Your search keyword '"Mayol, Laura"' showing total 15 results

1. Investigating the Effect of Surface Hydrophilicity on the Destiny of PLGA-Poloxamer Nanoparticles in an In Vivo Animal Model.

Author

Silvestri T, Grumetto L, Neri I, De Falco M, Graziano SF, Damiano S, Giaquinto D, Maruccio L, de Girolamo P, Villapiano F, Ciarcia R, Mayol L, and Biondi M

Subjects

Mice, Animals, Drug Carriers chemistry, Polyglycolic Acid chemistry, Lactic Acid chemistry, Tissue Distribution, Polylactic Acid-Polyglycolic Acid Copolymer, Particle Size, Poloxamer, Nanoparticles chemistry

Abstract

This study aimed to examine the impact of different surface properties of poly(lactic-co-glycolic) acid (PLGA) nanoparticles (P NPs) and PLGA-Poloxamer nanoparticles (PP NPs) on their in vivo biodistribution. For this purpose, NPs were formulated via nanoprecipitation and loaded with diphenylhexatriene (DPH), a fluorescent dye. The obtained NPs underwent comprehensive characterization, encompassing their morphology, technological attributes, DPH release rate, and thermodynamic properties. The produced NPs were then administered to wild-type mice via intraperitoneal injection, and, at scheduled time intervals, the animals were euthanized. Blood samples, as well as the liver, lungs, and kidneys, were extracted for histological examination and biodistribution analysis. The findings of this investigation revealed that the presence of poloxamers led to smaller NP sizes and induced partial crystallinity in the NPs. The biodistribution and histological results from in vivo experiments evidenced that both, P and PP NPs, exhibited comparable concentrations in the bloodstream, while P NPs could not be detected in the other organs examined. Conversely, PP NPs were primarily sequestered by the lungs and, to a lesser extent, by the kidneys. Future research endeavors will focus on investigating the behavior of drug-loaded NPs in pathological animal models.

Published

2023

2. Curcumin loaded PLGA-poloxamer blend nanoparticles induce cell cycle arrest in mesothelioma cells.

Author

Mayol L, Serri C, Menale C, Crispi S, Piccolo MT, Mita L, Giarra S, Forte M, Saija A, Biondi M, and Mita DG

Subjects

Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic metabolism, Cell Line, Tumor, Cell Proliferation drug effects, Chemistry, Pharmaceutical, Curcumin chemistry, Curcumin metabolism, Drug Stability, Drug Tolerance, Humans, Kinetics, Mesothelioma pathology, Nanomedicine, Particle Size, Polylactic Acid-Polyglycolic Acid Copolymer, Protein Binding, Solubility, Surface Properties, Technology, Pharmaceutical methods, Antineoplastic Agents, Phytogenic pharmacology, Cell Cycle Checkpoints drug effects, Curcumin pharmacology, Drug Carriers, Lactic Acid chemistry, Mesothelioma drug therapy, Nanoparticles, Poloxamer chemistry, Polyglycolic Acid chemistry

Abstract

The pharmacological potential of curcumin (CURC) is severely restricted because of its low water solubility/absorption, short half-life and poor bioavailability. To overcome these issues, CURC-loaded nanoparticles (NPs) were produced by a double emulsion technique. In particular, NPs were made up of an amphiphilic blend of poloxamers and PLGA to confer stealth properties to the NPs to take advantage of the enhanced permeability and retention (EPR) effect. Different surface properties of NPs made up of bare PLGA and PLGA/poloxamer blend were confirmed by the different interactions of these NPs with serum proteins and also by their ability to be internalized by mesothelioma cell line. The uptake of PLGA/poloxamer NPs induces a persistent block in G0/G1 phase of the cell cycle up to 72 h, thus overcoming the drug tolerance phenomenon, normally evidenced with free CURC., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

3. Injectable thermally responsive mucoadhesive gel for sustained protein delivery.

Author

Mayol L, Biondi M, Quaglia F, Fusco S, Borzacchiello A, Ambrosio L, and La Rotonda MI

Subjects

Delayed-Action Preparations chemistry, Gels, Humans, Kinetics, Permeability, Adhesives chemistry, Hyaluronic Acid chemistry, Insulin chemistry, Poloxamer chemistry

