2020
DOI: 10.3389/fbioe.2020.00665
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Modulating Alginate Hydrogels for Improved Biological Performance as Cellular 3D Microenvironments

Abstract: The rational choice and design of biomaterials for biomedical applications is crucial for successful in vitro and in vivo strategies, ultimately dictating their performance and potential clinical applications. Alginate, a marine-derived polysaccharide obtained from seaweeds, is one of the most widely used polymers in the biomedical field, particularly to build three dimensional (3D) systems for in vitro culture and in vivo delivery of cells. Despite their biocompatibility, alginate hydrogels often require modi… Show more

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Cited by 144 publications
(112 citation statements)
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References 154 publications
(262 reference statements)
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“…The phage therapeutic cargo needs protection from environmental stresses such as the stomach acidic environment and exposure to digestive enzymes en route to the delivery site downstream in the small or large intestine. Biopolymers such as alginate have previously been used in pharmaceutical preparations due to their ease of biodegradability, biocompatibility and their ability to act as a carrier for the therapeutic agents [ 21 ]. Commercially available Eudragit polymers L-55, L100 and S100 have been specifically designed for enteric delivery applications with the aim of protecting therapeutics from gastric acidity and allowing controlled release of therapeutics utilising a pH-dependent trigger mechanism.…”
Section: Discussionmentioning
confidence: 99%
“…The phage therapeutic cargo needs protection from environmental stresses such as the stomach acidic environment and exposure to digestive enzymes en route to the delivery site downstream in the small or large intestine. Biopolymers such as alginate have previously been used in pharmaceutical preparations due to their ease of biodegradability, biocompatibility and their ability to act as a carrier for the therapeutic agents [ 21 ]. Commercially available Eudragit polymers L-55, L100 and S100 have been specifically designed for enteric delivery applications with the aim of protecting therapeutics from gastric acidity and allowing controlled release of therapeutics utilising a pH-dependent trigger mechanism.…”
Section: Discussionmentioning
confidence: 99%
“…The values determined are 30 ± 4, 46 ± 5, and 49 ± 4%, for Alg, Alg-PU 20, and Alg-PU 35, respectively. The carboxylic acid groups involve important crosslinking interactions with calcium (II) ions and intermolecular, generating the hydrogel state [1][2][3][4]. Statistically, significant differences are found when comparing the reticulation value of the Alg hydrogel with the IPN hydrogels.…”
Section: Structural and Physicochemical Characterizationmentioning
confidence: 99%
“…Alginate is a polysaccharide comprised of both guluronic and mannuronic acid units interconnected by ÎČ(1 → 4) glycosidic bonds, this is part of the extracellular matrix of different species of algae [1,2]. Alginate chains have the ability to physically crosslink in the presence of metal ions, such as Ca (II), Mg (II), Ba (II), Zn (II), generating hydrogels with high biocompatibility, they are widely used in the food industry, biomedicine, and tissue engineering [3,4].…”
Section: Introductionmentioning
confidence: 99%
“…The mild gelation conditions with divalent cations such as Ca 2+ or Mg 2+ that enable the simultaneous incorporation of cells, is one of the reasons why alginate has been classically used for biomedical applications such as drug delivery [ 24 ], wound dressings [ 25 ] and tissue engineering [ 26 , 27 ]. This material is also biocompatible, has low toxicity and relatively low cost [ 21 , 28 ]. Ionic crosslinking typically occurs via fast and weakly controlled gelation due to the high solubility of calcium chloride in aqueous solutions.…”
Section: Introductionmentioning
confidence: 99%