toxicité plus faible de l'approche à libération contrôlée, car la formulation à libération immédiate a causé un nombre beaucoup plus élevé de décès pendant le traitement des souris greffées. La formulation à libération contrôlée administrée à 1.0 mg/kg, a montré une survie plus élevée que le contrôle négatif, mais une réponse comparable à la dose IV administrée à la moitié de la dose (0.5 mg/kg). Ce résultat inattendu par rapport aux résultats de l’étude pharmacocinétique s'explique probablement par le fait que le modèle de tumeur utilisé est hautement métastatique. Les souris traitées avec des formulations inhalées sont mortes en raison de tumeurs secondaires distantes par rapport à la tumeur primaire implantée au niveau du poumon, alors que celles traitées par la voie systémique sont mortes en raison d’un envahissement tumoral pulmonaire. Cela nous amène à penser que ce type de traitement inhalé pourrait avoir un plus grand potentiel en combinaison à la voie parentérale. Ce travail a ainsi permis d’établir la preuve du concept de formulation à base de poudre sèche de cisplatine à libération contrôlée, en utilisant un processus de fabrication capable de subir une mise à l’échelle industrielle. L’utilisation de microparticules lipidiques solides a confirmé que l'encapsulation d’actifs présentant une certaine hydrophilie, comme le cisplatine, était possible en utilisant des excipients hautement hydrophobes et qu'une modification de leur surface était cependant obligatoire pour obtenir une rétention pulmonaire intéressante in vivo. Les microparticules lipidiques solides ont montré de bons signes de tolérance au cours de l'étude exploratoire, mais celle-ci doit encore être confirmée avec une administration chronique des poudres. Ceci doit être fait en suivant des paramètres supplémentaires, tels que des analyses histologiques du tissu pulmonaire. De plus, la comparaison de la néphrotoxicité des formulations avec celle mesurée par la voie IV doit être effectuée avec des méthodes appropriées et sensibles. Enfin, l'étude de survie de la formulation à libération prolongée a montré des résultats mitigés, en partie à cause des caractéristiques du modèle orthotopique de tumeur pulmonaire. Cependant, il semblerait que la chimiothérapie inhalée à un rôle important à jouer en combinaison avec la chimiothérapie systémique classique. Ceci doit être évalué dans une étude future., Doctorat en Sciences biomédicales et pharmaceutiques (Pharmacie), info:eu-repo/semantics/nonPublished

Published

2017

369. Protective Effects of Carotenoid-Loaded Nanostructured Lipid Carriers Against Ochratoxin-A-Induced Cytotoxicity.

Author

Pinna N, Vila-Donat P, Pașca D, Blasi F, Schoubben A, and Manyes L

Abstract

Ochratoxin A (OTA) is a mycotoxin produced by Aspergillus ochraceous and various Penicillium species, which are known for contaminating agricultural products and posing significant health risks, which include immunotoxicity. This study aims to evaluate the potential of nanostructured lipid carriers (NLCs) loaded with a carotenoid-enriched extract from pumpkin peel ( Cucurbita maxima L.) in mitigating the toxic effects of OTA. To address the poor bioavailability and instability of carotenoids, nanoencapsulation techniques were employed to enhance their delivery and efficacy. NLCs were formulated using hydrogenated sunflower oil, pumpkin oil, and soy lecithin using hot high-pressure homogenization. The in vitro study involved co-digesting OTA-contaminated bread with an NLC formulation and assessing the impact of the encapsulated carotenoid on OTA bioaccessibility, bioavailability, and cellular toxicity using Caco-2 and Jurkat T cells. Even though no significant influence was observed on the bioaccessibility and bioavailability of OTA, carotenoid-loaded NLCs exhibited cytoprotective effects by improving cell viability and mitigating OTA-induced toxicity in both Caco-2 and Jurkat T cells. Particularly, the flow cytometry analysis highlighted the ability of carotenoids to mitigate OTA-induced cellular damage by decreasing ROS production and limiting mitochondrial mass changes. The study suggests that the encapsulation of carotenoids in NLCs represents a promising strategy to enhance their protective effects against OTA toxicity, potentially offering a novel approach to food safety and public health protection. The study underscores the potential of nanotechnology in improving the bioavailability and efficacy of natural antioxidants to mitigate mycotoxin-induced damage.

Published

2024

370. Engineering carrier nanoparticles with biomimetic moieties for improved intracellular targeted delivery of mRNA therapeutics and vaccines.