Abstract

Poloxamer thermoresponsive gels are widely explored in controlled drug delivery. Nevertheless, these gels possess inadequate mechanical properties, poor bioadhesiveness, and high permeability to water. To overcome these issues, we blended mucoadhesive hyaluronic acid (HA) with poloxamer analogs. This study aimed to investigate the features affecting the microscopic properties of the gels, which determine their macroscopic properties and capability to control/sustain protein release. Results showed that HA hampers water-poloxamer interactions, thus, strongly influencing physicochemical properties of poloxamer gels. This leads to gels with improved mechanical properties in which the diffusion kinetics of macromolecular active molecules are drastically slowed down. Poloxamer-HA gels can sustain the delivery of proteins, such as insulin, and may allow the modulation of its release kinetics by modifying HA content within the gels in the administration sites in which the active molecule release mechanism is mainly governed by its diffusion.

Published

2011

4. A novel poloxamers/hyaluronic acid in situ forming hydrogel for drug delivery: rheological, mucoadhesive and in vitro release properties.

Author

Mayol L, Quaglia F, Borzacchiello A, Ambrosio L, and La Rotonda MI

Subjects

Acyclovir chemistry, Adhesiveness, Animals, Antiviral Agents chemistry, Chemistry, Pharmaceutical, Elasticity, Feasibility Studies, Gastric Mucins metabolism, Hyaluronic Acid metabolism, Kinetics, Micelles, Ophthalmic Solutions chemistry, Photons, Poloxamer metabolism, Solubility, Spectrometry, Fluorescence, Swine, Temperature, Viscosity, Drug Carriers, Gastric Mucins chemistry, Hyaluronic Acid chemistry, Hydrogels, Poloxamer chemistry, Rheology, Technology, Pharmaceutical methods

Abstract

The influence of hyaluronic acid (HA) on the gelation properties of poloxamers blends has been studied with the aim of engineering thermosensitive and mucoadhesive polymeric platforms for drug delivery. The gelation temperature (T(gel)), viscoelastic properties and mucoadhesive force of the systems were investigated and optimised by means of rheological analyses. Poloxamers micellar diameter was evaluated by photon correlation spectroscopy (PCS). Moreover in order to explore the feasibility of these platforms for drug delivery, the optimised systems were loaded with acyclovir and its release properties studied in vitro. By formulating poloxamers/HA platforms, at specific concentrations, it was possible to obtain a thermoreversible gel with a T(gel) close to body temperature. The addition of HA did not hamper the self assembling process of poloxamers just delaying the gelation temperature of few Celsius degrees. Furthermore, HA presence led to a strong increase of the poloxamer rheological properties thus indicating possible HA interactions with micelles through secondary bonds, such as hydrogen ones, which reinforce the gel structure. These interactions could also explain PCS results which show, in systems containing HA, aggregates with hydrodynamic diameters much higher than those of poloxamer micelles. Mucoadhesion experiments showed a rheological synergism between poloxamers/HA gels and mucin dispersion which led to a change of the flow behaviour from a quite Newtonian one of the separate solutions to a pseudoplastic one of their mixture. In vitro release experiments indicated that the optimised platform was able to prolong and control acyclovir release for more than 6h.

Published

2008

5. Spontaneous arrangement of a tumor targeting hyaluronic acid shell on irinotecan loaded PLGA nanoparticles

Author

Giarra, Simona, Serri, Carla, Russo, Luisa, Zeppetelli, Stefania, De Rosa, Giuseppe, Borzacchiello, Assunta, Biondi, Marco, Ambrosio, Luigi, Mayol, Laura, Giarra, Simona, Serri, Carla, Russo, Luisa, Zeppetelli, Stefania, DE ROSA, Giuseppe, Borzacchiello, Assunta, Biondi, Marco, Ambrosio, Luigi, and Mayol, Laura

Subjects

0301 basic medicine, Polymers and Plastics, Nanoparticle, Nanotechnology, Antineoplastic Agents, 02 engineering and technology, Poloxamer, Irinotecan, 03 medical and health sciences, chemistry.chemical_compound, Polylactic Acid-Polyglycolic Acid Copolymer, Cell Line, Tumor, Hyaluronic acid, Amphiphile, Materials Chemistry, Zeta potential, Humans, Lactic Acid, Molecular Targeted Therapy, CD44, Hyaluronic Acid, Drug Carriers, Organic Chemistry, technology, industry, and agriculture, PLGA, 021001 nanoscience & nanotechnology, Drug Liberation, 030104 developmental biology, Tumor targeting, Hyaluronan Receptors, chemistry, Antigens, CD44, Camptothecin, Nanoparticles, Polyglycolic Acid, Materials Chemistry2506 Metals and Alloys, Emulsion, Lipophilicity, Biophysics, 0210 nano-technology

