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Общее количество найденных документов : 511
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1.
| 'бета'-Adrenoceptor activity and resting energy metabolism in weight losing cancer patients // Eur. J. Cancer, 2000. Vol. 36, N 3.-С.330-334
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| 'бета'-Adrenoceptor activity and resting energy metabolism in weight losing cancer patients // Eur. J. Cancer, 2000. Vol. 36, N 3.-С.330-334
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| 'бета'-Adrenoceptor activity and resting energy metabolism in weight losing cancer patients // Eur. J. Cancer, 2000. Vol. 36, N 3.-С.330-334
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| A controlled trial of cyproheptadine in cancer patients with anorexia and/or cachexia // Cancer, 1990. Vol. 65, N 12.-С.2657-2662
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| A fish oil-enriched nutritional supplement modulates changes in the acute phase protein response in weight-losing pancreatic cancer patients // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.41
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| A fish oil-enriched nutritional supplement modulates changes in the acute phase protein response in weight-losing pancreatic cancer patients // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.41
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| A fish oil-enriched nutritional supplement modulates changes in the acute phase protein response in weight-losing pancreatic cancer patients // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.41
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8.
| A fish oil-enriched nutritional supplement modulates changes in the acute phase protein response in weight-losing pancreatic cancer patients // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.41
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| A fish oil-enriched nutritional supplement reverses weight-loss in patients with advanced pancrearic cancer // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.13
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| A fish oil-enriched nutritional supplement reverses weight-loss in patients with advanced pancrearic cancer // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.13
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| A fish oil-enriched nutritional supplement reverses weight-loss in patients with advanced pancrearic cancer // Clin. Nutr., 1998. Vol. 17, Suppl. N 1.-С.13
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| A new model of cancer cachexia: Contribution of the ubiquitin-proteasome pathway // Amer. J. Physiol., 1999. Vol. 277, N 2.-С.E332-E341
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| A new model of cancer cachexia: Contribution of the ubiquitin-proteasome pathway // Amer. J. Physiol., 1999. Vol. 277, N 2.-С.E332-E341
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| A novel role for CD4{+} cells in the control of cachexia // J. Immunol., 2008. Vol. 181, N 7.-С.4676-4684
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| Activation of lipoprotein lipase and inhibition of B16 melanoma-induced cachexia in mice by ponalrestat, and aldose reductase inhibitor // Anticancer Res., 1999. Vol. 19, N 1a.-С.341-348
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| Activation of lipoprotein lipase and inhibition of B16 melanoma-induced cachexia in mice by ponalrestat, and aldose reductase inhibitor // Anticancer Res., 1999. Vol. 19, N 1a.-С.341-348
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| Activation of lipoprotein lipase and inhibition of B16 melanoma-induced cachexia in mice by ponalrestat, and aldose reductase inhibitor // Anticancer Res., 1999. Vol. 19, N 1a.-С.341-348
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18.
| Activation of UCPs gene expression in skeletal muscle can be independent on both circulating fatty acids and food intake Involvement of ROS in a model of mouse cancer cachexia // FEBS Lett., 2005. Vol. 579, N 3.-С.717-722
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| Acute inhibition of myostatin-family proteins preserves skeletal muscle in mouse models of cancer cachexia // Biochem. and Biophys. Res. Commun., 2010. Vol. 391, N 3.-С.1548-1554
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| Acute inhibition of myostatin-family proteins preserves skeletal muscle in mouse models of cancer cachexia // Biochem. and Biophys. Res. Commun., 2010. Vol. 391, N 3.-С.1548-1554
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