01091nam 2200349 450 99104769190033213-0343-3743-4(CKB)4100000008333132(MiAaPQ)EBC5779757(EXLCZ)99410000000833313220190610d2019 uy 0itaurcnu||||||||txtrdacontentcrdamediacrrdacarrierIl terzo libro dei Mottetti a sei voci (Milano, 1598) di Orfeo Vecchi introduzione storico-analitica ed edizione critica /Dario De CiccoBern :Peter Lang,[2019]©20191 online resource (396 pages)3-0343-3093-6 MotetsHistory and criticismMotetsHistory and criticism.782.26De Cicco Dario913632MiAaPQMiAaPQMiAaPQBOOK9910476919003321Il terzo libro dei Mottetti a sei voci (Milano, 1598) di Orfeo Vecchi2046546UNINA07210nam 22004213 450 991087678420332120240707090305.03-527-84558-53-527-84557-7(MiAaPQ)EBC31518226(Au-PeEL)EBL31518226(CKB)32650241000041(EXLCZ)993265024100004120240707d2024 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierNatural Polymers for Biomedical Applications1st ed.Newark :John Wiley & Sons, Incorporated,2024.©2024.1 online resource (218 pages)3-527-35354-2 Cover -- Title Page -- Copyright -- Contents -- Graphical Abstract -- Foreword -- Preface -- Acknowledgments -- Section I Historical Review of the Development of Natural Polymers -- References -- Section II Polysaccharides for Biomedical Application -- Chapter 1 Sources, Structures, and Properties of Alginate -- 1.1 Alginate‐Based Hydrogel for Biomedical Application -- 1.1.1 Drug and Cell Delivery -- 1.1.2 Cell and Organoid Culture -- 1.1.3 Tissue Regeneration -- 1.1.4 Other Applications -- 1.2 Alginate‐Based Electrospinning for Biomedical Application -- 1.2.1 Drug Delivery -- 1.2.2 Tissue Regeneration -- 1.3 Alginate‐Based 3D Printing for Biomedical Application -- 1.3.1 Alginate‐Based Bio‐Ink and Printing Strategies Improvement -- 1.3.2 Attempts at Bionic Matrix Ink -- References -- Chapter 2 Sources, Structures, and Properties of Cellulose -- 2.1 Cellulose‐Based Hydrogel for Biomedical Application -- 2.1.1 Drug Delivery -- 2.1.2 Cell and Organoid Culture -- 2.1.3 Tissue Regeneration -- 2.2 Cellulose‐Based Electrospinning for Biomedical Application -- 2.2.1 Drug Delivery -- 2.2.2 Antibacterial -- 2.2.3 Tissue Regeneration -- 2.3 Cellulose‐Based 3D Printing for Biomedical Application -- 2.3.1 Improvement of Bio‐Ink -- 2.3.2 Bacteria and Cell Culture -- References -- Chapter 3 Sources, Structures, and Properties of Hyaluronic Acid -- 3.1 Hyaluronic‐Acid‐Based Hydrogel for Biomedical Application -- 3.1.1 Cell and Organoids Culture -- 3.1.2 Cell Behaviors Regulation -- 3.1.3 Drug Delivery -- 3.1.4 Tissue Regeneration -- 3.2 Hyaluronic‐Acid‐Based Electrospinning for Biomedical Application -- 3.2.1 Drug Delivery and Antibacterial -- 3.2.2 Tissue Regeneration -- 3.3 Hyaluronic‐Acid‐Based 3D Printing for Biomedical Application -- 3.3.1 Cell and Organoid Culture -- 3.3.2 Tissue Regeneration -- References.Chapter 4 Sources, Structures, and Properties of Chitosan -- 4.1 Chitosan‐Based Hydrogel for Biomedical Application -- 4.1.1 Cell and Organoid Culture -- 4.1.2 Tissue Regeneration -- 4.2 Chitosan‐Based Electrospinning for Biomedical Application -- 4.2.1 Drug and Cell Delivery -- 4.2.2 Tissue Regeneration -- 4.3 Chitosan‐Based 3D Printing for Biomedical Application -- 4.3.1 Cell Behavior Regulation -- 4.3.2 Drug Delivery -- 4.3.3 Tissue Regeneration -- References -- Chapter 5 Sources, Structures, and Properties of Other Polysaccharides -- 5.1 Other Polysaccharides‐Based Hydrogel for Biomedical Application -- 5.1.1 Drug Delivery -- 5.1.2 Cell and Organoid Culture -- 5.1.3 Tissue Regeneration -- 5.2 Other Polysaccharides‐Based Electrospinning for Biomedical