Handbook of polymers for pharmaceutical technologies.
[Book]
edited by Vijay Kumar Thakur and Manju Kumari Thakur.
Volume 4,dollar5Bioactive and compatible synthetic/hybrid polymers /
1 online resource (434 pages)
""7 Bioactive and Compatible Polysaccharides Hydrogels Structure and Properties for Pharmaceutical Applications""
Print version cataloged as a monographic set by the Library of Congress
Includes bibliographical references and index
""Title Page""; ""Copyright Page""; ""Dedication""; ""Contents""; ""Preface""; ""1 Smart Hydrogels: Therapeutic Advancements in Hydrogel Technology for Smart Drug Delivery Applications""; ""1.1 Introduction""; ""1.2 Types and Properties of Smart Polymer Hydrogels""; ""1.2.1 Temperature-Responsive Hydrogels""; ""1.2.2 pH-Sensitive Hydrogels""; ""1.2.3 Glucose-Responsive Hydrogels""; ""1.2.4 Electro-Signal Sensitive Hydrogels""; ""1.2.5 Light-Sensitive Hydrogels""; ""1.2.6 Multi-Responsive Smart Hydrogels""; ""1.3 Applications of Smart Polymer Hydrogels""; ""1.4 Conclusion""; ""References""
""2 Molecularly Imprinted Polymers for Pharmaceutical Applications""""2.1 Introduction""; ""2.2 Fluoroquinolone Antibiotics""; ""2.3 Sulfonamides""; ""2.4 Miscellaneous""; ""2.5 Conclusions and Future Prospects""; ""2.6 Acronyms and Abbreviations""; ""References""; ""3 Polymeric Stabilizers for Drug Nanocrystals""; ""3.1 Introduction""; ""3.2 Methods for Nanocrystallization""; ""3.2.1 Bottom-Up Technologies""; ""3.2.2 Top-Down Technologies""; ""3.2.3 Combination Technologies""; ""3.3 Stabilization Mechanisms of the Nanocrystals""; ""3.4 Polymers for Nanocrystal Stabilization""
""3.4.1 Polymers of Natural Origin""""3.4.2 Synthetic Polymers""; ""3.5 Effect of Stabilizing Polymers on Drug Biocompatibility, Bioactivity, Membrane Permeability and Drug Absorption""; ""3.6 Conclusions and Future Perspective""; ""References""; ""4 Polymeric Matrices for the Controlled Release of Phosphonate Active Agents for Medicinal Applications""; ""4.1 Introduction""; ""4.2 Polymers in Drug Delivery""; ""4.2.1 Polyesters""; ""4.2.1.1 Poly(lactic acid), Poly(glycolic acid), and Their Copolymers""; ""4.2.1.2 Poly(ethylene glycol) Block Copolymers""; ""4.2.1.3 Poly(ortho esters)""
""4.2.1.4 Poly(anhydrides)""""4.2.1.5 Poly(anhydride-imides)""; ""4.2.1.6 Poly(anhydrite esters)""; ""4.2.2 Poly(amides)""; ""4.2.3 Poly(iminocarbonates)""; ""4.3 Release of Phosphonate-Based Drugs""; ""4.4 Conclusions/Perspectives""; ""References""; ""5 Hydrogels for Pharmaceutical Applications""; ""5.1 Introduction""; ""5.2 What are Hydrogels?""; ""5.3 Classification of Hydrogels""; ""5.4 Preparation of Hydrogels""; ""5.5 Characterization of Hydrogels""; ""5.6 Application of Hydrogels""; ""5.6.1 Wound Dressing""; ""5.6.2 Implantable Drug Delivery Systems""
""5.6.3 Tissue Engineering Substitute""""5.6.4 Injectable Hydrogels""; ""5.7 Conclusion""; ""Acknowledgement""; ""References""; ""6 Responsive Plasmid DNA Hydrogels: A New Approach for Biomedical Applications""; ""6.1 Introduction""; ""6.2 DNA-Based Hydrogels""; ""6.3 Controlled and Sustained Release""; ""6.3.1 Photodisruption of Plasmid DNA Networks""; ""6.3.2 Release of Plasmid DNA""; ""6.3.3 Release of Chemotherapeutic Drugs""; ""6.3.4 In Vitro Studies""; ""6.4 Combination of Chemo and Gene Therapies""; ""6.5 Conclusions and Future Perspectives""; ""References""
0
8
8
8
8
Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers.
9781119041467
Bioactive and compatible synthetic/hybrid polymers