05432nam 2201249z- 450 991055714110332120210501(CKB)5400000000040648(oapen)https://directory.doabooks.org/handle/20.500.12854/68657(oapen)doab68657(EXLCZ)99540000000004064820202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPharmaceutical Particulates and Membranes for Delivery of Drugs and Bioactive MoleculesBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (220 p.)3-03936-392-1 3-03936-393-X This book is a collection of papers published in the Special Issue of Pharmaceutics, entitled "Pharmaceutical Particulates and Membranes for Delivery of Drugs and Bioactive Molecules". A drug release profile is a consequential factor for nanoparticle application, directly related to drug stability and therapeutic results, as well as formulation development. Pharmaceutical particulates of different sizes and shapes (e.g., liposomes, oil-in-water emulsions, polymeric nano- and microspheres, metallic nanoparticles (NPs) such as gold, silver and iron oxide crystals, and core-shell hybrid NPs) offer many diagnostic and therapeutic applications. Membranes are also extensively utilized in many applications. They are especially beneficial to the distribution of macromolecular drugs and biopharmaceutical drugs (peptides, proteins, antibodies, oligonucleotides, plasmids, and viruses) with physicochemical and pharmacokinetic vulnerability. The delivery of drugs and bioactive molecules using particulates and membranes has gained a great deal of attention for various applications, such as the treatment of secondary infections, cancer treatment, skin regeneration, orthopaedic applications, and antimicrobial drug delivery. In addition, several production techniques have been utilized for the fabrication of particulates and membranes in the last decade, which include lyophilisation, micro-emulsion, nano-spray dryer, nano-electrospinning, slip casting and 3D printers. Therefore, pharmaceutical particulates and membranes possess excellent prospects to deliver drugs and bioactive molecules with the potential to improve new delivery strategies like sustained and controlled release.Biology, life sciencesbicsscResearch & information: generalbicsscalginatealginate gelispheresanti-tumorantimicrobial activityantimicrobial deliveryantitumoral activityaqueous humorarsenic trioxidebio-imagingbioactive moleculesbiofilmbiofunctionalizationbiomimetic magnetitecarbon dotscitric acidcoaxial electrosprayingcoculturecompositecrosslinked matricescurcumindirect emulsificationdouble coating layerdrug deliverydrug delivery systemsdrug skin permeationFranz cellsHER2isoniazidloxoprofenmagnetic hyperthermiamagnetiteMamCmembranesmicrofluidicsmicroparticulatemixture designN-hydroxyphthalimiden/ananoemulsionnanofibersnanoparticlesnanoparticles stabilitypediatric drug deliverypharmaceutical particulatespharmacokinetic studiesPLGA discspluronic F68polymer gelspolymer-lipidpolymeric membranepolymeric nanoparticlespolystyrene µPspolyvinylpyrrolidonepowder flow propertiesprocess-property-performance relationshipprolonged releasepseudomonas aeruginosareconstitutable dry suspensionred blood cells membranereduce toxicitysodium alginate nanoparticlesspreading anglesustained release pelletstape strippingtextural analysistuberculosiswound dressingwound infectionBiology, life sciencesResearch & information: generalDas Diganta Bedt1207411Arthanareeswaran GedtMabrouk MostafaedtBeherei Hanan HedtDas Diganta BothArthanareeswaran GothMabrouk MostafaothBeherei Hanan HothBOOK9910557141103321Pharmaceutical Particulates and Membranes for Delivery of Drugs and Bioactive Molecules3034923UNINA