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Liposomes --- Liposomes, Ultra-deformable --- Niosomes --- Transferosomes --- Ultradeformable Liposomes --- Liposome --- Liposome, Ultra-deformable --- Liposome, Ultradeformable --- Liposomes, Ultra deformable --- Liposomes, Ultradeformable --- Niosome --- Transferosome --- Ultra-deformable Liposome --- Ultra-deformable Liposomes --- Ultradeformable Liposome --- Phospholipid vesicles --- Lipid Bilayers --- Bilayer lipid membranes --- Cytoplasm --- Phospholipids --- Biochemistry --- Biology --- Biophysics --- Chemistry. --- Cytology, Cell Biology. --- Physical Chemistry --- Life Sciences. --- Chemistry --- Health Sciences --- Life Sciences --- Pharmacy and Pharmacology --- Cytology, Cell Biology --- Liposomes.
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Liposomes. --- Liposomes, Ultra-deformable --- Niosomes --- Transferosomes --- Ultradeformable Liposomes --- Liposome --- Liposome, Ultra-deformable --- Liposome, Ultradeformable --- Liposomes, Ultra deformable --- Liposomes, Ultradeformable --- Niosome --- Transferosome --- Ultra-deformable Liposome --- Ultra-deformable Liposomes --- Ultradeformable Liposome --- Lipid Bilayers --- Liposomes --- Liposomen --- Phospholipid vesicles --- Bilayer lipid membranes --- Cytoplasm --- Phospholipids --- Handbooks, manuals, etc --- Handbooks, manuals, etc. --- Liposomes - Handbooks, manuals, etc
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The Special Issue “Nanostructured Materials Based on Noble Metals for Advanced Biological Applications” highlights the recent progress in gold and silver nanomaterials preparation/synthesis as well as their innovative applications in advanced applications, such as in nanomedicine and nanosensors. It is nowadays generally accepted that nanostructured noble metals allow the production of highly competitive materials. In fact, a specific design and rather simple and reliable preparation techniques can be used to obtain optimized material uses and possibilities for their reusability. One expects amazing future developments for these nanotechnologies from research laboratories to key industrial areas. The Guest Editor and the MDPI staff are therefore pleased to offer this Special Issue to interested readers, including researchers, graduate and PhD students as well as postdoctoral researchers, but also to the entire community interested in the wide world of nanomaterials.
gold --- nanostructure --- EDTA tetrasodium salt --- photothermal therapy --- silver nanoparticles --- biomedical applications --- biological interactions --- biofunctional performances --- intrinsic anti-inflammatory activity --- antimicrobial efficiency --- localized surface plasmon resonance --- dip-coating --- capillary force --- exosome --- gold nanoparticles --- copper(I) complexes --- conjugates --- drug delivery --- anticancer compounds --- niosomes --- liposomes --- plasmonic materials --- nanocarriers --- Hg2+ sensors --- heavy metal sensing --- plasmonic sensors --- optical sensors --- ecosafety --- nanoparticles --- interactions --- protein corona --- nanomedicine --- biomolecules --- nanomaterials --- noble metal nanoparticles --- gold nanomaterials --- silver nanomaterials --- hybrid metal–polymer nanoparticles --- biotechnological applications --- nanomaterials for drug delivery --- nanomaterials for sensing
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Nanovesicles are highly-promising systems for the delivery and/or targeting of drugs, biomolecules and contrast agents. Despite the fact that initial studies in this area were performed on phospholipid vesicles, there is an ever-increasing interest in the use of other molecules to obtain smart vesicular carriers focusing on strategies for targeted delivery. These systems can be obtained using newly synthesized smart molecules, or by intelligent design of opportune carriers to achieve specific delivery to the site of action.
