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Results: 1-25/28
Authors:
Custalow, CB
Watts, JA
Thornton, L
O'Malley, P
Barbee, RW
Grattan, RM
Lopaschuk, GD
Kline, JA
Citation: Cb. Custalow et al., Role of fatty acids in the recovery of cardiac function during resuscitation from hemorrhagic shock, SHOCK, 15(3), 2001, pp. 231-238
Optimizing cardiac energy metabolism: how can fatty acid and carbohydrate metabolism be manipulated?
Authors:
Lopaschuk, GD
Citation: Gd. Lopaschuk, Optimizing cardiac energy metabolism: how can fatty acid and carbohydrate metabolism be manipulated?, CORON ART D, 12, 2001, pp. S8-S11
Authors:
Longnus, SL
Wambolt, RB
Barr, RL
Lopaschuk, GD
Allard, MF
Citation: Sl. Longnus et al., Regulation of myocardial fatty acid oxidation by substrate supply, AM J P-HEAR, 281(4), 2001, pp. H1561-H1567
Authors:
Taniguchi, M
Wilson, C
Hunter, CA
Pehowich, DJ
Clanachan, AS
Lopaschuk, GD
Citation: M. Taniguchi et al., Dichloroacetate improves cardiac efficiency after ischemia independent of changes in mitochondrial proton leak, AM J P-HEAR, 280(4), 2001, pp. H1762-H1769
Authors:
Lopaschuk, GD
Citation: Gd. Lopaschuk, Trimetazidine in AMI, EUR HEART J, 22(11), 2001, pp. 977-978
Authors:
Kline, JA
Thornton, LR
Lopaschuk, GD
Barbee, RW
Watts, JA
Citation: Ja. Kline et al., Lactate improves cardiac efficiency after hemorrhagic shock, SHOCK, 14(2), 2000, pp. 215-221
Authors:
Barr, RL
Lopaschuk, GD
Citation: Rl. Barr et Gd. Lopaschuk, Methodology for measuring in vitro/ex vivo cardiac energy metabolism, J PHARM TOX, 43(2), 2000, pp. 141-152
Authors:
Wambolt, RB
Lopaschuk, GD
Brownsey, RW
Allard, MF
Citation: Rb. Wambolt et al., Dichloroacetate improves postischemic function of hypertrophied rat hearts, J AM COL C, 36(4), 2000, pp. 1378-1385
Authors:
Sakamoto, J
Barr, RL
Kavanagh, KM
Lopaschuk, GD
Citation: J. Sakamoto et al., Contribution of malonyl-CoA decarboxylase to the high fatty acid oxidationrates seen in the diabetic heart, AM J P-HEAR, 278(4), 2000, pp. H1196-H1204
Authors:
Dyck, JRB
Berthiaume, LG
Thomas, PD
Kantor, PF
Barr, AJ
Barr, R
Singh, D
Hopkins, TA
Voilley, N
Prentki, M
Lopaschuk, GD
Citation: Jrb. Dyck et al., Characterization of rat liver malonyl-CoA decarboxylase and the study of its role in regulating fatty acid metabolism, BIOCHEM J, 350, 2000, pp. 599-608
Authors:
Kantor, PF
Lucien, A
Kozak, R
Lopaschuk, GD
Citation: Pf. Kantor et al., The antianginal drug trimetazidine shifts cardiac energy metabolism from fatty acid oxidation to glucose oxidation by inhibiting mitochondrial long-chain 3-ketoacyl coenzyme A thiolase, CIRCUL RES, 86(5), 2000, pp. 580-588
Authors:
Ford, WR
Jugdutt, BI
Lopaschuk, GD
Schulz, R
Clanachan, AS
Citation: Wr. Ford et al., Influence of beta-adrenoceptor tone on the cardioprotective efficacy of adenosine A(1) receptor activation in isolated working rat hearts, BR J PHARM, 131(3), 2000, pp. 537-545
Authors:
