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Volumn 13, Issue 3, 2011, Pages
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Heating cancer stem cells to reduce tumor relapse
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Author keywords
[No Author keywords available]
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Indexed keywords
ANTINEOPLASTIC AGENT;
GOLD NANOPARTICLE;
NANOSHELL;
ANTINEOPLASTIC ACTIVITY;
ARTICLE;
BREAST CANCER;
CANCER CHEMOTHERAPY;
CANCER RADIOTHERAPY;
CANCER RECURRENCE;
CANCER RESEARCH;
CANCER RESISTANCE;
CANCER STEM CELL;
CELL SURVIVAL;
DNA REPAIR;
DRUG SENSITIVITY;
HEATING;
HUMAN;
IONIZING RADIATION;
LOW LEVEL LASER THERAPY;
RADIOSENSITIVITY;
TEMPERATURE;
THERMOTHERAPY;
TREATMENT RESPONSE;
ANIMAL;
DNA DAMAGE;
DRUG EFFECT;
DRUG RESISTANCE;
EXPERIMENTAL NEOPLASM;
FEMALE;
HEAT;
HYPERTHERMIC THERAPY;
METHODOLOGY;
MOUSE;
MULTIMODALITY CANCER THERAPY;
PATHOLOGY;
PHYSIOLOGICAL STRESS;
RADIATION DOSE;
RADIATION EXPOSURE;
TUMOR RECURRENCE;
ANIMALS;
COMBINED MODALITY THERAPY;
DNA DAMAGE;
DNA REPAIR;
DRUG RESISTANCE, NEOPLASM;
FEMALE;
HOT TEMPERATURE;
HYPERTHERMIA, INDUCED;
MAMMARY NEOPLASMS, ANIMAL;
MICE;
NEOPLASM RECURRENCE, LOCAL;
NEOPLASTIC STEM CELLS;
RADIATION TOLERANCE;
RADIATION, IONIZING;
STRESS, PHYSIOLOGICAL;
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EID: 84861006151
PISSN: 14655411
EISSN: 1465542X
Source Type: Journal
DOI: 10.1186/bcr2847 Document Type: Article |
Times cited : (26)
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References (7)
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