n/a --- protein corona --- buspirone --- drug delivery --- Plectranthus ecklonii --- antiproliferative activity --- pancreatic ductal adenocarcinoma --- tetraethyl orthosilicate --- cancer therapy --- nanoparticles --- cationic liposomes --- Ibuprofen --- SBA-15 --- gastrointestinal stability --- mesoporous silica nanoparticles --- Parvifloron D --- anti-tumor drugs --- liposomes --- gingiva mesenchymal stromal cells --- soy lecithin liposomes --- MCM-41 --- lipophilic compound --- multifunctional liposomes --- caryophyllene sesquiterpene --- drug loading --- lamellarity --- hCMEC/D3 cells --- gold shell --- magnetic/plasmonic nanoparticles --- pH-sensitive niosomes --- hot flushes --- nasal delivery system --- andrographolide --- brain delivery --- pancreatic cancer --- Pain --- exosomes --- NSAIDs --- freeze-drying --- manganese ferrite --- surfactant --- cytotoxicity --- paclitaxel --- ovariectomized rat --- PAMPA --- uptake and safety --- nanovesicular nasal carrier --- Stober’s synthesis --- Analgesia --- protocells --- nanocochleates --- squamous cell carcinoma --- Stober's synthesis
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The Special Issue “Nanostructured Materials Based on Noble Metals for Advanced Biological Applications” highlights the recent progress in gold and silver nanomaterials preparation/synthesis as well as their innovative applications in advanced applications, such as in nanomedicine and nanosensors. It is nowadays generally accepted that nanostructured noble metals allow the production of highly competitive materials. In fact, a specific design and rather simple and reliable preparation techniques can be used to obtain optimized material uses and possibilities for their reusability. One expects amazing future developments for these nanotechnologies from research laboratories to key industrial areas. The Guest Editor and the MDPI staff are therefore pleased to offer this Special Issue to interested readers, including researchers, graduate and PhD students as well as postdoctoral researchers, but also to the entire community interested in the wide world of nanomaterials.
Technology: general issues --- gold --- nanostructure --- EDTA tetrasodium salt --- photothermal therapy --- silver nanoparticles --- biomedical applications --- biological interactions --- biofunctional performances --- intrinsic anti-inflammatory activity --- antimicrobial efficiency --- localized surface plasmon resonance --- dip-coating --- capillary force --- exosome --- gold nanoparticles --- copper(I) complexes --- conjugates --- drug delivery --- anticancer compounds --- niosomes --- liposomes --- plasmonic materials --- nanocarriers --- Hg2+ sensors --- heavy metal sensing --- plasmonic sensors --- optical sensors --- ecosafety --- nanoparticles --- interactions --- protein corona --- nanomedicine --- biomolecules --- nanomaterials --- noble metal nanoparticles --- gold nanomaterials --- silver nanomaterials --- hybrid metal–polymer nanoparticles --- biotechnological applications --- nanomaterials for drug delivery --- nanomaterials for sensing
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The Special Issue “Nanostructured Materials Based on Noble Metals for Advanced Biological Applications” highlights the recent progress in gold and silver nanomaterials preparation/synthesis as well as their innovative applications in advanced applications, such as in nanomedicine and nanosensors. It is nowadays generally accepted that nanostructured noble metals allow the production of highly competitive materials. In fact, a specific design and rather simple and reliable preparation techniques can be used to obtain optimized material uses and possibilities for their reusability. One expects amazing future developments for these nanotechnologies from research laboratories to key industrial areas. The Guest Editor and the MDPI staff are therefore pleased to offer this Special Issue to interested readers, including researchers, graduate and PhD students as well as postdoctoral researchers, but also to the entire community interested in the wide world of nanomaterials.