Bergman, BC
Wolfel, EE
Butterfield, GE
Lopaschuk, GD
Casazza, GA
Horning, MA
Brooks, GA
Citation: Bc. Bergman et al., Active muscle and whole body lactate kinetics after endurance training in men, J APP PHYSL, 87(5), 1999, pp. 1684-1696
Authors:
Lopaschuk, GD
Citation: Gd. Lopaschuk, Optimizing cardiac energy metabolism: a new approach to treating ischaemicheart disease, EUR H J SUP, 1(O), 1999, pp. O32-O39
Authors:
Kline, JA
Thornton, LR
Lopaschuk, GD
Barbee, RW
Watts, JA
Citation: Ja. Kline et al., Heart function after severe hemorrhagic shock, SHOCK, 12(6), 1999, pp. 454-461
Authors:
Kantor, PF
Robertson, MA
Coe, JY
Lopaschuk, GD
Citation: Pf. Kantor et al., Volume overload hypertrophy of the newborn heart slows the maturation of enzymes involved in the regulation of fatty acid metabolism, J AM COL C, 33(6), 1999, pp. 1724-1734
Authors:
Belke, DD
Larsen, TS
Lopaschuk, GD
Severson, DL
Citation: Dd. Belke et al., Glucose and fatty acid metabolism in the isolated working mouse heart, AM J P-REG, 277(4), 1999, pp. R1210-R1217
Authors:
Voilley, N
Roduit, R
Vicaretti, R
Bonny, C
Waeber, G
Dyck, JRB
Lopaschuk, GD
Prentki, M
Citation: N. Voilley et al., Cloning and expression of rat pancreatic beta-cell malonyl-CoA decarboxylase, BIOCHEM J, 340, 1999, pp. 213-217
Authors:
Bergman, BC
Butterfield, GE
Wolfel, EE
Lopaschuk, GD
Casazza, GA
Horning, MA
Brooks, GA
Citation: Bc. Bergman et al., Muscle net glucose uptake and glucose kinetics after endurance training inmen, AM J P-ENDO, 40(1), 1999, pp. E81-E92
Authors:
Bergman, BC
Butterfield, GE
Wolfel, EE
Casazza, GA
Lopaschuk, GD
Brooks, GA
Citation: Bc. Bergman et al., Evaluation of exercise and training on muscle lipid metabolism, AM J P-ENDO, 39(1), 1999, pp. E106-E117
Authors:
Larsen, TS
Belke, DD
Sas, R
Giles, WR
Severson, DL
Lopaschuk, GD
Tyberg, JV
Citation: Ts. Larsen et al., The isolated working mouse heart: methodological considerations, PFLUG ARCH, 437(6), 1999, pp. 979-985
Authors:
Wambolt, RB
Henning, SL
English, DR
Dyachkova, Y
Lopaschuk, GD
Allard, MF
Citation: Rb. Wambolt et al., Glucose utilization and glycogen turnover are accelerated in hypertrophiedrat hearts during severe low-flow ischemia, J MOL CEL C, 31(3), 1999, pp. 493-502
Authors:
Dyck, JRB
Kudo, N
Barr, AJ
Davies, SP
Hardie, DG
Lopaschuk, GD
Citation: Jrb. Dyck et al., Phosphorylation control of cardiac acetyl-CoA carboxylase by cAMP-dependent protein kinase and 5 '-AMP activated protein kinase, EUR J BIOCH, 262(1), 1999, pp. 184-190
Authors:
Fraser, H
Lopaschuk, GD
Clanachan, AS
Citation: H. Fraser et al., Alteration of glycogen and glucose metabolism in ischaemic and post-ischaemic working rat hearts by adenosine A(1) receptor stimulation, BR J PHARM, 128(1), 1999, pp. 197-205
Authors:
Kantor, PF
Dyck, JRB
Lopaschuk, GD
Citation: Pf. Kantor et al., Fatty acid oxidation in the reperfused ischemic heart, AM J MED SC, 318(1), 1999, pp. 3-14