Titlebook: Drug Delivery Applications of Starch Biopolymer Derivatives; Jin Chen,Ling Chen,Xiaoxi Li Book 2019 Springer Nature Singapore Pte Ltd. 201

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https://doi.org/10.1007/978-3-662-33817-9 and molecular levels. With a deeper understanding of these physiological bases, further advances have been introduced by DDSs endowed with target-specific and bioadhesive properties to various sites in the body to reduce the side effects and enhance the bioavailability of drugs at the diseased site

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Resorption, Assimilation, innere Sekretion,egradation of starch could be a hurdle in the application of starch in drug delivery systems (DDSs). Therefore, natural starches should be modified by physical, chemical, and enzymatic methods in order to expand the application of starch as drug carriers. Armed with the structural, physicochemical,

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,Die Leistungen der Sinne. II. Hälfte, particles with starch film coatings or in starch matrix. The individual starch-based, stimulus-responsive DDSs have to some extent been reasonably well validated. Furthermore, two or more response elements have been combined to functionalize starch-based DDSs for smart drug release behavior. In thi

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,Die Leistungen der Sinne. II. Hälfte,l properties such as size, charge, shape, molecular mass (.), composition, and chemical properties. Moreover, the addition of inorganic materials may bring cytotoxicity to starch-based DDSs, and its content is vital for its potential cytotoxicity. Thus, much effort is needed to create safer starch-b

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https://doi.org/10.1007/978-3-662-33817-9erstanding of the physiological base is the key step for the success of advanced starch-based DDSs with high performance. For example, various biological stimuli, such as temperature, pH, and hypoxia at the organ, tissue, and cell levels can be exploited to trigger the stimulus-responsive delivery o

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