Abstract

The arrangement of tumor targeting hyaluronic acid (HA) moieties on irinotecan (IRIN)-loaded poly(lactic-co-glycolic acid) (PLGA) nanoparticles (NPs) has been directed by means of a gradient of lipophilicity between the oil and water phases of the emulsion used to produce the NPs. PLGA constitutes the NP bulk while HA is superficially exposed, with amphiphilic poloxamers acting as a bridge between PLGA and HA. Differential scanning calorimetry, zeta potential analyses and ELISA tests were employed to support the hypothesis of polymer assembly in NP formulations. The presence of flexible HA chains on NP surface enhances NP size stability over time due to an increased electrostatic repulsion between NPs and a higher degree of hydration of the device surface. IRIN in vitro release kinetics can be sustained up to 7-13 days. In vitro biologic studies indicated that HA-containing NPs were more toxic than bare PLGA NPs against CD44-overexpressing breast carcinoma cells (HS578T), therefore indicating their ability to target CD44 receptor.

Published

2015

6. Drug micro-carriers with a hyaluronic acid corona toward a diffusion-limited aggregation within the vitreous body.

Author

Mayol, Laura, Silvestri, Teresa, Fusco, Sabato, Borzacchiello, Assunta, De Rosa, Giuseppe, and Biondi, Marco

Subjects

*VITREOUS body, *HYALURONIC acid, *POSTERIOR segment (Eye), *DRUG side effects, *MOLECULAR weights, *CONTROLLED release drugs

Abstract

• Microparticles were decorated with two different molecular weights hyaluronic acid. • Hyaluronic acid corona discourage the diffusion of microparticles in the vitreous. • The molecular weight of the hyaluronic acid influence protein release kinetics. • Hyaluronic acid molecular weight influence the diffusion of the microparticles. • Hyaluronic acid molecular weight does not affect degradation time of microparticles. Posterior eye segment diseases are treated through monthly intravitreal injections, that evoke serious side effects. A promising approach to reduce injection frequency consists in producing biodegradable microspheres (MPs) releasing the protein in the vitreous body for long times. Moreover, a rational design of these MPs requires a discouraged diffusion/sedimentation within the intravitreal space, which are detrimental for the vision and the control over drug release kinetics. In this work, poly(lactic-co-glycolic acid) (PLGA)-based MPs encapsulating bovine serum albumin (BSA) were coated with hyaluronic acid (HA) at two molecular weights and tested for their release, diffusion and degradation features in simulated vitreous body (SVB). Results indicate that HA corona prolongs MP degradation time and BSA release. Furthermore, HA coating increased the affinity between MPs and SVB, thereby repressing device transport compared to control PLGA MPs. Results hold promise for the possible application of HA-decorated MPs for intravitreal injection of protein drugs. [ABSTRACT FROM AUTHOR]

Published

2019

7. Electron dispersive X-ray spectroscopy and degradation properties of hyaluronic acid decorated microparticles.

Author

Serri, Carla, Frigione, Mariaenrica, Ruponen, Marika, Urtti, Arto, Borzacchiello, Assunta, Biondi, Marco, Itkonen, Jaakko, and Mayol, Laura

Subjects

*HYALURONIC acid, *X-ray spectroscopy, *POSTERIOR segment (Eye), *VITREOUS body, *POLOXAMERS, *FOOD emulsions

Abstract

• Microparticles based on PLGA/poloxamers have been decorated with hyaluronic acid with no chemical reaction. • EDS results indicate the migration of ethylene oxide segments of poloxamers towards microparticle surface. • Poloxamers only partially blend in PLGA-containing bulk of microspheres. • Microparticle degradation is strongly slowed down in the presence of poloxamers. The purpose of this study was to produce poly(DL-lactic-co-glycolic acid) (PLGA) – based microparticles (MPs), externally decorated with hyaluronic acid (HA). The MPs are intended for intravitreal injections in the treatment of posterior eye segment and have been designed to prolong the release of growth factors into the vitreous body, therefore aiming to increase the time interval between two consecutive injections. The MPs, prepared by a modified double emulsion-solvent evaporation technique and loaded with bovine serum albumins (BSA) and ciliary neurotrophic factor (CNTF), were spherical, with a diameter around 70 μm and a >90% encapsulation efficiency. Energy Dispersive Spectroscopy (EDS) outcomes indicated that HA presence in the external aqueous phase of the emulsion did affect the surface properties of MPs. Moreover, poloxamers drastically slowed down MP degradation properties which are, in turn, closely related to their ability to prolong drug release. This is promising for the envisaged application of the produced MPs. Further work will be devoted to optimizing MP formulation with respect to the envisaged intravitreal route of administration. [ABSTRACT FROM AUTHOR]

