| scholarly article | Q13442814 |
| P2093 | author name string | Martin C | |
| Lam C | |||
| Tyml K | |||
| Sibbald W | |||
| P2860 | cites work | Definitions for sepsis and organ failure and guidelines for the use of innovative therapies in sepsis. The ACCP/SCCM Consensus Conference Committee. American College of Chest Physicians/Society of Critical Care Medicine | Q22306067 |
| Oxygen consumption in sepsis and septic shock | Q28315998 | ||
| Measurement of oxygen diffusion distance in tumor cubes using a fluorescent hypoxia probe | Q33278258 | ||
| Simultaneous assessment of red cell perfusion in skeletal muscle by laser Doppler flowmetry and video microscopy. | Q36490235 | ||
| Gram-negative sepsis. Background, clinical features, and intervention | Q37296912 | ||
| Laboratory models of sepsis and septic shock | Q37945490 | ||
| Oxygen delivery and uptake by peripheral tissues: physiology and pathophysiology | Q38617901 | ||
| Theory of oxygen transport to tissue | Q38688402 | ||
| Heterogeneity of microvascular flow in rat skeletal muscle is reduced by contraction and by hemodilution | Q41182911 | ||
| Role of neutrophils in endotoxin-mediated microvascular injury in hamsters | Q41853150 | ||
| Role of the microcirculation to skeletal muscle during shock | Q43438426 | ||
| Endotoxin-induced increase in leukocyte adherence and macromolecular permeability of postcapillary venules | Q43551806 | ||
| Reduced microvascular adrenergic receptor activity due to opioids in endotoxin shock | Q43591125 | ||
| Regulation of perfused capillary density in canine intestinal mucosa during endotoxemia | Q43615598 | ||
| Reduced RBC versus plasma microvascular flow due to endotoxin | Q43764116 | ||
| In vivo effects of Escherichia coli endotoxemia on diaphragmatic microcirculation in rats | Q43940941 | ||
| Peripheral vascular tone in sepsis | Q44360268 | ||
| The rate of oxygen release and its effect on capillary O2 tension: a mathematical analysis | Q44649129 | ||
| Elevation of cardiac output and oxygen delivery improves outcome in septic shock | Q46090707 | ||
| Polymorphonuclear neutrophil contribution to induced tolerance to bacterial lipopolysaccharide | Q46706465 | ||
| Differential impairment of vascular reactivity of small pulmonary and systemic arteries in hyperdynamic sepsis. | Q54237003 | ||
| Sepsis-induced diastolic dysfunction in chronic canine peritonitis. | Q54328896 | ||
| Role of muscle microvasculature during hyperdynamic and hypodynamic phases of endotoxin shock in decerebrate rats. | Q54387732 | ||
| EDRF as a possible mediator of sepsis-induced arteriolar dilation in skeletal muscle | Q54682504 | ||
| Lung fluid dynamics and supply dependency of oxygen uptake during experimental endotoxic shock and volume resuscitation. | Q54694750 | ||
| Critical O2 delivery to skeletal muscle at high and low PO2 in endotoxemic dogs. | Q54729221 | ||
| Endotoxin effects on capillary transit times of RBC and plasma as measured by indicator dilution | Q67236998 | ||
| A new preparation of rat extensor digitorum longus muscle for intravital investigation of the microcirculation | Q67834650 | ||
| Distribution of red blood cell velocity in capillary network, and endothelial ultrastructure, in aged rat skeletal muscle | Q68228330 | ||
| Hyperdynamic sepsis modifies a PEEP-mediated redistribution in organ blood flows | Q68510465 | ||
| Skeletal muscle microcirculation: the effects of limited blood supply and treatment with torbafylline | Q68664471 | ||
| Histologic and ultrastructural changes in nonpulmonary organs during early hyperdynamic sepsis | Q68744273 | ||
| Hepatic parenchymal oxygen tension following injury and sepsis | Q68746601 | ||
| Red cell perfusion in skeletal muscle at rest and after mild and severe contractions | Q68816242 | ||
| Skeletal microcirculatory responses to hyperdynamic Escherichia coli sepsis in unanesthetized rats | Q68926926 | ||
