Search results for "Nanomedicines"

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SPIONs embedded in polyamino acid nanogels to synergistically treat tumor microenvironment and breast cancer cells.

2018

Abstract The extremely complex tumor microenvironment (TME) in humans is the major responsible for the therapeutic failure in cancer nanomedicine. A new concept of disease-driven nanomedicine, henceforth named “Theranomics”, which attempts to target cancer cells and TME on the whole, represents an attractive alternative. Herein, a nanomedicine able to co-deliver doxorubicin and a tumor suppressive proteolytic protein such as collagenase-2 was developed. We successfully obtained superparamagnetic nanogels (SPIONs/Doco@Col) via the intermolecular azide-alkyne Huisgen cycloaddition. We demonstrated that a local ECM degradation and remodeling in solid tumors by means of collagenase-2 could enha…

Polyamino acidPolyamino acidsCollagenasePharmaceutical ScienceBreast Neoplasms02 engineering and technology030226 pharmacology & pharmacy03 medical and health sciences0302 clinical medicineBreast cancerBreast cancerDrug Delivery SystemsCell Line TumormedicineTumor MicroenvironmentHumansDoxorubicinTargeted cancer therapyAmino AcidsMagnetite NanoparticlesTumor microenvironmentAntibiotics AntineoplasticChemistrySPIONCancerTheranomicDrug Synergism021001 nanoscience & nanotechnologymedicine.diseasenanomedicineNanomedicinesDrug LiberationSPIONsMatrix Metalloproteinase 8DoxorubicinCancer cellCancer researchNanomedicineTheranomicsFemaleBreast cancer cellspolyamino acid0210 nano-technologyGelsmedicine.drugInternational journal of pharmaceutics
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Synergistic Anticancer Therapy by Ovalbumin Encapsulation-Enabled Tandem Reactive Oxygen Species Generation

2020

Abstract The anticancer efficacy of photodynamic therapy (PDT) is limited due to the hypoxic features of solid tumors. We report synergistic PDT/chemotherapy with integrated tandem Fenton reactions mediated by ovalbumin encapsulation for improved in vivo anticancer therapy via an enhanced reactive oxygen species (ROS) generation mechanism. O2 .− produced by the PDT is converted to H2O2 by superoxide dismutase, followed by the transformation of H2O2 to the highly toxic .OH via Fenton reactions by Fe2+ originating from the dissolution of co‐loaded Fe3O4 nanoparticles. The PDT process further facilitates the endosomal/lysosomal escape of the active agents and enhances their intracellular deliv…

inorganic chemicalsNanomedicines | Hot PaperOvalbuminmedicine.medical_treatmentRadicalsynergisticcisplatinPhotodynamic therapyAntineoplastic Agents010402 general chemistry01 natural sciencesCatalysisSuperoxide dismutasechemistry.chemical_compoundMicemedicineAnimalsHumansResearch Articleschemistry.chemical_classificationCisplatinReactive oxygen speciesOxidase testPhotosensitizing Agentsbiology010405 organic chemistryFenton reactionsDrug SynergismGeneral MedicineGeneral ChemistryhypoxicEndocytosis0104 chemical sciencesOvalbuminchemistryphotodynamic therapybiology.proteinBiophysicsMCF-7 CellsReactive Oxygen SpeciesNicotinamide adenine dinucleotide phosphatemedicine.drugResearch Article
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