Published

2019

8. Spontaneous arrangement of a tumor targeting hyaluronic acid shell on irinotecan loaded PLGA nanoparticles.

Author

Giarra, Simona, Serri, Carla, Russo, Luisa, Zeppetelli, Stefania, De Rosa, Giuseppe, Borzacchiello, Assunta, Biondi, Marco, Ambrosio, Luigi, and Mayol, Laura

Subjects

*TUMOR treatment, *THERAPEUTIC use of hyaluronic acid, *IRINOTECAN, *DRUG lipophilicity, *TARGETED drug delivery, *NANOMEDICINE, *MOIETIES (Chemistry), *DIFFERENTIAL scanning calorimetry

Abstract

The arrangement of tumor targeting hyaluronic acid (HA) moieties on irinotecan (IRIN)-loaded poly(lactic-co-glycolic acid) (PLGA) nanoparticles (NPs) has been directed by means of a gradient of lipophilicity between the oil and water phases of the emulsion used to produce the NPs. PLGA constitutes the NP bulk while HA is superficially exposed, with amphiphilic poloxamers acting as a bridge between PLGA and HA. Differential scanning calorimetry, zeta potential analyses and ELISA tests were employed to support the hypothesis of polymer assembly in NP formulations. The presence of flexible HA chains on NP surface enhances NP size stability over time due to an increased electrostatic repulsion between NPs and a higher degree of hydration of the device surface. IRIN in vitro release kinetics can be sustained up to 7–13 days. In vitro biologic studies indicated that HA-containing NPs were more toxic than bare PLGA NPs against CD44-overexpressing breast carcinoma cells (HS578T), therefore indicating their ability to target CD44 receptor. [ABSTRACT FROM AUTHOR]

Published

2016

9. Engineering of thermoresponsive gels as a fake metastatic niche

Author

Roberto Pacelli, Simona Giarra, Caterina Ieranò, Stefania Scala, Maria Napolitano, Giuseppe De Rosa, Virginia Campani, Laura Mayol, Marco Biondi, Giarra, Simona, Ierano, Caterina, Biondi, Marco, Napolitano, Maria, Campani, Virginia, Pacelli, Roberto, Scala, Stefania, De Rosa, Giuseppe, and Mayol, Laura

Subjects

Materials Chemistry2506 Metals and Alloys, 0301 basic medicine, Chemokine, Polymers and Plastics, CEM cell, Thermosensitive gel, CXCR4, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Circulating tumor cell, Metastatic niche, Hyaluronic acid, Materials Chemistry, Tumor Cell Migration, Metastasis trap, CXCL12-CXCR4 axi, Polymers and Plastic, biology, Organic Chemistry, Poloxamer, In vitro, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, biology.protein, Biophysics

Abstract

Chemoattraction through the CXCR4-CXCL12 axis has been shown to be an important mechanism to direct circulating tumor cells toward distant sites. The objective of this work was to prepare a fake metastatic niche made up of a gel loaded with CXCL12. The gel is designed to create a steep concentration gradient of the chemokine in the proximity of the site of administration/injection, aimed to divert and capture circulating CXCR4+ tumor cells. To this aim, different thermoresponsive gels based on methylcellulose (MC) or poloxamers, loaded with CXCL12, with or without hyaluronic acid (HA) were designed and their mechanical properties correlated with the ability to attract and capture in vitro CXCR4+ cells. Results of in vitro cell studies showed that all prepared gels induced CEM tumor cell migration whereas only gels based on MC embedded with CXCL12 are able to capture them.

Published

2018

10. Hyaluronan-coated nanoparticles for active tumor targeting: Influence of polysaccharide molecular weight on cell uptake.

