Abstract
Hydrophobically modified alginate hydrogels have great potential in drug delivery as they are biologically compatible and cost efficient. While previous works have shown successful protein, and hydrophobic and hydrophilic drug delivery, little information regarding the relationship between crosslinker density and drug release rate is known. This paper investigates the impact of crosslinker density and hydrophobic degree of substitution within modified alginate gels and solutions on the release kinetics using model hydrophobic drug, sulindac. Near zero‐order release was obtained for an extended period of 5 days. Drug release rates decreased as the crosslinker density within both modified alginate hydrogels and solutions increased. Release data fit well to a simplified Fickian relationship, suggesting that the release mechanism is diffusion‐limited. These release characteristics also correlate with bulk rheological measurements, indicating a strong interrelationship between the mechanical properties and the drug release characteristics of the hydrogels.
Published Version
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