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This book focuses on the design of polymeric delivery systems for biomedical and nanomedicine applications as well as on understanding how such biomaterials interact in the physiological environment. The reader will find an encompassing view on the state-of-the-art of polymeric carriers, showing how current research deals with new stimuli-responsive systems for cancer therapies and biomedical challenges, namely overcoming the skin barrier. The published papers cover topics ranging from novel production methods and insights on hybrid polymers to applications as diverse as nanoparticles, hydrogels and microneedles for antifungal skin therapy, peptide and siRNA delivery, enhanced skin absorption of bioactive molecules, and anticancer therapy. The book comprises one review paper and nine research papers.

Technology: general issues --- osteoarthritis --- monosodium iodoacetate --- p47phox --- PLGA nanoparticles --- reactive oxygen species --- full factorial design --- optimization --- metronidazole --- nanocomposites --- sodium alginate --- chitosan --- PLGA --- hybrid polymers --- chitosan-PLGA polymer --- NMR --- DSC --- FT-IR --- covalent drug conjugation --- therapeutic nanodevice --- polymeric nanoparticles --- cancer therapy --- controlled drug delivery --- redox responsive PEG-block-PLA --- nanocarriers --- disulfide bond --- controlled release --- retinol --- nanosponge --- hydrogel --- Box–Behnken design --- pharmacokinetic --- terbinafine hydrogel --- niacinamide --- polyethene glycol (PEG) 400 --- solvent --- dermal delivery --- finite dose --- porcine skin --- dissolving microneedles --- multiple sclerosis --- PLP --- transdermal delivery --- tyrosol --- nanoparticles --- Design of Experiment (DoE) --- β cyclodextrin --- DNA binding --- glyconanoparticles --- immunotherapy --- infectious diseases --- mannose receptors --- nutraceuticals --- n/a --- Box-Behnken design

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This book focuses on the design of polymeric delivery systems for biomedical and nanomedicine applications as well as on understanding how such biomaterials interact in the physiological environment. The reader will find an encompassing view on the state-of-the-art of polymeric carriers, showing how current research deals with new stimuli-responsive systems for cancer therapies and biomedical challenges, namely overcoming the skin barrier. The published papers cover topics ranging from novel production methods and insights on hybrid polymers to applications as diverse as nanoparticles, hydrogels and microneedles for antifungal skin therapy, peptide and siRNA delivery, enhanced skin absorption of bioactive molecules, and anticancer therapy. The book comprises one review paper and nine research papers.

Technology: general issues --- osteoarthritis --- monosodium iodoacetate --- p47phox --- PLGA nanoparticles --- reactive oxygen species --- full factorial design --- optimization --- metronidazole --- nanocomposites --- sodium alginate --- chitosan --- PLGA --- hybrid polymers --- chitosan-PLGA polymer --- NMR --- DSC --- FT-IR --- covalent drug conjugation --- therapeutic nanodevice --- polymeric nanoparticles --- cancer therapy --- controlled drug delivery --- redox responsive PEG-block-PLA --- nanocarriers --- disulfide bond --- controlled release --- retinol --- nanosponge --- hydrogel --- Box-Behnken design --- pharmacokinetic --- terbinafine hydrogel --- niacinamide --- polyethene glycol (PEG) 400 --- solvent --- dermal delivery --- finite dose --- porcine skin --- dissolving microneedles --- multiple sclerosis --- PLP --- transdermal delivery --- tyrosol --- nanoparticles --- Design of Experiment (DoE) --- β cyclodextrin --- DNA binding --- glyconanoparticles --- immunotherapy --- infectious diseases --- mannose receptors --- nutraceuticals

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Recently, a revolution in nanotechnology has pervaded all fields related to animal science. This book collection focuses on the potential applications of nanotechnology in the field of animal science, particularly livestock production and medication. The studies/reviews published in this book show the preparation protocols and physiochemical and biological properties of the innovated nanoparticles, designated for different purposes. This is in line with the potential hazards of these materials. The book collection shows that nanoparticles and nanoparticle-based systems can be developed to serve different purposes in the field of animal production and veterinary, such as the management of reproduction and assisted reproductive techniques, rapid and robust disease diagnosis and treatment, drug delivery, and animal nutrition.