Author

Della Sala, Francesca, Silvestri, Teresa, Borzacchiello, Assunta, Mayol, Laura, Ambrosio, Luigi, and Biondi, Marco

Subjects

*MOLECULAR weights, *HYALURONIC acid, *CD44 antigen, *NANOPARTICLES, *TUMORS, *GENETIC overexpression

Abstract

Here we aimed to correlate different molecular weights of hyaluronic acid (HA), 200, 800 and 1437 kDa, used to decorate poly(lactic-co-glycolic acid) (PLGA)-based nanoparticles (NPs), to their cell uptakes. NP internalization kinetics in CD44-overexpressing breast carcinoma cells were quantified, using healthy fibroblast cells as reference. Actually, NP uptake and selectivity by tumor cells were maximized for NPs HA 800 kDa, while being minimum for NPs HA1400 kDa. This unexpected result could be explained considering that the interaction between NPs and tumor cells is dictated by rearrangement and conformation of that segment of HA chain that actually protrudes from the NPs. Overall, results obtained in this work point at how HA molecular weight, is pivotal project parameter in NP formulation to promote active targeting in the CD44 overexpressing cancer cells. [Display omitted] • NPs based on PLGA were physically linked and decorated with HA. • NPs formulations were produced with HA at 200, 800 and 1437 kDa MW respectively. • Physical chemical characterizations confirmed polymer arrangement. • HA 800 kDa NPs uptake kinetics in CD44-overexpressing tumor cells were maximized. • HA MW arrangement on NP surface affect active targeting by CD44 cancer cells. [ABSTRACT FROM AUTHOR]

Published

2022

11. Curcumin loaded PLGA–poloxamer blend nanoparticles induce cell cycle arrest in mesothelioma cells

Author

Antonina Saija, Marco Biondi, Simona Giarra, Maria Teresa Piccolo, Laura Mayol, Carla Serri, Stefania Crispi, Luigi Mita, Damiano Gustavo Mita, Maurizio Forte, Ciro Menale, Mayol, Laura, Carla, Serri, Menale, Ciro, Stefania, Crispi, Maria Teresa Piccolo, Luigi, Mita, Simona, Giarra, Maurizio, Forte, Antonina, Saija, Biondi, Marco, and Damiano Gustavo Mita

Subjects

Mesothelioma, inorganic chemicals, Curcumin, Surface Properties, Chemistry, Pharmaceutical, education, Pharmaceutical Science, Nanoparticle, Nanotechnology, Curcumin, Mesothelioma, Nanoparticles, PLGA, Poloxamers, Stealth, Poloxamer, macromolecular substances, Absorption (skin), Poloxamers, chemistry.chemical_compound, Drug Stability, Polylactic Acid-Polyglycolic Acid Copolymer, Cell Line, Tumor, Humans, Technology, Pharmaceutical, Lactic Acid, Particle Size, Stealth, health care economics and organizations, Cell Proliferation, Drug Carriers, Chemistry, technology, industry, and agriculture, PLGA, Cell Cycle Checkpoints, Drug Tolerance, General Medicine, Antineoplastic Agents, Phytogenic, Bioavailability, Kinetics, Nanomedicine, Solubility, Biophysics, Nanoparticles, Drug carrier, Polyglycolic Acid, Protein Binding, Biotechnology

Abstract

The pharmacological potential of curcumin (CURC) is severely restricted because of its low water solubility/absorption, short half-life and poor bioavailability. To overcome these issues, CURC-loaded nanoparticles (NPs) were produced by a double emulsion technique. In particular, NPs were made up of an amphiphilic blend of poloxamers and PLGA to confer stealth properties to the NPs to take advantage of the enhanced permeability and retention (EPR) effect. Different surface properties of NPs made up of bare PLGA and PLGA/poloxamer blend were confirmed by the different interactions of these NPs with serum proteins and also by their ability to be internalized by mesothelioma cell line. The uptake of PLGA/poloxamer NPs induces a persistent block in G0/G1 phase of the cell cycle up to 72 h, thus overcoming the drug tolerance phenomenon, normally evidenced with free CURC.

