Enteral nutrients alter enterocyte function within an in vitro model similar to an acute in vivo rat model during hypoxia

Journal of Parenteral and Enteral Nutrition

Volumn 26, Issue 2, 2002, Pages 71-76

  Kles, K A ^a   Tappenden, K A ^a   Turner, J R ^b  

^a UNIVERSITY OF ILLINOIS AT URBANA CHAMPAIGN   (United States)

^b UNIVERSITY OF CHICAGO   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

3 METHYLGLUCOSE; ADENOSINE DIPHOSPHATE; ADENOSINE TRIPHOSPHATE; FRUCTOSE; GLUCOSE; GLUCOSE TRANSPORTER; GLUTAMINE; LACTIC ACID; MANNITOL; MEMBRANE PROTEIN; SLC5A1 PROTEIN, HUMAN; SLC5A1 PROTEIN, RAT; SODIUM; SODIUM GLUCOSE COTRANSPORTER 1; CARRIER PROTEIN; UNCLASSIFIED DRUG;

ANIMAL; ARTICLE; BIOLOGICAL MODEL; CELL HYPOXIA; CELL STRAIN CACO 2; CHEMISTRY; COMPARATIVE STUDY; DRUG EFFECT; ELECTRIC CONDUCTIVITY; ENTERIC FEEDING; EPITHELIUM; GENETIC TRANSFECTION; GENETICS; HUMAN; IMPEDANCE; INTESTINE CELL; METABOLISM; PHYSIOLOGY; RAT; TRANSPORT AT THE CELLULAR LEVEL; CELL MEMBRANE RESISTANCE; CONTROLLED STUDY; GLUCOSE TRANSPORT; HUMAN CELL; IN VITRO STUDY; INJURY; INTESTINE BLOOD FLOW; INTESTINE BRUSH BORDER; INTESTINE PERFUSION; NUTRIENT; POTENTIAL DIFFERENCE; PRIORITY JOURNAL; RESUSCITATION; SHORT CIRCUIT CURRENT; SMALL INTESTINE MUCOSA;

3-O-METHYLGLUCOSE; ADENOSINE DIPHOSPHATE; ADENOSINE TRIPHOSPHATE; ANIMALS; BIOLOGICAL TRANSPORT; CACO-2 CELLS; CELL HYPOXIA; ELECTRIC CONDUCTIVITY; ELECTRIC IMPEDANCE; ENTERAL NUTRITION; ENTEROCYTES; EPITHELIUM; FRUCTOSE; GLUCOSE; GLUTAMINE; HUMANS; LACTIC ACID; MANNITOL; MEMBRANE GLYCOPROTEINS; MODELS, BIOLOGICAL; MONOSACCHARIDE TRANSPORT PROTEINS; RATS; SODIUM; SODIUM-GLUCOSE TRANSPORTER 1; TRANSFECTION;

EID: 0036176528     PISSN: 01486071     EISSN: None     Source Type: Journal    
DOI: 10.1177/014860710202600271     Document Type: Article

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