Nanopharmaceutical Advanced Delivery Systems. Группа авторов
Читать онлайн книгу.7.7 Conclusion References 8 Nanocarriers: A Tool for Effective Gene Delivery List of Abbreviations 8.1 Introduction 8.2 Key Steps in Gene Delivery 8.3 Success and Existing Challenges for Gene Delivery 8.4 In Vitro and In Vivo Barriers Towards Successful Gene Transfer 8.5 Genetic Material That can be Delivered in Gene Therapy 8.6 Role of Nanocarriers in a Nucleic Acid Delivery 8.7 Nanocarriers used for Delivering Gene 8.8 Cellular Uptake of Nanocarriers and Their Fate Inside the Cell 8.9 Physicochemical Properties of Nanoparticles Affecting Their Uptake 8.10 Targeted Delivery of Genes Using Nanocarriers 8.11 Virosomes 8.12 Exosomes 8.13 Diseases Cured by Gene Therapy 8.14 Clinical Trials 8.15 Current Trends and Approved Products 8.16 Concluding Remarks References 9 Phytosomes—Nanoarchitectures’ Promising Clinical Applications and Therapeutics List of Abbreviations 9.1 Introduction 9.2 Structure of Phytosomes 9.3 Components of Phytosomes 9.4 Synthesis of Phytosomes 9.5 Characterization of Phytosomes 9.6 Absorption Mechanism of Phytosomes 9.7 Applications of Phytosomes 9.8 Recent Trends and Advancements in Phytosomal Delivery 9.9 Future Perspectives 9.10 Conclusion References 10 Saponin Stabilized Emulsion as Sustainable Drug Delivery System: Current Status and Future Prospects List of Abbreviations 10.1 Introduction 10.2 Saponins as Surfactant 10.3 Pharmaceutical Advantages 10.4 Conclusion and Future Prospects References 11 Mono and Multi-Stimuli Responsive Polymers: Application as Intelligent Nano-Drug Delivery Systems List of Abbreviations 11.1 Introduction 11.2 Smart or Stimuli-Responsive Polymers for Drug Delivery 11.3 Dual and Multi-Stimuli Responsive Drug Delivery Systems 11.4 Conclusion References 12 An Insight into Nanosomes: Potential Nanopharmaceutical Delivery System List of Abbreviations 12.1 Introduction 12.2 General Methods of Preparation of Nanosomes and Drug Loading 12.3 Trafficking Mechanism in the Body 12.4 Sterilization of Nanosomes 12.5 Evaluation Parameters 12.6 Applications 12.7 Conclusion References 13 Nano-Structures as Bioelectronics for Controlled Drug Delivery List of Abbreviations 13.1 Introduction 13.2 Electroactive Biopolymer 13.3 Electrochemical Desorption From Micro and Nanostructures of Conductive Polymers 13.4 Electrochemical Desorption From Micro and Nano-Composites of Conductive Polymers 13.5 Electrochemical Desorption of Self-Assembled Monolayer From a Gold Surface 13.6 Electrochemically Actuated Release of Biochemicals 13.7 Biochemical Release Controlled by Electrochemical Erosion of Electrolyte Hydrogel and Nanofilm 13.8 Biochemical Release by Electrochemical and Electrothermal Erosion of Metallic Sealing Membranes 13.9 Release of Biochemicals by Fluidic Nano-Pumps and Rotating Nano-Motors Powered by Electric Fields 13.10 Conclusion and Future Aspects References 14