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Results:
1-10
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Results: 10
Authors:
Fields, M
Lewis, CG
Citation: M. Fields et Cg. Lewis, Anemia is associated with hypercholesterolemia in rats only when liver iron is elevated, J TR EL EXP, 14(1), 2001, pp. 81-87
Authors:
Fields, M
Lewis, CG
Bureau, I
Citation: M. Fields et al., Aspirin reduces blood cholesterol in copper-deficient rats: A potential antioxidant agent?, METABOLISM, 50(5), 2001, pp. 558-561
Authors:
During, A
Fields, M
Lewis, CG
Smith, JC
Citation: A. During et al., Intestinal beta-carotene 15,15 '-dioxygenase activity is markedly enhancedin copper-deficient rats fed on high-iron diets and fructose, BR J NUTR, 84(1), 2000, pp. 117-124
Authors:
During, A
Fields, M
Lewis, CG
Smith, JC
Citation: A. During et al., beta-carotene 15,15 '-dioxygenase activity is responsive to copper and iron concentrations in rat small intestine, J AM COL N, 18(4), 1999, pp. 309-315
Authors:
Fields, M
Lewis, CG
Citation: M. Fields et Cg. Lewis, Level of dietary iron, not type of dietary fat, is hyperlipidemic in copper-deficient rats, J AM COL N, 18(4), 1999, pp. 353-357
Authors:
Fields, M
Lewis, CG
Citation: M. Fields et Cg. Lewis, Dietary fructose but not starch is responsible for hyperlipidemia associated with copper deficiency in rats: Effect of high-fat diet, J AM COL N, 18(1), 1999, pp. 83-87
Authors:
Lewis, CG
Citation: Cg. Lewis, Ink into bits: A web of converging media, J ACAD LIBR, 25(2), 1999, pp. 147-147
Authors:
Fields, M
Lewis, CG
Citation: M. Fields et Cg. Lewis, Cholesterol-lowering nature of unsaturated fat in rats may be due to its inability to increase hepatic iron, METABOLISM, 48(2), 1999, pp. 200-204
Authors:
Lewis, CG
Citation: Cg. Lewis, Acquisitions and collection development in the humanities., REF USER S, 37(4), 1998, pp. 387-388
Authors:
Fields, M
Lewis, CG
Citation: M. Fields et Cg. Lewis, Hepatic iron (Fe) retention in copper (Cu)-deficient rats is a potential risk factor for hypercholesterolemia, MET ION BIO, 5, 1998, pp. 493-497
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1-10
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