| Erythrocyte deformability in canine septic shock and the efficacy of pentoxifylline and a leukotriene antagonist | Q68953556 | ||
| Microvascular responses to E. coli endotoxin with altered adrenergic activity | Q70338081 | ||
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microvessel | Q6840468 |
| sepsis | Q183134 | ||
| P304 | page(s) | 2077-2083 | |
| P577 | publication date | 1994-11-01 | |
| P1433 | published in | Journal of Clinical Investigation | Q3186904 |
| P1476 | title | Microvascular perfusion is impaired in a rat model of normotensive sepsis | |
| P478 | volume | 94 |
| Q33545585 | Acidosis and tissue hypoxia in the critically ill: how to measure it and what does it mean |
| Q46960326 | Acute peritonitis leads to early remote microvascular dysfunction |
| Q38016896 | Alterations of the Erythrocyte Membrane during Sepsis |
| Q31958833 | Ascorbate prevents microvascular dysfunction in the skeletal muscle of the septic rat. |
| Q44098585 | Ascorbate reduces mouse platelet aggregation and surface P-selectin expression in an ex vivo model of sepsis |
| Q33750678 | Assessments of skin and tongue microcirculation reveals major changes in porcine sepsis |
| Q24794238 | Bench-to-bedside review: endothelial cell dysfunction in severe sepsis: a role in organ dysfunction? |
| Q24795984 | Bench-to-bedside review: microvascular dysfunction in sepsis--hemodynamics, oxygen transport, and nitric oxide |
| Q24800640 | Bench-to-bedside review: sepsis is a disease of the microcirculation |
| Q102075457 | Comparing effects of intraoperative fluid and vasopressor infusion on intestinal microcirculation |
| Q36226452 | Contribution of the platelet activating factor signaling pathway to cerebral microcirculatory dysfunction during experimental sepsis by ExoU producing Pseudomonas aeruginosa. |
| Q51694307 | Critical oxygen delivery in conscious septic rats under stagnant or anemic hypoxia. |
| Q37825577 | Critical role for oxidative stress, platelets, and coagulation in capillary blood flow impairment in sepsis |
| Q58803471 | Differential Mechanisms of Septic Human Pulmonary Microvascular Endothelial Cell Barrier Dysfunction Depending on the Presence of Neutrophils |
| Q34140360 | Disassociation of muscle insulin signaling and insulin-stimulated glucose uptake during endotoxemia |
| Q30493116 | Early increases in microcirculatory perfusion during protocol-directed resuscitation are associated with reduced multi-organ failure at 24 h in patients with sepsis |
| Q51956313 | Effect of decreased O2 supply on skeletal muscle oxygenation and O2 consumption during sepsis: role of heterogeneous capillary spacing and blood flow. |
| Q41848476 | Effect of increased cardiac output on liver blood flow, oxygen exchange and metabolic rate during longterm endotoxin-induced shock in pigs |
| Q44582181 | Effect of nitric oxide on capillary hemodynamics and cell injury in the pancreas during Pseudomonas pneumonia-induced sepsis |
| Q30952847 | Effect of sepsis on skeletal muscle oxygen consumption and tissue oxygenation: interpreting capillary oxygen transport data using a mathematical model |
| Q33863326 | Effects of dobutamine on intestinal microvascular blood flow heterogeneity and O2 extraction during septic shock |
| Q43917690 | Effects of modest anemia on systemic and coronary circulation of septic sheep |
| Q41831082 | Electrical communication in branching arterial networks. |
| Q38845321 | Endothelial and Microcirculatory Function and Dysfunction in Sepsis. |
| Q22000728 | Enoxaparin sodium prevents intestinal microcirculatory dysfunction in endotoxemic rats. |
| Q43610555 | Erythrocyte deformability is a nitric oxide-mediated factor in decreased capillary density during sepsis |
| Q36392457 | Erythropoietin improves skeletal muscle microcirculation and tissue bioenergetics in a mouse sepsis model |
