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Publication DateFrontiers in Immunology, 10/2018, Volume 9
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Loading RightsJournal of Pharmaceutical Investigation, ISSN 2093-5552, 05/2018, Volume 48, Issue 3, pp. 381 - 391
Tri-block poly(lactide)–poly(ethylene glycol)– poly(lactide) (PLA–PEG–PLA) copolymers were synthesized and self-assembled into micelles in aqueous solution by...
PLA–PEG–PLA | Atorvastatin | Lisinopril | Hydrophobic drugs | Micelles | Hydrophilic drugs
PLA–PEG–PLA | Atorvastatin | Lisinopril | Hydrophobic drugs | Micelles | Hydrophilic drugs
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Loading RightsEuropean Journal of Pharmaceutics and Biopharmaceutics, ISSN 0939-6411, 01/2018, Volume 122, pp. 54 - 61
Previous studies proved the effectiveness of an intravenous PEGylated liposomal formulation of opiorphin (1 mg/mL) in protecting the drug from enzymatic...
Ex vivo permeation | PEGylated liposomes | In situ nasal delivery | Mucoadhesion | Opiorphin | Thermosensitive hydrogel | DESIGN | HYDROGELS | DRUG-DELIVERY | TOLERANCE | FORMULATION | PEPTIDE | POLOXAMER | TEMPERATURE | PLA-PEG PARTICLES | PHARMACOLOGY & PHARMACY | OPTIMIZATION | Peptides | Enzymes | Permeability
Ex vivo permeation | PEGylated liposomes | In situ nasal delivery | Mucoadhesion | Opiorphin | Thermosensitive hydrogel | DESIGN | HYDROGELS | DRUG-DELIVERY | TOLERANCE | FORMULATION | PEPTIDE | POLOXAMER | TEMPERATURE | PLA-PEG PARTICLES | PHARMACOLOGY & PHARMACY | OPTIMIZATION | Peptides | Enzymes | Permeability
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Loading RightsLangmuir, ISSN 0743-7463, 02/2015, Volume 31, Issue 4, pp. 1527 - 1536
Poly(ethylene glycol)-b-poly(l-lactic acid)-b-poly(d-lactic acid) (PEG-b-PLLA-b-PDLA) stereoblock copolymers were synthesized by sequential ring-opening...
PLA-PEG NANOPARTICLES | REACTIVE POLYMERIC MICELLE | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | STEREOCOMPLEX FORMATION | CHEMISTRY, MULTIDISCIPLINARY | AQUEOUS-SOLUTION | DELIVERY | MICELLIZATION | DIBLOCK | DEGRADATION | MICROGELS | SCATTERING | Polyesters - chemistry | Macromolecular Substances - chemistry | Proton Magnetic Resonance Spectroscopy | Micelles | Calorimetry, Differential Scanning | Polyethylene Glycols - chemistry | Molecular Structure | Scattering, Radiation
PLA-PEG NANOPARTICLES | REACTIVE POLYMERIC MICELLE | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | STEREOCOMPLEX FORMATION | CHEMISTRY, MULTIDISCIPLINARY | AQUEOUS-SOLUTION | DELIVERY | MICELLIZATION | DIBLOCK | DEGRADATION | MICROGELS | SCATTERING | Polyesters - chemistry | Macromolecular Substances - chemistry | Proton Magnetic Resonance Spectroscopy | Micelles | Calorimetry, Differential Scanning | Polyethylene Glycols - chemistry | Molecular Structure | Scattering, Radiation
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Loading RightsBiomacromolecules, ISSN 1525-7797, 11/2016, Volume 17, Issue 11, pp. 3441 - 3463
Stimuli responsive hydrogels (SRHs) are attractive bioscaffolds for tissue engineering. The structural similarity of SRHs to the extracellular matrix (ECM) of...