Technology: general issues --- artificial-insemination --- GnRH --- nanotechnology --- ovulation --- rabbit --- endometritis --- cell receptors --- signaling pathways --- PAMP --- biomolecules --- cytokines --- nanotherapy --- dairy cow --- nanosystem --- biofilm --- mastitis pathogens --- bovine mastitis --- silver nanoparticles --- copper nanoparticles --- silver-copper complex --- nanominerals --- manufacturing --- bioavailability --- hazards --- health --- livestock --- nano-delivery system --- reproductive management --- bio stimulation --- nutrition --- hormones --- antibiotics --- reproductive diseases --- biotechnology --- toxicity --- aquaculture --- poultry --- antibacterial --- antibiotic --- mechanisms --- reactive oxygen species --- zinc oxide nanoparticles --- zeolite --- nano-zeolite --- in vitro gas production --- digestibility --- goat --- methane emission --- clay minerals --- Spirulina maxima pectin --- nanoparticles --- porcine --- embryos --- development --- prolactin --- sodium alginate --- egg production --- qPCR --- chickens --- Staphylococcus pseudintermedius --- wound infection --- antimicrobial resistance --- alternative antimicrobial agent --- scar reduction --- Salmonella --- antimicrobial agents --- virulence genes --- resistance genes --- expression --- antioxidant --- cell internalization --- chitosan nanoparticles --- everted intestine --- lipoic acid --- Moringa --- encapsulation --- reproduction --- milk --- fatty acid --- immunoglobulins --- nanodelivery system --- GPG --- estrous synchronization --- blood flow --- ovary

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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.

alginate gelispheres --- textural analysis --- crosslinked matrices --- PLGA discs --- prolonged release --- powder flow properties --- microfluidics --- coculture --- HER2 --- polystyrene µPs --- biofunctionalization --- coaxial electrospraying --- polymeric nanoparticles --- spreading angle --- process-property-performance relationship --- nanoemulsion --- mixture design --- aqueous humor --- antimicrobial activity --- sustained release pellets --- double coating layer --- loxoprofen --- citric acid --- pharmacokinetic studies --- biomimetic magnetite --- drug delivery --- magnetic hyperthermia --- magnetite --- MamC --- nanoparticles stability --- pharmaceutical particulates --- membranes --- drug delivery systems --- bio-imaging --- bioactive molecules --- composite --- N-hydroxyphthalimide --- carbon dots --- polymer gels --- antitumoral activity --- wound dressing --- polymeric membrane --- nanoparticles --- curcumin --- alginate --- pluronic F68 --- drug skin permeation --- Franz cells --- tape stripping --- wound infection --- biofilm --- pseudomonas aeruginosa --- antimicrobial delivery --- polyvinylpyrrolidone --- nanofibers --- red blood cells membrane --- arsenic trioxide --- sodium alginate nanoparticles --- reduce toxicity --- anti-tumor --- pediatric drug delivery --- tuberculosis --- reconstitutable dry suspension --- isoniazid --- polymer-lipid --- microparticulate --- direct emulsification --- n/a

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The present Special Issue brings together recent research findings from renowned scientists in the field of water treatment and assembled contributions on advanced technologies applied to the treatment of wastewater and drinking water, with emphasis on novel membrane treatment technologies. 12 research contributions have highlighted various processes and technologies, which can achieve effective treatment and purification of wastewater and of drinking water, aiming (occasionally) for water reuse. The main topics which are analyzed are the use of novel type membranes in bioreactors, the use of modified membranes, for example using vacuum membrane distillation, the fouling of membranes, the problem of arsenic, antimony and chromium contamination in groundwaters and its removal and the use of novel technologies for more efficient ozonation.

hollow fiber membranes --- modeling --- small sized powdered ferric hydroxide --- ceramic membranes --- multiphase --- antimony treatment --- winery effluents --- fouling --- municipal wastewater sludge --- particle size distribution --- ultrafiltration --- coagulation --- HA–BSA mixtures --- Sb(III) --- water treatment --- chromate --- separation --- backwash duration --- water crisis --- adsorption --- dewatering --- hexavalent chromium --- arsenic adsorption --- polydimethylsiloxane --- vacuum membrane distillation --- co-treatment --- desalination --- arsenic --- mass transfer --- produced water treatment --- membranes --- process control --- membrane resistance --- granular ferric hydroxide --- ozonation --- Membrane Bioreactor --- hollow fibre --- crossflow membrane filtration --- microfiltration --- membrane filtration --- xDLVO theory --- Fe-based coagulants --- wastewater treatment --- cake resistance --- Sb(V) --- peroxone --- temperature --- drinking water --- trickling biofilter --- natural organic matter (NOM) --- antimony --- second cheese whey --- sodium alginate --- optical sensors --- bioethanol recovery --- membrane fouling --- interaction energy --- TMP --- adsorption kinetics --- water matrix --- multivariate statistics --- polluted waters --- natural organic matter --- operation --- solution conditions --- biofilm membrane bioreactor