| Q36578016 | Hemodynamic management of septic shock. |
| Q33730266 | Hyperaemia |
| Q37391348 | Hypothermia protects brain mitochondrial function from hypoxemia in a murine model of sepsis |
| Q47729619 | Impact of Incremental Perfusion Loss on Oxygen Transport in a Capillary Network Mathematical Model |
| Q34618265 | Impaired microvascular perfusion in sepsis requires activated coagulation and P-selectin-mediated platelet adhesion in capillaries |
| Q40215829 | Impairments in microvascular reactivity are related to organ failure in human sepsis |
| Q31142710 | In vivo study of experimental pneumococcal meningitis using magnetic resonance imaging |
| Q44026978 | Increasing P(50) does not improve DO(2CRIT) or systemic VO(2) in severe anemia |
| Q46549649 | Inducible nitric oxide synthase inhibition improves intestinal microcirculatory oxygenation and CO2 balance during endotoxemia in pigs |
| Q42457026 | Influence of sepsis on the plasma elimination pharmacokinetics of diaspirin crosslinked hemoglobin in rats |
| Q37637820 | Inhibition of Murine Pulmonary Microvascular Endothelial Cell Apoptosis Promotes Recovery of Barrier Function under Septic Conditions. |
| Q73114477 | Intermittent flow increases endotoxin-induced adhesion of human erythrocytes to vascular endothelial cells |
| Q43726997 | Is there a place for prostacyclin in the treatment of septic shock? |
| Q43713937 | Lipopolysaccharide reduces intercellular coupling in vitro and arteriolar conducted response in vivo |
| Q44919350 | Lung albumin accumulation is spatially heterogeneous but not correlated with regional pulmonary perfusion |
| Q35964998 | Mapping 3-D functional capillary geometry in rat skeletal muscle in vivo |
| Q89338772 | Mechanisms of Hemolysis During Sepsis |
| Q37030681 | Microcirculation and oxidative stress |
| Q61450709 | Microcirculation dysfunction in endotoxic shock rabbits is associated with impaired S-nitrosohemoglobin-mediated nitric oxide release from red blood cells: a preliminary study |
| Q36259598 | Microcirculatory alterations in ischemia-reperfusion injury and sepsis: effects of activated protein C and thrombin inhibition |
| Q26798312 | Microcirculatory dysfunction and resuscitation: why, when, and how |
| Q27008088 | Microcirculatory dysfunction and tissue oxygenation in critical illness |
| Q38815302 | Microcirculatory dysfunction in sepsis: pathophysiology, clinical monitoring, and potential therapies |
| Q59330096 | Microcirculatory perfusion disturbances in septic shock: results from the ProCESS trial |
| Q27694575 | Microparticles: markers and mediators of sepsis-induced microvascular dysfunction, immunosuppression, and AKI |
| Q44045816 | Microvascular blood flow is altered in patients with sepsis |
| Q45283334 | Microvascular dysfunction and skeletal muscle oxygenation assessed by phase-modulation near-infrared spectroscopy in patients with septic shock |
| Q36259605 | Microvascular dysfunction as a cause of organ dysfunction in severe sepsis |
| Q77610240 | Microvascular oxygen pressure in the pig intestine during haemorrhagic shock and resuscitation |
| Q74210483 | Microvascular responses to sepsis: clinical significance |
| Q36259588 | Microvascular resuscitation as a therapeutic goal in severe sepsis |
| Q33688251 | Multicenter study of central venous oxygen saturation (ScvO(2)) as a predictor of mortality in patients with sepsis |
| Q33279277 | Myocardial hypoxia-inducible HIF-1alpha, VEGF, and GLUT1 gene expression is associated with microvascular and ICAM-1 heterogeneity during endotoxemia |
| Q58863636 | Nitric Oxide, Oxidative Stress, Immune Response and Critical Care |
| Q43990890 | Nitric oxide produced via neuronal NOS may impair vasodilatation in septic rat skeletal muscle |
| Q38995613 | No relationship between red blood cell distribution width and microcirculatory alterations in septic patients. |
