Hyaluronic acid-based hydrogels as codelivery systems: the effect of intermolecular interactions investigated by HR-MAS and solid-state NMR spectroscopy
Hyaluronic acid-based hydrogels as codelivery systems: the effect of intermolecular interactions investigated by HR-MAS and solid-state NMR spectroscopy
Hydrogels based on hyaluronic acid and agarose-carbomer, due to their peculiar 3D architecture and biocompatibility, are promising candidates for pharmaceutical strategies based on the codelivery of drugs targeting different diseases. The successful development of these applications requires a precise understanding of drug-drug interactions and their effects on transport and release mechanisms. In this study, such an investigation is carried out on hydrogels loaded with ethosuximide and sodium salicylate at different concentrations. Intermolecular interactions and transport properties are characterized by means of High Resolution Magic Angle Spinning and solid-state Magic Angle Spinning NMR Spectroscopy.
At variance with our previous findings on single-drug formulations, the two drugs exhibit closely similar diffusion patterns when co-loaded in the HA-based hydrogels, plausibly due to drug-drug intermolecular interactions. At the highest drug concentrations, where superdiffusion comes into play, we find a fraction of molecules with time-varying diffusion coefficients. A trapping-release mechanism is proposed to explain this observation, which also accounts for the role of drug-hydrogel interactions in drug diffusion motion. The effects of drug-drug interactions on release profiles are finally assessed by means of in vitro release experiments.
Drug codelivery, HR-MAS NMR Spectroscopy, diffusion, hydrogels, Hydrogels, Diffusion
Vanoli, Valeria
13924758-65f4-4b5c-8f0c-ce6b7d291533
Casalegno, Mosè
58fb9a6a-a94f-4cb7-b356-c91aac93eaba
Carravetta, Marina
1b12fa96-4a6a-4689-ab3b-ccc68f1d7691
Pizzetti, Fabio
2585760b-7f5b-42a3-aa38-f3288b135144
Mele, Andrea
6aedb243-2ddb-4a1b-bf67-d8a4c8f54794
Rossi, Filippo
2308b0c5-5930-4799-a58b-f5bf8d4a5b1e
Castiglione, Franca
e26e3316-4078-4638-b38f-1693914f00ed
26 November 2024
Vanoli, Valeria
13924758-65f4-4b5c-8f0c-ce6b7d291533
Casalegno, Mosè
58fb9a6a-a94f-4cb7-b356-c91aac93eaba
Carravetta, Marina
1b12fa96-4a6a-4689-ab3b-ccc68f1d7691
Pizzetti, Fabio
2585760b-7f5b-42a3-aa38-f3288b135144
Mele, Andrea
6aedb243-2ddb-4a1b-bf67-d8a4c8f54794
Rossi, Filippo
2308b0c5-5930-4799-a58b-f5bf8d4a5b1e
Castiglione, Franca
e26e3316-4078-4638-b38f-1693914f00ed
Vanoli, Valeria, Casalegno, Mosè, Carravetta, Marina, Pizzetti, Fabio, Mele, Andrea, Rossi, Filippo and Castiglione, Franca
(2024)
Hyaluronic acid-based hydrogels as codelivery systems: the effect of intermolecular interactions investigated by HR-MAS and solid-state NMR spectroscopy.
Carbohydrate Polymers, 350, [123043].
(doi:10.1016/j.carbpol.2024.123043).
Abstract
Hydrogels based on hyaluronic acid and agarose-carbomer, due to their peculiar 3D architecture and biocompatibility, are promising candidates for pharmaceutical strategies based on the codelivery of drugs targeting different diseases. The successful development of these applications requires a precise understanding of drug-drug interactions and their effects on transport and release mechanisms. In this study, such an investigation is carried out on hydrogels loaded with ethosuximide and sodium salicylate at different concentrations. Intermolecular interactions and transport properties are characterized by means of High Resolution Magic Angle Spinning and solid-state Magic Angle Spinning NMR Spectroscopy.
At variance with our previous findings on single-drug formulations, the two drugs exhibit closely similar diffusion patterns when co-loaded in the HA-based hydrogels, plausibly due to drug-drug intermolecular interactions. At the highest drug concentrations, where superdiffusion comes into play, we find a fraction of molecules with time-varying diffusion coefficients. A trapping-release mechanism is proposed to explain this observation, which also accounts for the role of drug-hydrogel interactions in drug diffusion motion. The effects of drug-drug interactions on release profiles are finally assessed by means of in vitro release experiments.
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Accepted/In Press date: 18 November 2024
e-pub ahead of print date: 20 November 2024
Published date: 26 November 2024
Keywords:
Drug codelivery, HR-MAS NMR Spectroscopy, diffusion, hydrogels, Hydrogels, Diffusion
Identifiers
Local EPrints ID: 496939
URI: http://eprints.soton.ac.uk/id/eprint/496939
ISSN: 0144-8617
PURE UUID: b8ea3fc7-0109-4327-9062-9e43ca107ed0
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Date deposited: 08 Jan 2025 15:00
Last modified: 10 Jan 2025 02:41
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Contributors
Author:
Valeria Vanoli
Author:
Mosè Casalegno
Author:
Fabio Pizzetti
Author:
Andrea Mele
Author:
Filippo Rossi
Author:
Franca Castiglione
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