Published

2015

12. Nano-precipitated curcumin loaded particles: effect of carrier size and drug complexation with (2-hydroxypropyl)-β-cyclodextrin on their biological performances

Author

Mario Argirò, Simona Giarra, Linda Piras, Antonina Saija, Luigi Mita, Marco Biondi, Carla Serri, Damiano Gustavo Mita, Laura Mayol, Maurizio Forte, Stefania Crispi, Serri, Carla, Argirò, Mario, Piras, Linda, Mita, Damiano Gustavo, Saija, Antonina, Mita, Luigi, Forte, Maurizio, Giarra, Simona, Biondi, Marco, Crispi, Stefania, and Mayol, Laura

Subjects

Mesothelioma, Curcumin, Stereochemistry, Cell Survival, Pharmaceutical Science, Nanoparticle, 02 engineering and technology, Poloxamer, 010402 general chemistry, 01 natural sciences, Poloxamers, chemistry.chemical_compound, Differential scanning calorimetry, Drug Stability, Polylactic Acid-Polyglycolic Acid Copolymer, Cell Line, Tumor, Amphiphile, Cyclodextrin, Chemical Precipitation, Humans, Lactic Acid, Particle Size, Cells, Cultured, chemistry.chemical_classification, Drug Carriers, beta-Cyclodextrins, PLGA, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, 2-Hydroxypropyl-beta-cyclodextrin, Curcumin, Cyclodextrin, Mesothelioma, Nanoparticles, PLGA, Poloxamers, Drug Liberation, chemistry, Nanoparticles, 0210 nano-technology, Polyglycolic Acid, Nuclear chemistry

Abstract

In this work, curcumin (CURC)-encapsulating nanoparticles (NPs), made up of an amphiphilic blend of poloxamers and PLGA (PPC NPs) at different polymer concentrations, were prepared by nanoprecipitation. CURC was preliminarily complexed with (2-hydroxypropyl)-β-cyclodextrin (HPβCD) to improve its loading efficiency. The formation of host-guest complexes of CURC with HPβCD (CD-CURC) was confirmed by means of 1HNMR studies and differential scanning calorimetry (DSC). Nanoprecipitation allowed to obtain NPs with a small size (90–120 nm depending on the polymer concentration), a narrow size distribution and stable in water for 30 days at 4 °C and in RPMI-1640 cell culture medium up to 72 h at 37 °C. The in vitro release of CD-CURC, sustained up to 5 days, was governed mainly by a diffusive mechanism. It was also found that the produced NPs were efficiently internalized by mesothelioma cells (MSTO-211H) in the cytoplasmic space, at an extent strongly dependent on NP size and polydispesity index, therefore pointing at the importance of NP preparation method in improving their uptake.

Published

2016

13. Injectable Thermally Responsive Mucoadhesive Gel for Sustained Protein Delivery

Author

Maria Immacolata La Rotonda, Sabato Fusco, Luigi Ambrosio, Assunta Borzacchiello, Marco Biondi, Laura Mayol, Fabiana Quaglia, Mayol, Laura, Biondi, Marco, Quaglia, Fabiana, LA ROTONDA, MARIA IMMACOLATA, Fusco, S., Borzacchiello, A., Ambrosio, L., Fusco, Sabato, Borzacchiello, Assunta, and Ambrosio, Luigi

Subjects

Materials Chemistry2506 Metals and Alloys, Polymers and Plastics, Kinetics, Adhesive, Bioengineering, Poloxamer, Permeability, Biomaterials, chemistry.chemical_compound, Adhesives, Delayed-Action Preparation, Hyaluronic acid, Polymer chemistry, Materials Chemistry, Humans, Insulin, Hyaluronic Acid, Kinetic, Gel, Polymers and Plastic, Chemistry, Biomaterial, Polyelectrolyte, Permeability (electromagnetism), Delayed-Action Preparations, Drug delivery, Biophysics, Liberation, Drug carrier, Gels, Human

Abstract

Poloxamer thermoresponsive gels are widely explored in controlled drug delivery. Nevertheless, these gels possess inadequate mechanical properties, poor bioadhesiveness, and high permeability to water. To overcome these issues, we blended mucoadhesive hyaluronic acid (HA) with poloxamer analogs. This study aimed to investigate the features affecting the microscopic properties of the gels, which determine their macroscopic properties and capability to control/sustain protein release. Results showed that HA hampers water-poloxamer interactions, thus, strongly influencing physicochemical properties of poloxamer gels. This leads to gels with improved mechanical properties in which the diffusion kinetics of macromolecular active molecules are drastically slowed down. Poloxamer-HA gels can sustain the delivery of proteins, such as insulin, and may allow the modulation of its release kinetics by modifying HA content within the gels in the administration sites in which the active molecule release mechanism is mainly governed by its diffusion. © 2010 American Chemical Society.