CATIONIC COPOLYMER HYDROGELS | POLYMER SCIENCE | INJECTABLE SUPRAMOLECULAR HYDROGELS | DRUG-DELIVERY | BIOCHEMISTRY & MOLECULAR BIOLOGY | HYALURONIC-ACID HYDROGELS | CHEMISTRY, ORGANIC | PLA-PEG-PLA | MESENCHYMAL STEM-CELLS | KERATIN-BASED BIOMATERIALS | SITU-FORMING HYDROGELS | HUMAN HAIR KERATIN | ARTICULAR-CARTILAGE | Cartilage - growth & development | Biocompatible Materials - chemistry | Extracellular Matrix - drug effects | Humans | Cartilage - drug effects | Tissue Scaffolds - chemistry | Polymers - therapeutic use | Regeneration - drug effects | Nanostructures - chemistry | Polymers - chemistry | Biocompatible Materials - therapeutic use | Hydrogels - therapeutic use | Wound Healing - drug effects | Hydrogels - chemistry | Nanostructures - therapeutic use | Tissue Engineering
CATIONIC COPOLYMER HYDROGELS | POLYMER SCIENCE | INJECTABLE SUPRAMOLECULAR HYDROGELS | DRUG-DELIVERY | BIOCHEMISTRY & MOLECULAR BIOLOGY | HYALURONIC-ACID HYDROGELS | CHEMISTRY, ORGANIC | PLA-PEG-PLA | MESENCHYMAL STEM-CELLS | KERATIN-BASED BIOMATERIALS | SITU-FORMING HYDROGELS | HUMAN HAIR KERATIN | ARTICULAR-CARTILAGE | Cartilage - growth & development | Biocompatible Materials - chemistry | Extracellular Matrix - drug effects | Humans | Cartilage - drug effects | Tissue Scaffolds - chemistry | Polymers - therapeutic use | Regeneration - drug effects | Nanostructures - chemistry | Polymers - chemistry | Biocompatible Materials - therapeutic use | Hydrogels - therapeutic use | Wound Healing - drug effects | Hydrogels - chemistry | Nanostructures - therapeutic use | Tissue Engineering
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Loading RightsLangmuir, ISSN 0743-7463, 08/2017, Volume 33, Issue 30, pp. 7575 - 7582
The antifouling property of exogenous materials is vital for their in vivo applications. In this work, dissipative particle dynamics simulations are performed...
PLA-PEG NANOPARTICLES | DISSIPATIVE PARTICLE DYNAMICS | HYDROGELS | DRUG-DELIVERY | MATERIALS SCIENCE, MULTIDISCIPLINARY | PROTEIN RESISTANCE | CHEMISTRY, PHYSICAL | CHEMISTRY, MULTIDISCIPLINARY | HYDRATION | ZWITTERIONIC SURFACE | POLYMER | COMPUTER-SIMULATIONS | PLGA MICROSPHERES
PLA-PEG NANOPARTICLES | DISSIPATIVE PARTICLE DYNAMICS | HYDROGELS | DRUG-DELIVERY | MATERIALS SCIENCE, MULTIDISCIPLINARY | PROTEIN RESISTANCE | CHEMISTRY, PHYSICAL | CHEMISTRY, MULTIDISCIPLINARY | HYDRATION | ZWITTERIONIC SURFACE | POLYMER | COMPUTER-SIMULATIONS | PLGA MICROSPHERES
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Loading RightsAdvances in Colloid and Interface Science, ISSN 0001-8686, 04/2011, Volume 163, Issue 2, pp. 90 - 122
Solvent displacement and emulsification-diffusion are the methods used most often for preparing biodegradable submicron particles. The major difference between...
Nanoparticles | Solvent displacement | Particle size | Nanoprecipitation | Zeta-potential | Emulsification-diffusion | Submicron particle | PLA-PEG NANOPARTICLES | DRUG-DELIVERY | CHEMISTRY, PHYSICAL | LOADED PLGA NANOPARTICLES | TRANS-RETINOIC ACID | BIODEGRADABLE NANOPARTICLES | POLY(D,L-LACTIC ACID) NANOPARTICLES | EPSILON-CAPROLACTONE NANOPARTICLES | POLYMERIC NANOPARTICLES | ORAL DELIVERY | BEHAVIOR IN-VITRO | Formulations | Design engineering | Solvents | Biodegradability | Raw materials | Criteria | Polymers | Displacement
Nanoparticles | Solvent displacement | Particle size | Nanoprecipitation | Zeta-potential | Emulsification-diffusion | Submicron particle | PLA-PEG NANOPARTICLES | DRUG-DELIVERY | CHEMISTRY, PHYSICAL | LOADED PLGA NANOPARTICLES | TRANS-RETINOIC ACID | BIODEGRADABLE NANOPARTICLES | POLY(D,L-LACTIC ACID) NANOPARTICLES | EPSILON-CAPROLACTONE NANOPARTICLES | POLYMERIC NANOPARTICLES | ORAL DELIVERY | BEHAVIOR IN-VITRO | Formulations | Design engineering | Solvents | Biodegradability | Raw materials | Criteria | Polymers | Displacement
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Loading RightsAdvanced Drug Delivery Reviews, ISSN 0169-409X, 12/2016, Volume 107, pp. 192 - 205
Polylactide (PLA) and its copolymers are hydrophobic polyesters used for biomedical applications. Hydrogel medicinal implants have been used as drug delivery...
