Search results for "Protein release"

showing 2 items of 2 documents

Acid‐Cleavable Poly(ethylene glycol) Hydrogels Displaying Protein Release at pH 5

2020

Abstract PEG is the gold standard polymer for pharmaceutical applications, however it lacks degradability. Degradation under physiologically relevant pH as present in endolysosomes, cancerous and inflammatory tissues is crucial for many areas. The authors present anionic ring‐opening copolymerization of ethylene oxide with 3,4‐epoxy‐1‐butene (EPB) and subsequent modification to introduce acid‐degradable vinyl ether groups as well as methacrylate (MA) units, enabling radical cross‐linking. Copolymers with different molar ratios of EPB, molecular weights (M n) up to 10 000 g mol−1 and narrow dispersities (Đ<1.05) were prepared. Both the P(EG‐co‐isoEPB)MA copolymer and the hydrogels showed pH‐…

540 Chemistry and allied sciencesVinyl CompoundsBiocompatible MaterialsDegree of polymerization010402 general chemistry01 natural sciencesCatalysisPolyethylene GlycolsPolymerizationchemistry.chemical_compoundHydrolysisPolymer chemistryPEG ratioCopolymermedicinehydrogelsPolymer Technologieschemistry.chemical_classificationFull PaperEthylene oxide010405 organic chemistryHydrolysisOrganic ChemistryBiochemistry and Molecular BiologyProteinsprotein releaseHydrogelsGeneral ChemistryPolymerFull PapersHydrogen-Ion ConcentrationVinyl etherPolymerteknologiPEG0104 chemical sciencescopolymerizationchemistry540 Chemiedrug deliverySelf-healing hydrogelsMethacrylatesBiokemi och molekylärbiologimedicine.drugChemistry – A European Journal
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Pulsatile protein release and protection using radiation-crosslinked polypeptide hydrogel delivery devices

2011

Abstract In the recent years recombinant technology has identified numerous protein based therapeutics. Their effective delivery, though, can be challenging due to the poor stability of most proteins along their pathway to the target site in the body. Hydrogels have been identified as good candidates for protein encapsulation and delivery thanks to both material and manufacturing process advantages. In this work we propose high energy irradiation as a synthetic methodology of choice to engineer hydrogel-based delivery devices for encapsulation and pulsatile release of proteins, triggered by pH, and for prevention of their denaturation when encapsulated. In particular, maleic anhydride funct…

Polymers and PlasticsGeneral Chemical EngineeringKineticsMechanical propertiesPolyaspartamide High energy irradiationBiochemistryViscoelasticitychemistry.chemical_compoundPolymer chemistryMaterials ChemistrymedicineEnvironmental ChemistryProtein releasetechnology industry and agricultureMaleic anhydrideGeneral ChemistryPolyaspartamidechemistryChemical engineeringRubber elasticitySelf-healing hydrogelsLiberationpH-responsive hydrogelsSettore CHIM/07 - Fondamenti Chimici Delle TecnologieSwellingmedicine.symptompH-responsive hydrogelDrug carrierMechanical propertieHigh energy irradiation
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