| Q43745453 | Normovolemic hemodilution improves oxygen extraction capabilities in endotoxic shock. |
| Q44333801 | Opioid analgesics in experimental sepsis: effects on physiological, biochemical, and haemodynamic parameters. |
| Q43794530 | Organ dysfunction during sepsis |
| Q34631065 | Physiopathology of shock |
| Q35922200 | Protein kinase C δ (PKCδ)-extracellular signal-regulated kinase 1/2 (ERK1/2) signaling cascade regulates glycogen synthase kinase-3 (GSK-3) inhibition-mediated interleukin-10 (IL-10) expression in lipopolysaccharide (LPS)-induced endotoxemia |
| Q35091785 | Pulmonary microvascular albumin leak is associated with endothelial cell death in murine sepsis-induced lung injury in vivo |
| Q43918325 | Red blood cell aggregation in experimental sepsis |
| Q35152415 | Red blood cell rheology in sepsis. |
| Q30489561 | Resuscitating the microcirculation in sepsis: the central role of nitric oxide, emerging concepts for novel therapies, and challenges for clinical trials |
| Q92523427 | Resuscitation incoherence and dynamic circulation-perfusion coupling in circulatory shock |
| Q37824131 | Role of connexins in microvascular dysfunction during inflammation |
| Q40996335 | Role of pulmonary microvascular endothelial cell apoptosis in murine sepsis-induced lung injury in vivo |
| Q27339785 | Sepsis impairs microvascular autoregulation and delays capillary response within hypoxic capillaries. |
| Q36948888 | Septic impairment of capillary blood flow requires nicotinamide adenine dinucleotide phosphate oxidase but not nitric oxide synthase and is rapidly reversed by ascorbate through an endothelial nitric oxide synthase-dependent mechanism |
| Q74598620 | Septic shock |
| Q38468012 | Shock - A reappraisal: The holistic approach |
| Q24801198 | Shockingly complex: the difficult road to introducing new ideas to critical care |
| Q46604570 | Short-term hyperglycemia increases endothelial glycocalyx permeability and acutely decreases lineal density of capillaries with flowing red blood cells |
| Q53253169 | Side-by-Side Alterations in Glycocalyx Thickness and Perfused Microvascular Density During Acute Microcirculatory Alterations in Cardiac Surgery. |
| Q30423744 | Skeletal muscle capillary function: contemporary observations and novel hypotheses |
| Q46950160 | Sublingual capnometry tracks microcirculatory changes in septic patients |
| Q50464421 | Systemic microvascular shunting through hyperdynamic capillaries after acute physiological disturbances following cardiopulmonary bypass. |
| Q52861095 | Tetrahydrobiopterin improves microcirculation in experimental sepsis. |
| Q41660779 | The Effect of Sepsis on the Erythrocyte |
| Q34060215 | The dynamic regulation of microcirculatory conduit function: features relevant to transfusion medicine |
| Q48024707 | The effect of Escherichia coli endotoxin infusion on the ventilatory response to hypoxia in unanesthetized newborn piglets |
| Q48054953 | The endothelial glycocalyx promotes homogenous blood flow distribution within the microvasculature. |
| Q37587025 | The microcirculation as a diagnostic and therapeutic target in sepsis |
| Q36259593 | The microcirculation as a functional system |
| Q33282435 | The microcirculation in critically-ill patients |
| Q24633735 | The microcirculation is the motor of sepsis |
| Q40881719 | The microcirculatory failure could not weaken the increase of systematic oxygen extraction rate in septic shock: An observational study in canine models |
| Q64126793 | The prognostic value of muscle StO2 in septic patients |
| Q36009630 | Tissue capnometry: does the answer lie under the tongue? |
| Q37118378 | What is the efficiency of ATP signaling from erythrocytes to regulate distribution of O(2) supply within the microvasculature? |
| Q80697200 | [Microcirculation of intensive care patients. From the physiology to the bedside] |
Search more.