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Results: 1-9 |
Results: 9
Role of carotid bodies in control of the neuroendocrine response to exercise
Authors: Koyama, Y Coker, RH Denny, JC Lacy, DB Jabbour, K Williams, PE Wasserman, DH
Citation: Y. Koyama et al., Role of carotid bodies in control of the neuroendocrine response to exercise, AM J P-ENDO, 281(4), 2001, pp. E742-E748
Stimulation of splanchnic glucose production during exercise in humans contains a glucagon-independent component
Authors: Coker, RH Simonsen, L Bulow, J Wasserman, DH Kjaer, M
Citation: Rh. Coker et al., Stimulation of splanchnic glucose production during exercise in humans contains a glucagon-independent component, AM J P-ENDO, 280(6), 2001, pp. E918-E927
Glucagon response to exercise is critical for accelerated hepatic glutamine metabolism and nitrogen disposal
Authors: Krishna, MG Coker, RH Lacy, DB Zinker, BA Halseth, AE Wasserman, DH
Citation: Mg. Krishna et al., Glucagon response to exercise is critical for accelerated hepatic glutamine metabolism and nitrogen disposal, AM J P-ENDO, 279(3), 2000, pp. E638-E645
Hepatic alpha- and beta-adrenergic receptors are not essential for the increase in R-a during exercise in diabetes
Authors: Coker, RH Lacy, DB Williams, PE Wasserman, DH
Citation: Rh. Coker et al., Hepatic alpha- and beta-adrenergic receptors are not essential for the increase in R-a during exercise in diabetes, AM J P-ENDO, 278(3), 2000, pp. E444-E451
Evidence that carotid bodies play an important role in glucoregulation in vivo
Authors: Koyama, Y Coker, RH Stone, EE Lacy, DB Jabbour, K Williams, PE Wasserman, DH
Citation: Y. Koyama et al., Evidence that carotid bodies play an important role in glucoregulation in vivo, DIABETES, 49(9), 2000, pp. 1434-1442
Splanchnic glucagon kinetics in exercising alloxan-diabetic dogs
Authors: Coker, RH Lacy, DB Krishna, MG Wasserman, DH
Citation: Rh. Coker et al., Splanchnic glucagon kinetics in exercising alloxan-diabetic dogs, J APP PHYSL, 86(5), 1999, pp. 1626-1631
Prior exercise increases net hepatic glucose uptake during a glucose load
Authors: Galassetti, P Coker, RH Lacy, DB Cherrington, AD Wasserman, DH
Citation: P. Galassetti et al., Prior exercise increases net hepatic glucose uptake during a glucose load, AM J P-ENDO, 39(6), 1999, pp. E1022-E1029
Role of a negative arterial-portal venous glucose gradient in the postexercise state
Authors: Galassetti, P Koyama, Y Coker, RH Lacy, DB Cherrington, AD Wasserman, DH
Citation: P. Galassetti et al., Role of a negative arterial-portal venous glucose gradient in the postexercise state, AM J P-ENDO, 277(6), 1999, pp. E1038-E1045
Pancreatic innervation is not essential for exercise-induced changes in glucagon and insulin or glucose kinetics
Authors: Coker, RH Koyama, Y Lacy, DB Williams, PE Rheaume, N Wasserman, DH
Citation: Rh. Coker et al., Pancreatic innervation is not essential for exercise-induced changes in glucagon and insulin or glucose kinetics, AM J P-ENDO, 277(6), 1999, pp. E1122-E1129
Risultati: 1-9 |