05243nam 22008415 450 991075409750332120240123221207.0981-9965-64-010.1007/978-981-99-6564-9(CKB)28550565900041(MiAaPQ)EBC30825242(Au-PeEL)EBL30825242(DE-He213)978-981-99-6564-9(PPN)272915475(EXLCZ)992855056590004120231024d2023 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAdvanced Drug Delivery[electronic resource] Methods and Applications /edited by Tuhin Subhra Santra, Ashwini Uma Surendra Shinde1st ed. 2023.Singapore :Springer Nature Singapore :Imprint: Springer,2023.1 online resource (368 pages)Studies in Mechanobiology, Tissue Engineering and Biomaterials,1868-2014 ;269789819965632 Includes bibliographical references.Chapter 1. Biological methods -- Chapter 2. Liposomal based drug delivery system -- Chapter 3. Hydrogel-based drug delivery strategies -- Chapter 4. Monoclonal antibodies -- Chapter 5. Electroporation -- Chapter 6. Photoporation -- Chapter 7. Mechanoporation -- Chapter 8. Magnetoporation -- Chapter 9. Microinjection -- Chapter 10. Jet injection -- Chapter 11. Sonoporation -- Chapter 12. Device based drug delivery techniques – microfluidics Chapter 13. Nanoparticles drug delivery systems -- Chapter 14. BioMaterials -- Chapter 15. Implanted drug delivery systems -- Chapter 16. Transdermal drug delivery systems -- Chapter 17. Subcutaneous drug delivery systems -- Chapter 18. Nasopulmonary drug delivery systems -- Chapter 19. Mucosal drug delivery systems -- Chapter 20. Intrauterine drug delivery systems -- Chapter 21. Gastro retentive drug delivery systems -- Chapter 22. Endoscopic assisted drug delivery -- Chapter 23. Theranostics.This book provides an overview of various drug delivery systems at the cellular level including biological, chemical methods, and most importantly physical methods such as photoporation, electroporation, mechanoporation, and device-based techniques (e.g., microfluidics), as well as organism-level techniques including nanomaterials, biomaterials, and transdermal. Drug delivery (DD) can be defined as the method and route by which an active pharmaceutical ingredient (API) is administered to promote its desired pharmacological effect and/or convenience and/or to reduce adverse effects. Drug delivery systems are developed to maximize drug efficacy and minimize side effects. As drug delivery technologies improve, the drug becomes safer and more comfortable for patients to use. During the last seven decades, extraordinary progress has been made in drug delivery technologies, such as systems for long-term delivery for months and years, localized delivery, and targeted delivery. The advances, however, will face the next phase considering the future technologies that we need to overcome many physicochemical barriers for new formulation development and biological unknowns for treating various diseases. Thus, various technologies are built at a single-cell level as well as an organism level. This book is useful at the university level for graduate courses or research studies and biotechnology-based companies with research and development on cell-based analysis, diagnosis, or drug screening. This book is also very useful for researchers in drug delivery technologies, which came in frontier research for the past decade.Studies in Mechanobiology, Tissue Engineering and Biomaterials,1868-2014 ;26Drug delivery systemsBiomedical engineeringNanobiotechnologyMicrofluidicsCytologyPharmaceutical chemistryDrug Delivery SystemsNanoparticle Drug Delivery SystemTechnology, PharmaceuticalMicrofluidicsDrug DeliveryBiomedical Engineering and BioengineeringNanobiotechnologyMicrofluidicsCell BiologyPharmaceuticsDrug delivery systems.Biomedical engineering.Nanobiotechnology.Microfluidics.Cytology.Pharmaceutical chemistry.Drug Delivery Systems.Nanoparticle Drug Delivery System.Technology, Pharmaceutical.Microfluidics.Drug Delivery.Biomedical Engineering and Bioengineering.Nanobiotechnology.Microfluidics.Cell Biology.Pharmaceutics.615.6Santra Tuhin SubhraShinde Ashwini Uma SurendraMiAaPQMiAaPQMiAaPQBOOK9910754097503321Advanced Drug Delivery3595700UNINA