Technology: general issues --- gold --- nanostructure --- EDTA tetrasodium salt --- photothermal therapy --- silver nanoparticles --- biomedical applications --- biological interactions --- biofunctional performances --- intrinsic anti-inflammatory activity --- antimicrobial efficiency --- localized surface plasmon resonance --- dip-coating --- capillary force --- exosome --- gold nanoparticles --- copper(I) complexes --- conjugates --- drug delivery --- anticancer compounds --- niosomes --- liposomes --- plasmonic materials --- nanocarriers --- Hg2+ sensors --- heavy metal sensing --- plasmonic sensors --- optical sensors --- ecosafety --- nanoparticles --- interactions --- protein corona --- nanomedicine --- biomolecules --- nanomaterials --- noble metal nanoparticles --- gold nanomaterials --- silver nanomaterials --- hybrid metal–polymer nanoparticles --- biotechnological applications --- nanomaterials for drug delivery --- nanomaterials for sensing --- gold --- nanostructure --- EDTA tetrasodium salt --- photothermal therapy --- silver nanoparticles --- biomedical applications --- biological interactions --- biofunctional performances --- intrinsic anti-inflammatory activity --- antimicrobial efficiency --- localized surface plasmon resonance --- dip-coating --- capillary force --- exosome --- gold nanoparticles --- copper(I) complexes --- conjugates --- drug delivery --- anticancer compounds --- niosomes --- liposomes --- plasmonic materials --- nanocarriers --- Hg2+ sensors --- heavy metal sensing --- plasmonic sensors --- optical sensors --- ecosafety --- nanoparticles --- interactions --- protein corona --- nanomedicine --- biomolecules --- nanomaterials --- noble metal nanoparticles --- gold nanomaterials --- silver nanomaterials --- hybrid metal–polymer nanoparticles --- biotechnological applications --- nanomaterials for drug delivery --- nanomaterials for sensing
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Phages have shown a high biotechnological potential with numerous applications. The advent of high-resolution microscopy techniques aligned with omic and molecular tools have revealed innovative phage features and enabled new processes that can be further exploited for biotechnological applications in a wide variety of fields. The high-quality original articles and reviews presented in this Special Issue demonstrate the incredible potential of phages and their derived proteins in a wide range of biotechnological applications for human benefit. Considering the emergence of amazing new available bioengineering tools and the high abundance of phages and the multitude of phage proteins yet to be discovered and studied, we believe that the upcoming years will present us with many more fascinating and new previously unimagined phage-based biotechnological applications.
toxicity --- encapsulation --- n/a --- cancerous tumors --- bacteriophage-derived lytic enzyme --- native gel electrophoresis --- bacteriophages --- Cpl-1 --- O-antigen --- ESKAPE --- Clostridium perfringens --- X-ray crystallography --- macromolecular interactions --- safety --- biofilm --- major coat protein --- Streptococcus agalactiae --- Staphylococcus aureus --- tail sheath protein --- magnetic separation --- serotyping --- pathogenic viruses --- liposomes --- tuberculosis --- Listeria monocytogenes --- nanotubular structures --- alpha-sheet --- biosensors --- sarcoidosis --- tailspike proteins --- M13 bacteriophage --- Streptococcus pneumoniae --- gene expression regulation --- bacteriophage recombination --- self-assembly --- phage therapy --- R-type pyocin --- contractile injection systems --- bacteriophage vB_EcoM_FV3 --- microtiter plate assay --- Enterococcus faecalis --- culture enrichment --- drug delivery vehicles --- neurodegenerative disease --- landscape phage --- niosomes --- bacteriophage --- Myoviridae --- bacteriophage evolution --- porous structure --- phage-host interaction --- phage display --- immune response --- antibiotic resistance --- Pseudomonas aeruginosa --- phage --- bacteriocin --- Appelmans --- fluorescence sensor --- molecular probe --- nanomedicine --- Shigella flexneri --- reporter phage --- filters --- in vitro activity --- capsid dynamics --- immunoscreening --- diagnostics --- microarray --- receptor-binding protein --- endolysin --- enzybiotics --- transfersomes --- T7phage library --- Pal