In situ hydrogel | PLA–PEG | Responsive polymer | Hydrogel | PLA | Thermo-responsive | THERMOSENSITIVE HYDROGEL | PLA-PEG | SOL-GEL TRANSITION | STEREOCOMPLEX FORMATION | INJECTABLE HYDROGELS | IN-VITRO | BIODEGRADABLE BLOCK-COPOLYMERS | POLY(ETHYLENE GLYCOL) | PHARMACOLOGY & PHARMACY | BIOMEDICAL APPLICATIONS | PEG TRIBLOCK COPOLYMERS | DRUG-DELIVERY SYSTEMS | Drugs | Ethylene glycol | Drug delivery systems | Crosslinked polymers | Tissue engineering | Lactic acid | Chemical properties | Vehicles | Usage | Jewish schools | Aspartate | Permeability | Transforming growth factors | Glycine | Polyurethanes | Polysaccharides | Methylcellulose | Pharmacy | Bone morphogenetic proteins | Ethylene oxide | Carbonates
In situ hydrogel | PLA–PEG | Responsive polymer | Hydrogel | PLA | Thermo-responsive | THERMOSENSITIVE HYDROGEL | PLA-PEG | SOL-GEL TRANSITION | STEREOCOMPLEX FORMATION | INJECTABLE HYDROGELS | IN-VITRO | BIODEGRADABLE BLOCK-COPOLYMERS | POLY(ETHYLENE GLYCOL) | PHARMACOLOGY & PHARMACY | BIOMEDICAL APPLICATIONS | PEG TRIBLOCK COPOLYMERS | DRUG-DELIVERY SYSTEMS | Drugs | Ethylene glycol | Drug delivery systems | Crosslinked polymers | Tissue engineering | Lactic acid | Chemical properties | Vehicles | Usage | Jewish schools | Aspartate | Permeability | Transforming growth factors | Glycine | Polyurethanes | Polysaccharides | Methylcellulose | Pharmacy | Bone morphogenetic proteins | Ethylene oxide | Carbonates
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Scalable method to produce biodegradable nanoparticles that rapidly penetrate human mucus
Journal of Controlled Release, ISSN 0168-3659, 09/2013, Volume 170, Issue 2, pp. 279 - 286
Mucus typically traps and rapidly removes foreign particles from the airways, gastrointestinal tract, nasopharynx, female reproductive tract and the surface of...
Drug delivery | Surface PEG density | Mucus-penetrating particles | Emulsification | Nanomedicine | DRUG | THERAPEUTICS | PLA-PEG NANOPARTICLES | VIVO | ENCAPSULATION | POLY(D,L-LACTIDE-CO-GLYCOLIDE) | CHEMISTRY, MULTIDISCIPLINARY | OF-THE-ART | TRIGGERED RELEASE | TRANSPORT | PHARMACOLOGY & PHARMACY | MICROENCAPSULATION | Polyvinyl Alcohol - chemistry | Nanoparticles - chemistry | Curcumin - chemistry | Humans | Drug Compounding | Female | Polyethylene Glycols - chemistry | Mucus - chemistry | Permeability | Polyglactin 910 - chemistry | Drug Delivery Systems | Nanoparticles | Drugs | Drug delivery systems | Analysis | Gastrointestinal system | Polyols | Methods | Vehicles | Biodegradability
Drug delivery | Surface PEG density | Mucus-penetrating particles | Emulsification | Nanomedicine | DRUG | THERAPEUTICS | PLA-PEG NANOPARTICLES | VIVO | ENCAPSULATION | POLY(D,L-LACTIDE-CO-GLYCOLIDE) | CHEMISTRY, MULTIDISCIPLINARY | OF-THE-ART | TRIGGERED RELEASE | TRANSPORT | PHARMACOLOGY & PHARMACY | MICROENCAPSULATION | Polyvinyl Alcohol - chemistry | Nanoparticles - chemistry | Curcumin - chemistry | Humans | Drug Compounding | Female | Polyethylene Glycols - chemistry | Mucus - chemistry | Permeability | Polyglactin 910 - chemistry | Drug Delivery Systems | Nanoparticles | Drugs | Drug delivery systems | Analysis | Gastrointestinal system | Polyols | Methods | Vehicles | Biodegradability
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Loading RightsJournal of Controlled Release, ISSN 0168-3659, 2003, Volume 89, Issue 2, pp. 341 - 353
The present work utilizes electrospinning to fabricate synthetic polymer/DNA composite scaffolds for therapeutic application in gene delivery for tissue...
