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Poly(ε-caprolactone) is commonly used in bone tissue engineering; the bioactivity of this polymer can be further improved through the incorporation of bioactive agents such as hydroxyapatite.
Furthermore, biomaterial injection provides an opportunity to concurrently introduce cellular components and depots of bioactive agents.
Together, these results have implications for the controlled delivery of bioactive agents from silk-elastinlike hydrogels.
Silk-elastinlike protein polymers (SELPs) have been fabricated as matrices for controlled delivery of bioactive agents.
The results obtained suggested that the biocomposites are potential systems that can be tailored for controlled delivery of bioactive agents.
Our study confirms that the targeted delivery of bioactive agents results in enhanced efficacy in PCa therapy.
The aim of this research is to develop hydrogel biocomposites that are biodegradable for controlled release of bioactive agents.
Carob pulp kibbles, a by-product of carob been gum production, was studied as a source of bioactive agents.
During the past few decades various nanometric systems have been developed for temporal or spatial delivery of bioactive agents.
Care should therefore be shown when adopting this strategy to enhance release of bioactive agents from biomaterials.
Incorporation of bioactive agents into depot vehicles provides a means to increase their persistence at the disease site.
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