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Volumn 6, Issue 20, 2014, Pages 11940-11952
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Enhanced antitumor activity and mechanism of biodegradable polymeric micelles-encapsulated chetomin in both transgenic zebrafish and mouse models
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Author keywords
[No Author keywords available]
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Indexed keywords
BIODEGRADABLE POLYMERS;
CELL DEATH;
GELATION;
HYDROGELS;
METABOLITES;
MICELLES;
PARTICLE SIZE;
SOLS;
TUMORS;
ANTI-TUMOR ACTIVITIES;
ENCAPSULATION EFFICIENCY;
GELATION CONCENTRATIONS;
MOLECULAR MODELING STUDIES;
PERITONEAL CARCINOMATOSIS;
SECONDARY METABOLITES;
THERMO-SENSITIVE HYDROGEL;
TUMOR-INDUCED ANGIOGENESIS;
ENCAPSULATION;
ANTINEOPLASTIC AGENT;
BIOMATERIAL;
CHETOMIN;
DISULFIDE;
GLUTATHIONE;
HYDROGEL;
INDOLE ALKALOID;
MACROGOL DERIVATIVE;
MICELLE;
POLYMER;
REACTIVE OXYGEN METABOLITE;
ANIMAL;
APOPTOSIS;
CHEMICAL STRUCTURE;
CHEMISTRY;
DISEASE MODEL;
FERMENTATION;
HYDROGEL;
METASTASIS;
MICELLE;
MICROCIRCULATION;
MOLECULAR DYNAMICS;
MOUSE;
NEOPLASMS;
PARTICLE SIZE;
TEMPERATURE;
TRANSGENIC ANIMAL;
ZEBRA FISH;
ANIMALS;
ANIMALS, GENETICALLY MODIFIED;
ANTINEOPLASTIC AGENTS;
APOPTOSIS;
BIOCOMPATIBLE MATERIALS;
DISEASE MODELS, ANIMAL;
DISULFIDES;
FERMENTATION;
GLUTATHIONE;
HYDROGELS;
INDOLE ALKALOIDS;
MICE;
MICELLES;
MICROCIRCULATION;
MODELS, MOLECULAR;
MOLECULAR DYNAMICS SIMULATION;
NEOPLASM METASTASIS;
NEOPLASMS;
PARTICLE SIZE;
POLYETHYLENE GLYCOLS;
POLYMERS;
REACTIVE OXYGEN SPECIES;
TEMPERATURE;
ZEBRAFISH;
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EID: 84907483319
PISSN: 20403364
EISSN: 20403372
Source Type: Journal
DOI: 10.1039/c4nr02978j Document Type: Article |
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Times cited : (18)
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References (30)
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