| P2093 | author name string | Peter Radermacher | |
| | Karl Träger | |
| | Xavier Leverve | |
| P2860 | cites work | Dobutamine improves the adequacy of gastric mucosal perfusion in epinephrine-treated septic shock | Q73897734 |
| | Epinephrine-induced lactic acidosis following cardiopulmonary bypass | Q73897753 |
| | Mild hyperlactatemia in stable septic patients is due to impaired lactate clearance rather than overproduction | Q74489925 |
| | Lactate: A key metabolite in the intercellular metabolic interplay. | Q24796783 |
| | Effects of epinephrine on intestinal oxygen supply and mucosal tissue oxygen tension in pigs. | Q30658163 |
| | Effects of norepinephrine and phenylephrine on intestinal oxygen supply and mucosal tissue oxygen tension | Q30668391 |
| | Energy metabolism in critically ill patients: lactate is a major oxidizable substrate | Q33715471 |
| | Lactate is an unreliable indicator of tissue hypoxia in injury or sepsis | Q33721562 |
| | Hemodynamic support in septic shock | Q34221781 |
| | Cytopathic hypoxia. Is oxygen use impaired in sepsis as a result of an acquired intrinsic derangement in cellular respiration? | Q34575280 |
| | Lactic acidosis in critical illness | Q35224786 |
| | Quantitative analysis of amino acid oxidation and related gluconeogenesis in humans | Q35969002 |
| | The effects of dopamine and adrenaline infusions on acid-base balance and systemic haemodynamics in severe infection | Q38964265 |
| | Alterations in carbohydrate metabolism during stress: a review of the literature | Q40572109 |
| | Combined measurements of blood lactate concentrations and gastric intramucosal pH in patients with severe sepsis | Q40683066 |
| | Energy metabolism in sepsis and injury | Q41588913 |
| | Stimulation of both aerobic glycolysis and Na(+)-K(+)-ATPase activity in skeletal muscle by epinephrine or amylin. | Q41679607 |
| | Time-pattern of lactate and lactate to pyruvate ratio in the first 24 hours of intensive care emergency admissions. | Q42047902 |
| | The hepatosplanchnic area is not a common source of lactate in patients with severe sepsis. | Q43541004 |
| | Interpretation of blood lactate concentrations in patients with sepsis | Q43544433 |
| | Lactate: may I have your votes please? | Q43561045 |
| | Nitric oxide production and hepatic dysfunction in patients with postoperative sepsis | Q43654709 |
| | A global approach to energy metabolism in an experimental model of sepsis | Q43796669 |
| | Septic shock: a goal-directed therapy using volume loading, dobutamine and/or norepinephrine | Q43828079 |
| | Gut luminal lactate release during gradual intestinal ischemia | Q43858242 |
| | Adrenaline in treatment of septic shock: effects on haemodynamics and oxygen transport | Q44020849 |
| | Jejunal luminal microdialysate lactate in cardiac tamponade--effect of low systemic blood flow on gut mucosa | Q44067365 |
| | Metabolic effects of norepinephrine and dobutamine in healthy volunteers | Q44236443 |
| | Effects of epinephrine and norepinephrine on hemodynamics, oxidative metabolism, and organ energetics in endotoxemic rats | Q44320915 |
| | Energy state, glycolytic intermediates and mitochondrial function in the liver during reversible and irreversible endotoxin shock | Q45218917 |
| | Hepatic metabolic response to injury and sepsis | Q49222077 |
| | Mitochondrial redox state in the critically ill. | Q51425416 |
| | Mitochondrial redox state as a potential detector of liver dysoxia in vivo. | Q51526565 |
| | Epinephrine impairs splanchnic perfusion in septic shock. | Q51546880 |
| | Catecholamines and the control of metabolism in man | Q57420397 |
| | Early impairment of oxidative metabolism and energy production in severe sepsis | Q67999445 |
| | Serial lactate determinations during circulatory shock | Q70433689 |
| | Glucose and urea production and leucine, ketoisocaproate and alanine fluxes at supraphysiological plasma adrenaline concentrations in volunteers | Q72502452 |
| | Normal lactate/pyruvate ratio during overwhelming polymicrobial bacteremia and multiple organ failure | Q72732307 |
| | Increased lactate/pyruvate ratio with normal beta-hydroxybutyrate/acetoacetate ratio and lack of oxygen supply dependency in a patient with fatal septic shock | Q73083448 |
| | Comparison of norepinephrine and dobutamine to epinephrine for hemodynamics, lactate metabolism, and gastric tonometric variables in septic shock: a prospective, randomized study | Q73182846 |
| | Evolution of lactate/pyruvate and arterial ketone body ratios in the early course of catecholamine-treated septic shock | Q73430305 |
| | The hepatosplanchnic area and hyperlactatemia: A tale of two lactates | Q73606522 |
| | Optimizing gastric mucosal perfusion: all catecholamines may not be created equal | Q73897715 |
| P433 | issue | 2 | |
| P304 | page(s) | 150-153 | |
| P577 | publication date | 2002-12-19 | |
| P1433 | published in | Intensive Care Medicine | Q15749164 |
| P1476 | title | The adrenergic coin: perfusion and metabolism | |
| P478 | volume | 29 | |