Tolazoline improves systemic and myocardial oxygen transport and oxygen consumption in hypoxemic newborn lambs
Konduri, G.G.; Dawe, E.J.
Pediatric Research 25(4 Part 2): 241A
1989
ISSN/ISBN: 0031-3998 Accession: 034015512
PDF emailed within 1 workday: $29.90
Related References
Konduri, G.G.; Woodard, L.L. 1991: Adenosine does not increase the systemic and myocardial oxygen consumption in doses that cause selective pulmonary vasodilation in hypoxemic newborn lambs Pediatric Research 29(4Part 2: 244AHoorntje T.M.; Dalinghaus M.; Gratama J.C.; Beaufort G.; De Graaf M.Y.; Koers J.H.; Kuipers J.R.G. 1989: Systemic oxygen transport and oxygen consumption in chronically hypoxemic ch lambs during acute hypoxemia Pediatric Research 25(4 Part 2): 25A
Konduri, G.G.; Mishefske, M.J. 1989: Systemic and pulmonary vascular effects of incremental doses of tolazoline in hypoxemic newborn lambs Pediatric Research 25(4 Part 2): 69A
Penny, D.J.; Sano, T.; Smolich, J.J. 2001: Increased systemic oxygen consumption offsets improved oxygen delivery during dobutamine infusion in newborn lambs Intensive Care Medicine 27(9): 1518-1525
Hoorntje, T.M.; Dalinghaus, M.; Gratama, J.C.; Beaufort, G.; Kuipers, J.R.G. 1989: Myocardial blood flow q and oxygen consumption in chronically hypoxemic ch lambs during acute hypoxemia Pediatric Research 25(4 Part 2): 25A
Gill, R.S.; Cheung, P-Yin.; Yu, X.; Aklabi, M.Al.; Nagendran, J.; Quinonez, L.G.; Li, Y.Qian.; Miller, J.; Ross, D.B.; Rebeyka, I.M.; Li, J. 2012: β(3)-Adrenoceptor Antagonist SR59230A Attenuates the Imbalance of Systemic and Myocardial Oxygen Transport Induced by Dopamine in Newborn Lambs Clinical Medicine Insights. Cardiology 6: 45-51
Heikens, W.F.; Dalinghaus, M.; Bartelds, B.; Koers, J.H.; Kuipers, J.R.G. 1990: Systemic oxygen delivery and oxygen uptake after acutely induced normoxemia in chronically hypoxemic lambs Pediatric Research 27(4 Part 2): 20A
Taylor, B.J.; Sziszak, T.L.; Sziszak, T.J. 1990: Effects of dopexamine on myocardial dynamics and oxygen consumption in newborn lambs Clinical Research 38(1): 41A
Konduri, G.G. 1989: Ranitidine does not reverse the effects of tolazoline in hypoxemic newborn lambs Pediatric Research 25(4 Part 2): 68A
Bartelds, B.; Gratama, J.W.; Meuzelaar, K.J.; Dalinghaus, M.; Koers, J.H.; Heikens, W.F.; Zijlstra, W.G.; Kuipers, J.R. 1998: Comparative effects of isoproterenol and dopamine on myocardial oxygen consumption, blood flow distribution and total body oxygen consumption in conscious lambs with and without an aortopulmonary left to right shunt Journal of the American College of Cardiology 31(2): 473-481
Fisher, D.J. 1989: Beta-adrenergic influence on increased myocardial oxygen consumption during hypoxemia in awake newborn lambs Pediatric Research 25(6): 585-590
Martin, C.; Chen, T.; Hansen, T.; Goddard Finegold, J.; Alexander, B. 1987: Maintenance of brain blood flow and oxygen consumption during hypoxia and tolazoline infusion in lambs Pediatric Research 21(4 Part 2): 367A
Chan, W.; Barrington, K.; Finer, N.; Hayashi, A. 1992: Effects of extracorporeal membrane oxygenation on cerebral and myocardial oxygen delivery and myocardial oxygen consumption in newborn piglets Clinical and Investigative Medicine 15(4 Suppl): A123
Bernstein, D.; Teitel, D.; Sidi, D.; Heymann, M.A.; Rudolph, A.M. 1985: Regional blood flow distribution and oxygen delivery in chronically hypoxemic newborn lambs Pediatric Research 19(4 Part 2): 124A
Yu, X.; Konstantinov, I.E.; Kantoch, M.J.; Rebeyka, I.M.; Li, J. 2011: Dynamic changes of myocardial oxygen consumption at pacing increased heart rate - the first observation by the continuous measurement of systemic oxygen consumption Scandinavian Cardiovascular Journal: Scj 45(5): 301-306