Search results for "Biocompatible polymer"

showing 7 items of 7 documents

Biocompatible Polymers and Processing Techniques in Drug Delivery and Tissue Engineering

2013

World Wide WebBiocompatible polymersTissue engineeringPolymers Tissue Engineering Atom Transfer Radical Polymerization bioengineered tissue electrospinningChemistryOpen access publishingDrug deliveryNanotechnologyJournal of Pharmaceutics and Drug Development
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PHEA-PLA biocompatible nanoparticles by technique of solvent evaporation from multiple emulsions

2015

Nanocarriers of amphiphilic polymeric materials represent versatile delivery systems for poorly water soluble drugs. In this work the technique of solvent evaporation from multiple emulsions was applied to produce nanovectors based on new amphiphilic copolymer, the α,β-poly(N-2-hydroxyethyl)-DL-aspartamide-polylactic acid (PHEA-PLA), purposely synthesized to be used in the controlled release of active molecules poorly soluble in water. To this aim an amphiphilic derivative of PHEA, a hydrophilic polymer, was synthesized by derivatization of the polymeric backbone with hydrophobic grafts of polylactic acid (PLA). The achieved copolymer was thus used to produce nanoparticles loaded with α toc…

3003Biocompatible polymerPolymersChemistry PharmaceuticalDrug CompoundingPolyestersalpha-TocopherolPharmaceutical Sciencechemistry.chemical_compoundDrug Delivery SystemsNanoparticlePolylactic acidAmphiphileOrganic chemistryLactic AcidSolubilityDrug CarriersUltrasonic energyPHEA-PLAEmulsionAmphiphilic polymerControlled releaseSolventDrug LiberationSolubilitychemistryChemical engineeringDelayed-Action PreparationsDrug deliveryDrug deliverySolventsNanoparticlesEmulsionsNanocarriersPeptidesDrug carrierHydrophobic and Hydrophilic Interactions
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SYNTHESIS AND CHARACTERIZATION OF NEW AMPHIPHILIC COPOLYMERS BASED ON A POLY(HYDROXYETHYL)-D,L-ASPARTAMIDE (PHEA) FOR THE COATING OF GOLD NANOPARTICL…

2012

GOLD NANOPARTICLES BIOCOMPATIBLE POLYMER POLY(HYDROXYETHYL)-DL-ASPARTAMIDE
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Hemoglobin loaded polymeric nanoparticles: preparation and characterizations.

2011

In the present work polymeric nanoparticles based on Poly (maleic anhydride-alt-butyl vinyl ether) 5% grafted with m-PEG (2000) and 95% grafted with 2-methoxyethanol (VAM41-PEG) were loaded with human hemoglobin (Hb) and characterized from a physicochemical point of view. The assessment of structural and functional features of the loaded Hb was performed and the effect of the introduction of different reducing agents as aimed at minimizing Hb oxidation during the nanoparticles formulation process, was also investigated. Nanoparticles possessing an average diameter of 138 ± 10 nm and physicochemical features suitable for this kind of application were successfully obtained. Although the oxida…

Biocompatible polymerVinyl CompoundsInjectable systemsBiocompatibilityReducing agentPharmaceutical ScienceNanoparticleBiocompatible MaterialsPolymeric nanoparticlePolyethylene Glycolschemistry.chemical_compoundHemoglobinsBlood SubstitutesPolymer chemistrymedicineHumansMicroparticleParticle SizeMaleic AnhydridesDrug CarriersBlood substituteMaleic anhydrideVinyl etherSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)chemistryChemical engineeringNanoparticlesEthylene GlycolsDrug carrierEthylene glycolmedicine.drugEthersEuropean journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences
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Biomaterials for Biotechnological and Pharmaceutical application

2010

biocompatible polymerbiomedical applications
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SCAFFOLDS POLILATTIDICI PER APPLICAZIONI BIOMEDICHE

2010

3D porous scaffold polymer leaching salt leaching Hepaocarcinoma cells biocompatible polymer Poly(lactid acid) poly(ethylen glycol)
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Aminofunctional polyethers: smart materials for applications in solution and on surfaces

2013

In recent years, biocompatible polyethers with multi-aminofunctionality have been used for a variety of applications in different fields. Both established and recently developed synthesis strategies for such polymers and applications as stimuli-responsive materials, non-viral vectors, shell crosslinked micelles and for surface functionalization are reviewed. The intriguing potential of such materials is due to both polyether and polyamine components and can thus be readily tuned by the copolymer microstructure and composition. © 2013 Society of Chemical Industry

chemistry.chemical_classificationBiocompatible polymersMaterials sciencePolymers and PlasticsOrganic ChemistryNanotechnologyPolymerMicrostructureSmart materialBiocompatible materialMicellechemistryMaterials ChemistryCopolymerOrganic chemistrySurface modificationPolymer International
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