Application -- 5.2.1 Drug Delivery -- 5.2.2 Tissue Regeneration -- 5.3 Other Polysaccharides 3D Printing for Biomedical Application -- 5.3.1 Drug Delivery -- 5.3.2 Tissue Regeneration -- References -- Chapter 6 Summary -- Section III Polypeptides for Biomedical Application -- Chapter 7 Sources, Structures, and Properties of Collagen -- 7.1 Collagen‐Based Hydrogel for Biomedical Application -- 7.1.1 Drug Delivery -- 7.1.2 Cell and Organoid Culture -- 7.1.3 Cell Behavior Regulation -- 7.1.4 Tissue Regeneration -- 7.2 Collagen‐Based Electrospinning for Biomedical Application -- 7.2.1 Cell and Organoid Culture -- 7.2.2 Tissue Regeneration -- 7.3 Collagen‐Based 3D Printing for Biomedical Application -- 7.3.1 Tissue Regeneration -- References -- Chapter 8 Sources, Structures, and Properties of Gelatin -- 8.1 Gelatin‐Based Hydrogel for Biomedical Application -- 8.1.1 Cell Culture and Behavior Regulation -- 8.1.2 Drug Delivery -- 8.1.3 Tissue Regeneration -- 8.2 Gelatin‐Based Electrospinning for Biomedical Application -- 8.2.1 Cell Culture -- 8.2.2 Tissue Regeneration.8.3 Gelatin‐Based 3D Printing for Biomedical Application -- 8.3.1 Tissue Regeneration -- References -- Chapter 9 Sources, Structures, and Properties of Silk Fibroin -- 9.1 Silk‐Fibroin‐Based Hydrogel for Biomedical Application -- 9.1.1 Drug Delivery and Cell Culture -- 9.1.2 Tissue Regeneration -- 9.2 Silk‐Fibroin‐Based Electrospinning for Biomedical Application -- 9.2.1 Drug Delivery and Antibacterial -- 9.2.2 Tissue Regeneration -- 9.3 Silk‐Fibroin‐Based 3D Printing for Biomedical Application -- 9.3.1 Tissue Regeneration -- References -- Chapter 10 Sources, Structures, and Properties of Other Polypeptides -- 10.1 Other Polypeptides‐Based Hydrogel for Biomedical Application -- 10.1.1 Cell Culture and Delivery -- 10.1.2 Tissue Engineering and Drug Delivery -- 10.2 Other Polypeptides‐Based Electrospinning for Biomedical Application -- 10.2.1 Drug Delivery -- 10.2.2 Tissue Regeneration -- 10.3 Other Polypeptides‐Based 3D Printing for Biomedical Application -- 10.3.1 Cell and Organoid Culture -- 10.3.2 Tissue Regeneration -- References -- Chapter 11 Summary -- Section IV Other Kinds of Natural Polymers for Biomedical Application -- Chapter 12 Sources, Structures, and Properties of Catechins -- 12.1 Catechins‐Based Hydrogel for Biomedical Application -- 12.2 Catechins‐Based Electrospinning for Biomedical Application -- 12.3 Catechins-Metal Complexes for Biomedical Application -- References -- Chapter 13 Sources, Structures, and Properties of Quercetin -- 13.1 Quercetin‐Based Hydrogel for Biomedical Application -- 13.2 Quercetin‐Based Electrospinning for Biomedical Application -- 13.3 Quercetin-Metal Complexes for Biomedical Application -- References -- Chapter 14 Sources, Structures, and Properties of Resveratrol -- 14.1 Resveratrol‐Based Hydrogel for Biomedical Application -- 14.2 Resveratrol‐Based Electrospinning for Biomedical Application.14.3 Resveratrol-Metal Complexes for Biomedical Application -- References -- Chapter 15 Sources, Structures, and Properties of Curcumin -- 15.1 Curcumin‐Based Hydrogel for Biomedical Application -- 15.2 Curcumin‐Based Electrospinning for Biomedical Application -- 15.3 Curcumin-Metal Complexes for Biomedical Application -- References -- Chapter 16 Summary -- References -- Chapter 17 Conclusion and Outlook -- References -- Declaration of Competing Interest -- Nomenclature -- Index -- EULA.Cui Wenguo1634246Xiang Lei1761416MiAaPQMiAaPQMiAaPQBOOK9910876784203321Natural Polymers for Biomedical Applications4200853UNINA