Electrospinning | Gene delivery | PLGA | PLA–PEG block copolymer | Tissue engineering | Life Sciences (General) | PLA-PEG block copolymer | tissue engineering | TISSUE ENGINEERING SCAFFOLDS | TRANSFECTION | COMPLEXES | ENCAPSULATION | RELEASE | CHEMISTRY, MULTIDISCIPLINARY | gene delivery | electrospinning | PLASMID DNA | IN-VIVO | POLYMER | PHARMACOLOGY & PHARMACY | DIFFERENTIATION | Cell Line | Polymers - administration & dosage | Nanotechnology - methods | DNA - administration & dosage | Polyethylene Glycols - administration & dosage | DNA - genetics | Animals | Lactates - administration & dosage | Transfection - methods | Mice | Drug Delivery Systems - methods | Lactic Acid - administration & dosage | Polyglycolic Acid - administration & dosage
Electrospinning | Gene delivery | PLGA | PLA–PEG block copolymer | Tissue engineering | Life Sciences (General) | PLA-PEG block copolymer | tissue engineering | TISSUE ENGINEERING SCAFFOLDS | TRANSFECTION | COMPLEXES | ENCAPSULATION | RELEASE | CHEMISTRY, MULTIDISCIPLINARY | gene delivery | electrospinning | PLASMID DNA | IN-VIVO | POLYMER | PHARMACOLOGY & PHARMACY | DIFFERENTIATION | Cell Line | Polymers - administration & dosage | Nanotechnology - methods | DNA - administration & dosage | Polyethylene Glycols - administration & dosage | DNA - genetics | Animals | Lactates - administration & dosage | Transfection - methods | Mice | Drug Delivery Systems - methods | Lactic Acid - administration & dosage | Polyglycolic Acid - administration & dosage
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Loading RightsAdvanced Drug Delivery Reviews, ISSN 0169-409X, 12/2016, Volume 107, pp. 289 - 332
The design of the first polymeric nanoparticles could be traced back to the 1970s, and has thereafter received considerable attention, as evidenced by the...
Polyester | Translation | Chemistry | Pharmaceutical development | Polylactide | Polyethylene glycol | Nanoparticle | Manufacturing and Control | PLA-PEG NANOPARTICLES | ETHYLENE OXIDE) NANOPARTICLES | PLA/PEO/PLA TRIBLOCK COPOLYMERS | DIFFERENT MOLECULAR-WEIGHTS | BLOCK-COPOLYMER MICELLES | BLOOD-BRAIN-BARRIER | PLGA-BASED NANOPARTICLES | LOADED BIODEGRADABLE NANOSPHERES | PROTEIN SURFACE INTERACTIONS | PHARMACOLOGY & PHARMACY | RING-OPENING POLYMERIZATION
Polyester | Translation | Chemistry | Pharmaceutical development | Polylactide | Polyethylene glycol | Nanoparticle | Manufacturing and Control | PLA-PEG NANOPARTICLES | ETHYLENE OXIDE) NANOPARTICLES | PLA/PEO/PLA TRIBLOCK COPOLYMERS | DIFFERENT MOLECULAR-WEIGHTS | BLOCK-COPOLYMER MICELLES | BLOOD-BRAIN-BARRIER | PLGA-BASED NANOPARTICLES | LOADED BIODEGRADABLE NANOSPHERES | PROTEIN SURFACE INTERACTIONS | PHARMACOLOGY & PHARMACY | RING-OPENING POLYMERIZATION
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Loading RightsEUROPEAN POLYMER JOURNAL, ISSN 0014-3057, 12/2018, Volume 109, pp. 341 - 346
An innovative solvent- and catalyst-free procedure for the grafting of acetylene groups on polylactic acid (PLA) backbone is reported, using propargylamine as...