Published

2011

14. Effect of Hyaluronic Acid on the Self Assembling Behaviour of PEO-PPO Copolymers in Aqueous Solution

Author

L. Mayol, A. Borzacchiello, F. Quaglia, M. I. La Rotonda, L. Ambrosio, Albert Co, Gary L. Leal, Ralph H. Colby, A. Jeffrey Giacomin, Mayol, Laura, Borzacchiello, A., Quaglia, Fabiana, LA ROTONDA, MARIA IMMACOLATA, and Ambrosio, L.

Subjects

Colloid, Aqueous solution, Materials science, Dynamic light scattering, Chemical engineering, Rheology, Polymer chemistry, Drug delivery, technology, industry, and agriculture, Copolymer, Polymer blend, Poloxamer

Abstract

The influence of hyaluronic acid (HA) on the self assembling properties of pluronic (PEO-PPO-PEO block copolymers) blends has been studied with the aim of engineering thermosensitive and mucoadhesive polymeric platforms for drug delivery. The gelation temperature (Tgel), viscoelastic properties and mucoadhesive force of the systems were investigated and optimised by means of rheological analyses. Pluronic micellar radius was evaluated by Photon Correlation Spectroscopy (PCS). The addition of Low Molecular Weight HA did not hamper the self assembling process of pluronics just delaying the gelation temperature of few Celsius degrees. Furthermore, HA presence led to a strong increase of the pluronics gel rheological properties. PCS results show, in formulations containing HA, aggregates with hydrodynamic diameters values much higher than those of pluronic micelles. Mucoadhesive experiments indicate the possibility of interactions between the pluronic/HA gel and mucus glycoproteins.

Published

2008

15. A novel poloxamers/hyaluronic acid in situ forming hydrogel for drug delivery: Rheological, mucoadhesive and in vitro release properties

Author

Assunta Borzacchiello, Maria Immacolata La Rotonda, Luigi Ambrosio, Laura Mayol, Fabiana Quaglia, Mayol, Laura, Quaglia, Fabiana, A., Borzacchiello, L., Ambrosio, and M. I., La Rotonda

Subjects

Swine, Stereochemistry, Chemistry, Pharmaceutical, Acyclovir, Pharmaceutical Science, Excipient, Antiviral Agents, Micelle, Dosage form, hyaluronic acid, thermosensitive hydrogel, Mucoadhesion, medicine, Animals, Technology, Pharmaceutical, thermosensitive gel, Micelles, Drug Carriers, Photons, Viscosity, Chemistry, Gastric Mucins, Temperature, Adhesiveness, Hydrogels, General Medicine, Poloxamer, mucoahesion, Elasticity, Kinetics, Spectrometry, Fluorescence, Solubility, Chemical engineering, Drug delivery, Self-healing hydrogels, drug delivery, Feasibility Studies, Ophthalmic Solutions, Rheology, Drug carrier, poloxamer, mucoadhesion, Biotechnology, medicine.drug

Abstract

The influence of Hyaluronic acid (HA) on the gelation properties of Poloxamers blends has been studied with the aim of engineering thermosensitive and mucoadhesive polymeric platforms for drug delivery. The gelation temperature (Tgel), viscoelastic properties and mucoadhesive force of the systems were investigated and optimised by means of rheological analyses. Poloxamers micellar radius was evaluated by Photon Correlation Spectroscopy (PCS). Moreover in order to explore the feasibility of these platforms for drug delivery, the optimised systems were loaded with acyclovir and its release properties studied in vitro. By formulating Poloxamers/HA platforms, at specific concentrations, it was possible to obtain a thermoreversible gel with a Tgel close to body temperature. The addition of Low Molecular Weight HA did not hamper the self assembling process of Poloxamers just delaying the gelation temperature of few Celsius degrees. Furthermore, HA presence led to a strong increase of the Poloxamer rheological properties thus indicating possible HA interactions with micelles through secondary bonds, such as hydrogen ones, which reinforce the gel structure. These interactions could also explain PCS results which show, in systems containing HA, aggregates with hydrodynamic diameters much higher than those of Poloxamer micelles. Mucoadhesion experiments showed a rheological synergism between Poloxamers/HA gels and mucin dispersion which led to a change of the flow behaviour from a quite Newtonian one of the separate solutions to a pseudoplastic one of their mixture. In vitro release experiments indicated that the optimised platform was able to prolong and control acyclovir release for more than 6 hours

Published

2008