Author

Puccetti M, Pariano M, Schoubben A, Ricci M, and Giovagnoli S

Subjects

Humans, Vaccines administration & dosage, Drug Delivery Systems methods, Biomimetic Materials chemistry, Animals, Lipids chemistry, Biomimetics methods, Drug Carriers chemistry, Nanoparticle Drug Delivery System, Liposomes, Nanoparticles, RNA, Messenger administration & dosage

Abstract

Biological membrane-engineered lipid nanoparticles (LNP) have shown enormous potential as vehicles for drug delivery due to their outstanding biomimetic properties. To make these nanoparticles more adaptable to complex biological systems, several methods and cellular sources have been adopted to introduce biomembrane-derived moieties onto LNP and provide the latter with more functions while preserving their intrinsic nature. In this review, we focus on LNP decoration with specific regard to mRNA therapeutics and vaccines. The bio-engineering approach exploits a variety of biomembranes for functionalization, such as those derived from red blood cells, white blood cells, cancer cells, platelets, exosomes, and others. Biomembrane engineering could greatly enhance efficiency in targeted drug delivery, treatment, and diagnosis of cancer, inflammation, immunological diseases, and a variety of pathologic conditions. These membrane-modification techniques are expected to advance biomembrane-derived LNP into wider applications in the future., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Royal Pharmaceutical Society. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

371. Effect of Cocoa Roasting on Chocolate Polyphenols Evolution.

Author

La Mantia A, Ianni F, Schoubben A, Cespi M, Lisjak K, Guarnaccia D, Sardella R, and Blasi P

Abstract

Cocoa and chocolate antioxidants might contribute to human health through, for instance, blood flow improvement or blood pressure and glycemia reduction, as well as cognitive function improvement. Unfortunately, polyphenol content is reduced during cocoa fermentation, drying, roasting and all the other phases involved in the chocolate production. Here, we investigated the evolution of the polyphenol content during all the different steps of chocolate production, with a special emphasis on roasting (3 different roasting cycles with 80, 100, and 130 °C as maximum temperature). Samples were followed throughout all processes by evaluating the total polyphenols content, the antioxidant power, the epicatechin content, and epicatechin mean degree of polymerization (phloroglucinol adducts method). Results showed a similar trend for total polyphenol content and antioxidant power with an unexpected bell-shaped curve: an increase followed by a decrease for the three different roasting temperatures. At the intermediate temperature (100 °C), the higher polyphenol content was found just after roasting. The epicatechin content had a trend similar to that of total polyphenol content but, interestingly, the mean degree of polymerization data had the opposite behavior with some deviation in the case of the highest temperature, probably due to epicatechin degradation. It seems likely that roasting can free epicatechin from oligomers, as a consequence of oligomers remodeling.

Published

2023

372. Biodrug Delivery Systems: Do mRNA Lipid Nanoparticles Come of Age?

Author

Puccetti M, Schoubben A, Giovagnoli S, and Ricci M

Subjects

Humans, RNA, Messenger genetics, Liposomes, COVID-19, Nanoparticles

Abstract

As an appealing alternative to treat and prevent diseases ranging from cancer to COVID-19, mRNA has demonstrated significant clinical effects. Nanotechnology facilitates the successful implementation of the systemic delivery of mRNA for safe human consumption. In this manuscript, we provide an overview of current mRNA therapeutic applications and discuss key biological barriers to delivery and recent advances in the development of nonviral systems. The relevant challenges that LNPs face in achieving cost-effective and widespread clinical implementation when delivering mRNA are likewise discussed.

Published

2023

373. Dynamics of Clay-Intercalated Ibuprofen Studied by Solid State Nuclear Magnetic Resonance.

Author

Carignani E, Borsacchi S, Blasi P, Schoubben A, and Geppi M

Subjects

Aluminum Hydroxide chemistry, Magnesium Hydroxide chemistry, Molecular Dynamics Simulation, Ibuprofen chemistry, Magnetic Resonance Spectroscopy methods

Abstract

In designing drug delivery systems with improved release properties and bioavailability, the dynamic features of the active pharmaceutical ingredient can be crucial for the final product properties. In this work, we aimed at obtaining the first characterization of the molecular dynamic properties of one of the most common nonsteroidal anti-inflammatory drug, ibuprofen, intercalated in hydrotalcite, an interesting inorganic carrier. By exploiting a variety of solid state NMR techniques, including 1 H and 13 C MAS spectra and T 1 relaxation measurements, performed at variable temperature and carrying out a synergic analysis of all results, it has been possible to ascertain that the mobility of ibuprofen within the carrier is remarkably increased. In particular, strong indications have been obtained that ibuprofen molecules, in addition to internal interconformational dynamics, experience an overall molecular motion. Also considering that ibuprofen is "anchored" to the charged surface of the hydrotalcite layers through its carboxylate moiety, such motion could be a wobbling-in-a-cone. Activation energies and correlation times of all the motions of intercalated ibuprofen have been determined.

