Novel Chitosan-Silica Hybrid Hydrogels for Cell Encapsulation and Drug Delivery

Jayash, Soher Nagi; Cooper, Paul R.; Shelton, Richard M.; Kuehne, Sarah A.; Poologasundarampillai, Gowsihan

doi:10.3390/ijms222212267

Cited by 20 publications

(12 citation statements)

References 105 publications

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“…203 Modifying the chemical composition and cross-linking density of the hydrogel can also influence degradation. 204,205 Drug release by degradation has some advantages and limitations for hydrogel-based DDSs. 206 Some advantages include achieving a constant drug concentration with zero-order or near-zero-order release kinetics, avoiding harmful burst release to drugs and tissues, eliminating surgical removal after drug delivery, and reducing infection risk from residual material.…”

Section: The Release Mechanism Of Hydrogel-based Ddssmentioning

confidence: 99%

Advancements in hydrogel-based drug delivery systems for the treatment of inflammatory bowel disease: a review

Liu,

Huang,

et al. 2024

Biomater. Sci.

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Section: The Release Mechanism Of Hydrogel-based Ddssmentioning

confidence: 99%

Advancements in hydrogel-based drug delivery systems for the treatment of inflammatory bowel disease: a review

Liu,

Huang,

et al. 2024

Biomater. Sci.

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“…Sol-gel chemistry is usually based on tetraethoxysilane (TEOS) as the precursor for the inorganic phase, which upon condensation releases ethanol as the reaction by-product, that is a cytotoxic compound that inhibits cell growth and proliferation. The less toxic glycerol-modified silane precursor was proposed for the synthesis of novel CHT-containing class II hybrids, denoting a hydrogel behavior [ 211 ]. As in the previous example, the cross-linker was GPTMS; however, a mixture of CHT and a thiolated-CHT was used in the conjugation reaction.…”

Section: Chitosan-based Organic–inorganic Hybrids For Biomedical Appl...mentioning

confidence: 99%

Chitosan-Based Biomaterials: Insights into Chemistry, Properties, Devices, and Their Biomedical Applications

et al. 2023

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Chitosan is a marine-origin polysaccharide obtained from the deacetylation of chitin, the main component of crustaceans’ exoskeleton, and the second most abundant in nature. Although this biopolymer has received limited attention for several decades right after its discovery, since the new millennium chitosan has emerged owing to its physicochemical, structural and biological properties, multifunctionalities and applications in several sectors. This review aims at providing an overview of chitosan properties, chemical functionalization, and the innovative biomaterials obtained thereof. Firstly, the chemical functionalization of chitosan backbone in the amino and hydroxyl groups will be addressed. Then, the review will focus on the bottom-up strategies to process a wide array of chitosan-based biomaterials. In particular, the preparation of chitosan-based hydrogels, organic–inorganic hybrids, layer-by-layer assemblies, (bio)inks and their use in the biomedical field will be covered aiming to elucidate and inspire the community to keep on exploring the unique features and properties imparted by chitosan to develop advanced biomedical devices. Given the wide body of literature that has appeared in past years, this review is far from being exhaustive. Selected works in the last 10 years will be considered.

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“…The addition of hydroxyapatite nanorods (HNr) improves the mechanical properties and Gels 2023, 9, 367 2 of 18 morphological characteristics of PVA/PVP hydrogels. Soher N. Jayash et al prepared novel hybrid hydrogels based on chitosan and silica using the sol-gel technique [8]. Such hydrogel systems exhibited improved degradation and mechanical properties, no significant cytotoxic effects, and high loading efficiencies.…”

Section: Introductionmentioning

confidence: 99%

Lecithin as an Effective Modifier of the Transport Properties of Variously Crosslinked Hydrogels

Heger

Zinkovska

Trudičová

et al. 2023

Gels

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Transport properties are one of the most crucial assets of hydrogel samples, influencing their main application potential, i.e., as drug carriers. Depending on the type of drug or the application itself, it is very important to be able to control these transport properties in an appropriate manner. This study seeks to modify these properties by adding amphiphiles, specifically lecithin. Through its self-assembly, lecithin modifies the inner structure of the hydrogel, which affects its properties, especially the transport ones. In the proposed paper, these properties are studied mainly using various probes (organic dyes) to effectively simulate drugs in simple release diffusion experiments controlled by UV-Vis spectrophotometry. Scanning electron microscopy was used to help characterize the diffusion systems. The effects of lecithin and its concentrations, as well as the effects of variously charged model drugs, were discussed. Lecithin decreases the values of the diffusion coefficient independently of the dye used and the type of crosslinking. The ability to influence transport properties is better observed in xerogel samples. The results, complementing previously published conclusions, showed that lecithin can alter a hydrogel’s structure and therefore its transport properties.

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Novel Chitosan-Silica Hybrid Hydrogels for Cell Encapsulation and Drug Delivery

Cited by 20 publications

References 105 publications

Advancements in hydrogel-based drug delivery systems for the treatment of inflammatory bowel disease: a review

Advancements in hydrogel-based drug delivery systems for the treatment of inflammatory bowel disease: a review

Chitosan-Based Biomaterials: Insights into Chemistry, Properties, Devices, and Their Biomedical Applications

Lecithin as an Effective Modifier of the Transport Properties of Variously Crosslinked Hydrogels

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