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Volumn 7, Issue 1, 2011, Pages 63-64
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Immuno-potentiating role of encapsulated proteins of infectious diseases in biopolymeric nanoparticles as a potential delivery system
a
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Author keywords
Aerosol; Biopolymeric nanoparticles; Cell cytotoxicity; Cellular uptake; Dynamic Light Scattering (DLS); Mycobacterium tuberculosis
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Indexed keywords
CELLULAR UPTAKE;
CHITOSAN NANOPARTICLES;
CHRONIC INFECTION;
CYTOKINE PRODUCTION;
CYTOKINES;
DELIVERY SYSTEMS;
DYNAMIC LIGHT SCATTERING (DLS);
ENCAPSULATED NANOPARTICLES;
ENCAPSULATED PROTEINS;
IMMUNE RESPONSE;
INFECTIOUS DISEASE;
IONIC GELATION METHOD;
LONG LASTING;
M. TUBERCULOSIS;
MEAN RESIDENCE TIME;
MEMORY CELL FORMATION;
MYCOBACTERIUM TUBERCULOSIS;
RELATIVE BIOAVAILABILITY;
SIZE RANGES;
THERAPEUTIC PROTEIN;
AEROSOLS;
BIOCHEMISTRY;
COAGULATION;
CYTOTOXICITY;
DYNAMIC LIGHT SCATTERING;
GELATION;
NANOPARTICLES;
TUBES (COMPONENTS);
PROTEINS;
BACTERIAL PROTEIN;
CFP 21 PROTEIN;
CHITOSAN;
CULTURE FILTRATE PROTEIN 10;
NANOCAPSULE;
UNCLASSIFIED DRUG;
CFP 10 PROTEIN, MYCOBACTERIUM TUBERCULOSIS;
CFP-10 PROTEIN, MYCOBACTERIUM TUBERCULOSIS;
ANIMAL CELL;
ARTICLE;
CONTROLLED STUDY;
DRUG BIOAVAILABILITY;
DRUG CYTOTOXICITY;
DRUG DELIVERY SYSTEM;
GELATION;
IMMUNOPOTENTIATION;
MEAN RESIDENCE TIME;
MOUSE;
NANOENCAPSULATION;
NONHUMAN;
PARTICLE SIZE;
PROTEIN BINDING;
PROTEIN NANOENCAPSULATION;
SYNTHESIS;
ANIMAL;
CELL SURVIVAL;
CHEMISTRY;
DRUG EFFECT;
DRUG POTENTIATION;
FEASIBILITY STUDY;
IMMUNOLOGY;
INNATE IMMUNITY;
MELANOMA;
PATHOLOGY;
TUMOR CELL LINE;
ANIMALS;
BACTERIAL PROTEINS;
CELL LINE, TUMOR;
CELL SURVIVAL;
DRUG SYNERGISM;
FEASIBILITY STUDIES;
IMMUNITY, INNATE;
MELANOMA;
MICE;
NANOCAPSULES;
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EID: 79957744401
PISSN: 15507033
EISSN: 15507041
Source Type: Journal
DOI: 10.1166/jbn.2011.1202 Document Type: Article |
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Times cited : (24)
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References (1)
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