Titlebook: Nanocarriers for Controlled Release and Target Delivery of Bioactive Compounds; Shaba Noore,Shivani Pathania,Brijesh K. Tiwari Book 2024 T

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Introduction, numerous compounds such as polyphenols, alkaloids, carotenoids, terpenoids, glucosinolates, steroids, saponins, peptides, flavonoids, lignans, phytosterols, tannins, curcurminoids, quinones, phenolic acids and fatty acids, to name a few. These compounds are naturally found in a variety of sources i

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Protein-Based Nanocarriers,ility of the encapsulated compounds (Abaee et al. 2017; Chen et al. 2006). These nanostructures are prepared by the hydrophobic/hydrophilic interaction of bioactive compounds with the encapsulation matrices. Protein-based nanostructures are responsive to changes in the environment, such as pH change

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Carbohydrate Based Nanocarriers,lysaccharide form, with more than ten monosaccharide groups attached in glycosidic bonds. Cellulose and chitin are considered the most widely available homopolysaccharides, specifically in cell walls in plants and exoskeleton parts of arthropods such as insects, lobsters, crabs, and shellfish. Gener

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Nanoencapsulation of Bioactive Compounds,ino acids (500–5000?Da) linked by peptide bonds. They play various essential roles in the body, including transporting molecules, catalyzing chemical reactions, and responding to stimuli. These molecules are highly susceptible to extreme pH levels and enzymatic degradation, particularly by proteolyt

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Controlled Release and Target Delivery of Nanoencapsulated Compounds,and slow release in sunscreens lotions. The release is generally controlled by the structure of the carrier matrices and Ficks’s diffusion, swelling, erosion, etc., mechanism. For example, if the compound is loaded in the outer shell of the nanocarrier, the release profile is rapid such as in the ca

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Future Challenges and Conclusions,trated by scientists in the food, nutraceutical, and pharmaceutical fields. Consequently, this growing interest has ushered in fresh opportunities for the application of nanostructures in the creation of advanced future products within these industries. The adoption of nanostructures for encapsulati

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2197-571X ency plus control release.Provides data on nanocarriers and .This brief provides a comprehensive overview of nanocarriers used for nanoencapsulation of bioactive compounds. It includes the basis of encapsulation mechanism, encapsulation efficiency, controlled release, target delivery, and its applic