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Volumn 46, Issue 2, 2012, Pages 401-409
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Stress-resistant neural stem cells positively influence regional energy metabolism after spinal cord injury in mice.
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Author keywords
[No Author keywords available]
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Indexed keywords
ADENOSINE TRIPHOSPHATE;
GLUCOSE;
HYDROGEN PEROXIDE;
LACTIC ACID DERIVATIVE;
ANIMAL;
ARTICLE;
BIOSYNTHESIS;
C57BL MOUSE;
CELL CULTURE;
CELL SURVIVAL;
DRUG EFFECT;
EMBRYONIC STEM CELL;
ENERGY METABOLISM;
FEMALE;
GENETIC SELECTION;
GLYCOLYSIS;
LAMINECTOMY;
LUMINESCENCE;
METABOLISM;
MOUSE;
NERVE CRUSH;
NEURAL STEM CELL;
OXIDATIVE STRESS;
PATHOLOGY;
PHYSIOLOGY;
SPINAL CORD COMPRESSION;
SPINAL CORD INJURY;
TRANSPLANTATION;
VERTEBRA;
ADENOSINE TRIPHOSPHATE;
ANIMALS;
CELL SURVIVAL;
CELLS, CULTURED;
EMBRYONIC STEM CELLS;
ENERGY METABOLISM;
FEMALE;
GLUCOSE;
GLYCOLYSIS;
HYDROGEN PEROXIDE;
LACTATES;
LAMINECTOMY;
LUMINESCENT MEASUREMENTS;
MICE;
MICE, INBRED C57BL;
NERVE CRUSH;
NEURAL STEM CELLS;
OXIDATIVE STRESS;
SELECTION, GENETIC;
SPINAL CORD COMPRESSION;
SPINAL CORD INJURIES;
THORACIC VERTEBRAE;
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EID: 84866174647
PISSN: None
EISSN: 15591166
Source Type: Journal
DOI: 10.1007/s12031-011-9600-9 Document Type: Article |
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Times cited : (3)
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References (0)
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