Rhodamine | POLYMER SCIENCE | MOLECULAR-WEIGHT | Propargylamine | PLA-PEG | Pent-4-ynoic anhydride | AMPHIPHILIC GRAFT-COPOLYMERS | POLYDISPERSE POLYMERS | TIME | POLYMERIZATION | BLENDS | NANOPARTICLES | MASS | Click chemistry | Hydroxides | Chemical tests and reagents | Biopolymers | Analysis | Acetylene
Rhodamine | POLYMER SCIENCE | MOLECULAR-WEIGHT | Propargylamine | PLA-PEG | Pent-4-ynoic anhydride | AMPHIPHILIC GRAFT-COPOLYMERS | POLYDISPERSE POLYMERS | TIME | POLYMERIZATION | BLENDS | NANOPARTICLES | MASS | Click chemistry | Hydroxides | Chemical tests and reagents | Biopolymers | Analysis | Acetylene
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Bioresorbable filomicelles for targeted delivery of betulin derivative – In vitro study
International Journal of Pharmaceutics, ISSN 0378-5173, 02/2019, Volume 557, pp. 43 - 52
Filomicelles (worm-like micelles) possess high drug loading capacity and long circulation time in the bloodstream. A novel approach can be filomicelles with...
Betulin derivative | Filomicelles | Targeted therapy | Micelles | PLA-PEG | Folic acid | DRUG | BLOCK-COPOLYMERS | BEHAVIOR | FOLATE RECEPTOR | POLYMERIZATION | RELEASE | PACLITAXEL | NANOPARTICLES | DEGRADATION | PHARMACOLOGY & PHARMACY | Polymers - administration & dosage | Triterpenes - chemistry | Apoptosis - drug effects | Humans | Folic Acid - chemistry | Polymers - chemistry | HeLa Cells | Folic Acid - administration & dosage | Triterpenes - administration & dosage | Drug Delivery Systems | Chemical Sciences
Betulin derivative | Filomicelles | Targeted therapy | Micelles | PLA-PEG | Folic acid | DRUG | BLOCK-COPOLYMERS | BEHAVIOR | FOLATE RECEPTOR | POLYMERIZATION | RELEASE | PACLITAXEL | NANOPARTICLES | DEGRADATION | PHARMACOLOGY & PHARMACY | Polymers - administration & dosage | Triterpenes - chemistry | Apoptosis - drug effects | Humans | Folic Acid - chemistry | Polymers - chemistry | HeLa Cells | Folic Acid - administration & dosage | Triterpenes - administration & dosage | Drug Delivery Systems | Chemical Sciences
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Loading RightsJournal of Cellular Physiology, ISSN 0021-9541, 05/2019, Volume 234, Issue 5, pp. 6099 - 6107
Galbanic acid (GBA) is an active sesquiterpene coumarin derivative, with various medicinal benefits, including anticancer properties. However, the low...
C26 colon carcinoma | PLA–PEG | galbanic acid | antiangiogenesis | SYSTEM | NATURAL-PRODUCT | PHYSIOLOGY | ANGIOGENESIS | CURCUMIN | PLA-PEG | DELIVERY | CELL BIOLOGY | CD34 antigen | Polyethylene | Toxicity | Therapeutic applications | Emulsification | Colorectal carcinoma | Blood vessels | Cytotoxicity | Evaporation | pH effects
C26 colon carcinoma | PLA–PEG | galbanic acid | antiangiogenesis | SYSTEM | NATURAL-PRODUCT | PHYSIOLOGY | ANGIOGENESIS | CURCUMIN | PLA-PEG | DELIVERY | CELL BIOLOGY | CD34 antigen | Polyethylene | Toxicity | Therapeutic applications | Emulsification | Colorectal carcinoma | Blood vessels | Cytotoxicity | Evaporation | pH effects