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State of the evidence: mechanical ventilation with PEEP in patients with cardiogenic shockStarling curves and central venous pressureFocused critical care echocardiography.Immediate fluid management of children with severe febrile illness and signs of impaired circulation in low-income settings: a contextualised systematic reviewThe fluid management of adults with severe malariaComparison of outcomes from sepsis between patients with and without pre-existing left ventricular dysfunction: a case-control analysisRenin-angiotensin system activation correlates with microvascular dysfunction in a prospective cohort study of clinical sepsis.Surviving the first hours in sepsis: getting the basics right (an intensivist's perspective).Increased fluid administration in the first three hours of sepsis resuscitation is associated with reduced mortality: a retrospective cohort study.What happens to the fluid balance during and after recovering from septic shock?Restrictive Fluid Resuscitation Leads to Better Oxygenation than Non-Restrictive Fluid Resuscitation in Piglets with Pulmonary or Extrapulmonary Acute Respiratory Distress Syndrome.Response to fluid boluses in the fluid and catheter treatment trial.Applying dynamic parameters to predict hemodynamic response to volume expansion in spontaneously breathing patients with septic shock.Renal hypoxia and dysoxia after reperfusion of the ischemic kidney.Totem and taboo: fluids in sepsisA critique of fluid bolus resuscitation in severe sepsis.Hemodynamic consequences of auto-PEEP.Evaluating the adequacy of fluid resuscitation in patients with septic shock: controversies and future directions.The evolving concepts of haemodynamic support: from pulmonary artery catheter to echocardiography and theragnostics.The Physiology of Early Goal-Directed Therapy for Sepsis.Effects of cardiac output on the initial distribution volume of glucose in the absence of fluid gain or loss in pigs.Fluid resuscitation for paediatric sepsis: A survey of senior emergency physicians in Australia and New Zealand.Duration of hemodynamic effects of crystalloids in patients with circulatory shock after initial resuscitation.Sepsis: A Review of Advances in Management.The prevention of acute kidney injury: an in-depth narrative review Part 1: volume resuscitation and avoidance of drug- and nephrotoxin-induced AKIBrachial artery flow velocity variation: another victory for hand-carried ultrasound?The GENESIS project (GENeralized Early Sepsis Intervention Strategies): a multicenter quality improvement collaborative.Inferior vena cava variation compared to pulse contour analysis as predictors of fluid responsiveness: a prospective cohort study.Focused cardiac ultrasound in the early resuscitation of severe sepsis and septic shock: a prospective pilot study.[Volume replacement in intensive care medicine].Current concepts in resuscitation.Fuzzy Modeling to Predict Severely Depressed Left Ventricular Ejection Fraction following Admission to the Intensive Care Unit Using Clinical Physiology.Cumulative positive fluid balance is a risk factor for acute kidney injury and requirement for renal replacement therapy after liver transplantation.[Adequate fluid resuscitation in septic shock with high catecholamine doses].
P2860
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P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Fluid therapy in resuscitated sepsis: less is more.
@en
Fluid therapy in resuscitated sepsis: less is more.
@nl
type
label
Fluid therapy in resuscitated sepsis: less is more.
@en
Fluid therapy in resuscitated sepsis: less is more.
@nl
prefLabel
Fluid therapy in resuscitated sepsis: less is more.
@en
Fluid therapy in resuscitated sepsis: less is more.
@nl
P356
P1433
P1476
Fluid therapy in resuscitated sepsis: less is more
@en
P2093
Lakshmi Durairaj
P304
P356
10.1378/CHEST.07-1496
P407
P577
2008-01-01T00:00:00Z