Published

2019

374. Tumor Targeting by Peptide-Decorated Gold Nanoparticles.

Author

Albertini B, Mathieu V, Iraci N, Van Woensel M, Schoubben A, Donnadio A, Greco SML, Ricci M, Temperini A, Blasi P, and Wauthoz N

Subjects

Animals, Antineoplastic Agents chemistry, Antineoplastic Agents therapeutic use, Brain Neoplasms drug therapy, Brain Neoplasms metabolism, Flow Cytometry, Glioblastoma drug therapy, Glioblastoma metabolism, Integrin alphaVbeta3 metabolism, Melanoma drug therapy, Melanoma metabolism, Mice, Polyethylene Glycols chemistry, Gold chemistry, Metal Nanoparticles chemistry, Nanomedicine methods

Abstract

Cancer remains one of the most important challenges in biomedical sciences. Chemotherapeutic agents are very potent molecules that exhibit a significant level of toxicity in numerous tissues of the body, particularly in those characterized by high proliferative activity, such as the bone marrow. The scenario is even more complex in the case of the central nervous system, and in particular brain tumors, where the blood brain barrier limits the efficacy of drug therapies. Integrins, transmembrane proteins widely expressed in different types of cancer (glioblastoma, melanoma, and breast cancer), regulate the angiogenic process and play a pivotal role in tumor growth and invasion. Here, we report a nanotechnology strategy based on the use of AuNPs decorated with an arginine-glycine-aspartic acid-like peptide for the diagnosis and treatment of cancer. Two hours after administration in mice, the accumulation of the peptide-decorated NPs in the subcutaneous tumor was ∼4-fold higher than that of uncoated particles and ∼1.4-fold higher than that of PEGylated particles. Also, in the case of the intracranial tumor model, interesting results were obtained. Indeed, 2 h after administration, the amount of peptide-decorated particles in the brain was 1.5-fold that of undecorated particles and 5-fold that of PEGylated particles. In conclusion, this preliminary study demonstrates the high potential of this carrier developed for diagnostic and therapeutic applications.

Published

2019

375. D-leucine microparticles as an excipient to improve the aerosolization performances of dry powders for inhalation.

Author

Schoubben A, Vivani R, Paolantoni M, Perinelli DR, Gioiello A, Macchiarulo A, and Ricci M

Subjects

Administration, Inhalation, Aerosols, Calorimetry, Differential Scanning methods, Excipients pharmacokinetics, Leucine pharmacokinetics, Spectroscopy, Fourier Transform Infrared methods, Surface Properties, X-Ray Diffraction methods, Dry Powder Inhalers methods, Excipients chemistry, Leucine chemistry, Microspheres, Particle Size

Abstract

The objective of the work was to produce a new excipient based on D-leucine to improve the aerosolization properties of the poorly flowable micronized budesonide. The D-leucine powders produced by a nano spray-dryer were characterized in terms of dimensions, morphology, thermal behavior, X-ray powder diffraction and infrared spectroscopy. Then, micronized budesonide was mixed with the different leucine powders obtained or commercial D-leucine at different weight ratios (1:1, 5:1, 10:1) to investigate their aerodynamic characteristics using a glass twin-stage impinger. Commercial D-leucine powder is composed of large flattened crystals of about 30 μm with ~3 μm thickness, while micronized budesonide appeared as small irregular crystals. After spray-drying, D-leucine particles appeared wrinkled and porous. Particle sizes were mainly influenced by the amino acid concentration. Aerodynamic assessment showed that D-leucine was able to improve the aerodynamic behavior of micronized budesonide from about 28 to 45% emitted fraction. The best aerodynamic properties were obtained with D-leucine powdered from a water:ethanol (1:1, v:v) solution and using micronized budesonide:leucine weight ratio of 5:1. The direct physical mixing of the atomized D-leucine with the micronized active pharmaceutical ingredient is a valid and economic alternative for the production of carrier-free dry powders for inhalation., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019