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Drug carriers (Pharmacy) --- Excipients --- Pharmaceutical Preparations. --- Liposomes. --- Macromolecular Substances. --- Pharmaceutical Vehicles. --- -Drug targeting --- -Drugs --- -Liposomes --- -Phospholipid vesicles --- Bilayer lipid membranes --- Cytoplasm --- Phospholipids --- Medicaments --- Medications --- Medicine (Drugs) --- Medicines (Drugs) --- Pharmaceuticals --- Prescription drugs --- Bioactive compounds --- Medical supplies --- Pharmacopoeias --- Chemotherapy --- Materia medica --- Pharmacology --- Pharmacy --- Drugs --- Site-specific drug delivery --- Targeting of drugs --- Target organs (Anatomy) --- Carriers, Drug (Pharmacy) --- Drug carrier systems (Pharmacy) --- Drug vehicles (Pharmacy) --- Vehicles, Drug (Pharmacy) --- Drug delivery systems --- Pharmaceutical Vehicle --- Vehicle, Pharmaceutical --- Vehicles, Pharmaceutical --- Macromolecular Complexes --- Macromolecular Compounds --- Macromolecular Compounds and Complexes --- Complexes, Macromolecular --- Compounds, Macromolecular --- Substances, Macromolecular --- Nanostructures --- Liposomes, Ultra-deformable --- Niosomes --- Transferosomes --- Ultradeformable Liposomes --- Liposome --- Liposome, Ultra-deformable --- Liposome, Ultradeformable --- Liposomes, Ultra deformable --- Liposomes, Ultradeformable --- Niosome --- Transferosome --- Ultra-deformable Liposome --- Ultra-deformable Liposomes --- Ultradeformable Liposome --- Lipid Bilayers --- Pharmaceutic Preparations --- Pharmaceutical Products --- Preparations, Pharmaceutical --- Preparations, Pharmaceutic --- Products, Pharmaceutical --- Drug Dosage Calculations --- Congresses --- Effectivness --- -Congresses --- Targeting --- Dosage forms --- Carriers --- Vehicles --- Drug targeting --- Liposomes --- Macromolecular Substances --- Pharmaceutical Preparations --- Pharmaceutical Vehicles --- Phospholipid vesicles --- Effectiveness&delete& --- Drug --- Pharmaceutical --- Pharmaceutical Preparation --- Pharmaceutical Product --- Preparation, Pharmaceutical --- Product, Pharmaceutical --- Effectiveness --- Cells. --- Cells --- Particles --- Pharmaceutical preparations --- Polymers
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Liposomes are cellular structures made up of lipid molecules. Important as a cellular model in the study of basic biology, liposomes are also used in clinical applications such as drug delivery and virus studies. Liposomes Part D is a continuation of previous MIE Liposome volumes A, B, and C.Contents: Antibody or Ligand Targeted Liposomes; environment sensitive liposomes; liposomal oligonucleotides; liposomes in vivo
Enzymology. --- Liposomes -- Handbooks, manuals, etc. --- Liposomes. --- Animal Biochemistry --- Cytology --- Biology --- Human Anatomy & Physiology --- Health & Biological Sciences --- Liposomes --- Phospholipid vesicles --- Membranes, Artificial --- Drug Carriers --- Biomedical and Dental Materials --- Biomimetic Materials --- Manufactured Materials --- Specialty Uses of Chemicals --- Specialty Chemicals and Products --- Manufactured Material --- Material, Manufactured --- Materials, Manufactured --- Biomimicry Devices --- Biomimicry Materials --- Biomimetic Devices --- Biomimetic Device --- Biomimetic Material --- Biomimicry Device --- Biomimicry Material --- Device, Biomimetic --- Device, Biomimicry --- Devices, Biomimetic --- Devices, Biomimicry --- Material, Biomimetic --- Material, Biomimicry --- Materials, Biomimetic --- Materials, Biomimicry --- Drug Carrier --- Artificial Membranes --- Artificial Membrane --- Membrane, Artificial --- Bilayer lipid membranes --- Cytoplasm --- Phospholipids --- Biochemistry --- Enzymes --- Dosage Forms --- Pharmaceutical Preparations --- Chemicals and Drugs --- Technology, Industry, and Agriculture --- Chemical Actions and Uses --- Technology, Industry, Agriculture --- Pharmaceutic Preparations --- Pharmaceutical Products --- Pharmaceuticals --- Preparations, Pharmaceutical --- Drugs --- Preparations, Pharmaceutic --- Products, Pharmaceutical --- Pharmacology --- Drug Dosage Calculations --- Biocompatible Materials --- Dosage Form --- Form, Dosage --- Forms, Dosage --- Drug Administration Routes --- Drug Delivery Systems --- Liposomes, Ultra-deformable --- Niosomes --- Transferosomes --- Ultradeformable Liposomes --- Liposome --- Liposome, Ultra-deformable --- Liposome, Ultradeformable --- Liposomes, Ultra deformable --- Liposomes, Ultradeformable --- Niosome --- Transferosome --- Ultra-deformable Liposome --- Ultra-deformable Liposomes --- Ultradeformable Liposome --- Lipid Bilayers --- Drug --- Pharmaceutical --- Pharmaceutical Preparation --- Pharmaceutical Product --- Preparation, Pharmaceutical --- Product, Pharmaceutical --- Magnetic Iron Oxide Nanoparticles
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Lipid-based nanosystems, including solid lipid nanoparticles (SLNs) and nanostructured lipid carriers (NLCs), cationic lipid nanoparticles, nanoemulsions, and liposomes, have been extensively studied to improve drug delivery through different administration routes. The main advantages of these systems are their ability to protect, transport, and control the release of lipophilic and hydrophilic molecules (either small-molecular-weight molecules or macromolecules); the use of generally recognized as safe (GRAS) excipients that minimize the toxicity of the formulations; and the possibility to modulate pharmacokinetics and enable the site-specific delivery of encapsulated payloads. In addition, the versatility of lipid-based nanosystems has further been demonstrated for the delivery of vaccines, the protection of active cosmetic ingredients, and the improvement of moisturizing properties of cosmetic formulations.Lipid-based nanosystems are well established and there are already different commercially approved formulations for various human disorders. This success has paved the way for the diversification of the pipeline of development, to address unmet medical needs for several indications, such as cancer, neurological disorders, and autoimmune, genetic, and infectious diseases.This Special Issue aims to update readers on the latest research on lipid-based nanosystems, both at the preclinical and clinical levels. A series of 15 articles (six reviews and nine studies) is presented, with authors from 12 different countries, showing the globality of the investigations that are being carried out in this area.
Technology: general issues --- Echinococcus granulosus --- scolicidal --- nanoliposome --- juglone --- apoptotic activity --- hydrogel --- SLNs --- nose-to-brain delivery --- mucoadhesion --- quality by design --- antioxidant activity --- nasal administration --- nanostructured lipid carriers --- solid lipid nanoparticles --- in vitro cell cultures --- 3D nasal casts --- lung cancer --- targeted drug delivery --- lipid-based nanocarriers --- pulmonary delivery --- dry powder inhalers --- aerosols --- liposomes --- nanoemulsions --- nanotechnology --- biologically active compounds --- dermal drug delivery --- polyphenols --- phytophenols --- skin permeation --- chemotherapy --- radiotherapy --- active targeting --- passive targeting --- tumor --- immunoconjugate --- traditional liposome --- stealth liposome --- triggered release --- limitations of liposomes --- drug transfer --- in vitro release --- colloidal drug carriers --- lipid nanoparticles --- hydrogel beads --- cholesteryl nonanoate --- bovine serum albumin --- skin diseases --- lipid-based nanosystems --- cream --- ointment --- gel --- pH-sensitive --- liposome --- imidazole --- anticancer --- drug delivery --- multicellular spheroids --- dapagliflozin --- Box–Behnken design --- FTIR --- DSC --- XRD --- SEM --- AFM --- in vitro Franz diffusion cells --- lipid-based nanoparticles --- nanocarrier --- surface charge --- delivery systems --- chronic treatment --- mice --- anti-oxidant activity --- hepatoprotective effect --- phospholipid --- phytosomes --- Silymarin --- Colorectal Cancer --- Niosomes --- Oxaliplatin --- Paclitaxel --- d-α-tocopheryl polyethylene glycol 1000 succinate (TPGS) --- therapeutic nucleic acids --- schizophrenia --- quetiapine fumarate --- glycerosomes --- central composite rotatable design --- bioavailability --- pharmacokinetic --- n/a --- Box-Behnken design
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