Novel Platforms for Drug Delivery Applications

Novel Platforms for Drug Delivery Applications

Das, Sangita; Thomas, Sabu; Das, Partha Pratim

Elsevier Science Publishing Co Inc

11/2022

694

Mole

Inglês

9780323913768

15 a 20 dias

1000

Descrição não disponível.
1. Introduction: state of the art, new challenges, and opportunities for drug delivery and its application 2. Drug delivery application: an outlook on past and present technologies 3. General mechanisms of drug loading and sustained release 4. Supramolecular hydrogels as drug delivery systems for nerve regeneration and wound healing 5. Molecularly imprinted polymeric carriers for controlled drug release 6. Engineered extracellular vesicles as drug delivery systems for the next generation of nanomedicine 7. Polyelectrolyte multilayer films for cancer therapy 8. Porous metal9. Stimulus-responsive liposomes as smart nanocarriers for drug delivery applications 10. Hybrid platforms for drug delivery applications 11. Self-nanoemulsifying drug delivery systems with bioavailability potential 12. Graphene-based nanomaterials for targeted drug delivery and tissue engineering 13. Bionanocomposites as a new platform for drug delivery systems 14. Nanotube platforms for effective drug delivery applications 15. Biodegradable polymeric nanoparticle drug for oral delivery applications 16. Delivery of radiopharmaceuticals and theranostic agents: targeted alpha therapy 17. Controlled drug release and drug delivery applications from mesoporous nanoparticles 18. Porous nanostructured metal oxides as potential scaffolds for drug delivery 19. Thin films as an emerging platform for drug delivery 20. Modeling and simulation in drug delivery 21. In-vivo drug release studies 22. Toxicity measurement and toxicity studies of drug delivery 23. Nasal and pulmonary routes of drug delivery 24. "Gene therapy?: ethical and regulatory issues 25. New challenges in drug discovery
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Absorption enhancers; Active ingredients; Antibacterial and therapies of cancer; Bioavailability; Biocompatibility; Bioengineering; Biological drugs; Biological substances; Biopharmaceutical; Biopolymers; Biosensors; Cancer therapy; Cell; Challenges; Chemotherapeutics; Clinical trials; Computational; Cyclodextrin; Development; Drug; Drug delivery; Drug delivery system; Drug development; Drug discovery; Drug release; Drug; EVs; Encapsulation; Enzyme inhibitors; Ex-vivo modification; Exosomes; Gelling systems; Gene delivery; Gene therapy; Gene-editing tools; Germline gene therapy; Graphene oxide; Hybrid platforms; Hydrogels; Immunotherapy; In-vivo modification; Ingestion; LbL technique; Liposomes; MONPs; Materials chemistry; Mathematical modeling; Metal-organic framework; Modeling and simulation; Molecular mechanics calculation; Molecularly imprinted polymers; Multilayer films; Nanocarriers; Nanomedicine; Nanoparticles; Nanotechnology; Nerve regeneration; Oral; Parenteral administration; Petrochemistry; Pharmaceutical chemistry; Pharmaceuticals; Pharmaceutics; Pharmacokinetic; Pharmacokinetics; Pharmacological parameter; Pharmacology discipline; Physiochemical; Polyelectrolytes; Polymeric carriers; Polymeric nanoparticles; Porous; Proteolytic enzymes; Regulatory issues; Self-emulsifying; Solubility; Somatic cell gene therapy; Specific recognition; Stem cell technology; Stimuli-responsive; Stimulus-responsive; Sublingual channels; Surfactants; Sustained release; Synthesis; Targeting; Template molecule; Thin film drug delivery system; Tight junction modulators; Tissue engineering; Vaccines; Wound healing