Microcirculatory Guided Goal Directed Fluid Therapy in Septic Shock; a Feasibility Study
Septic ShockProspective single centre study to assess the feasibility of fluid resuscitation guided by macrocirculatory and microcirculation parameters in patients in the early stages of septic shock. The investigators will utilise a novel point of care tool to assess microcirculatory sublingual perfusion in patients with septic shock. This, in combination with conventional haemodynamic monitoring will determine the timing and volume of resuscitative fluid administration. The feasibility of this technique will be determined prior to embarking on a pilot RCT.
Albumin Replacement Therapy in Septic Shock
Septic ShockAlbumin is a key regulator of fluid distribution within the extracellular space and possesses several properties beyond its oncotic activity, including binding and transport of several endogenous molecules, anti-inflammatory and anti-oxidant actions, nitric oxide modulation, and buffer function. The accumulating evidence suggests that supplementation of albumin may provide survival advantages only when the insult is severe as in patients with septic shock. Prospective randomized trials on the possible impact of albumin replacement in these patients with septic shock are lacking. The aim of the study is to investigate whether the replacement with albumin and the maintenance of its serum levels at least at 30 g/l for 28 days improve survival in patients with septic shock compared to resuscitation and volume maintenance without albumin. In this prospective, multicenter, randomised trial, adult patients (≥18 years) with septic shock will be randomly assigned within a maximum of 24 hours after the onset of septic shock after obtaining informed consents to treatment or control groups. Patients assigned to the treatment group will receive a 60 g loading dose of human albumin 20% over 2-3 hours. Serum albumin levels will be maintained at least at 30 g/l in the ICU for a maximum of 28 days following randomization using 40-80 g human albumin 20% infusion. The control group will be treated according to the usual practice with crystalloids as the first choice for the resuscitation and maintenance phase of septic shock. The primary end point is 90 days mortality and secondary end points include 28-day, 60-day, ICU, and in-hospital mortality, organ dysfunction/failure, and length of ICU and hospital stay. In total 1412 patients need to be analyzed, 706 per group. Assuming a dropout rate of 15%, a total of 1662 patients need to be allocated.
Peripheral Perfusion Versus Lactate Targeted Fluid Resuscitation in Septic Shock
Septic ShockHyperlactatemia1 morePersistent hyperlactatemia has been traditionally considered as representing tissue hypoxia, and lactate normalization is recommended as a resuscitation target by the Surviving Sepsis Campaign (SSC). However, other sources contribute to hyperlactatemia such as sustained adrenergic activity and impaired lactate clearance. Only hypoperfusion-related hyperlactatemia might be reversed by optimizing systemic blood flow. Fluid resuscitation (FR) is used to improve cardiac output (CO) in septic shock to correct hypoperfusion. Nevertheless, if persistent hyperlactatemia is not hypoxia-related, excessive FR could lead to flow overload. In addition, kinetics of recovery of lactate is relatively slow, and thus it might be a suboptimal target for FR. Peripheral perfusion appears as a promising alternative target. Abnormal capillary refill time (CRT) is frequently used as trigger for FR in septic shock. Studies demonstrated the strong prognostic value of persistent abnormal peripheral perfusion, and some recent data suggest that targeting FR on CRT normalization could be associated with less fluid loading and organ dysfunctions. The excellent prognosis associated with CRT recovery, the rapid-response time to fluid loading, its simplicity, and its availability in resource-limited settings, constitute a strong background to promote studies evaluating its usefulness to guide FR . The study hypothesis is that a CRT-targeted FR is associated with less positive fluid balances, organ dysfunctions, and at least similar improvement of tissue hypoperfusion or hypoxia, when compared to a lactate-targeted FR. To test this hypothesis, the investigators designed a clinical physiological, randomized controlled trial in septic shock patients. Recruited patients will be randomized to FR aimed at normalizing CRT or normalizing or decreasing lactate >20% every 2 h during the study period. Fluid challenges (500 ml in 30 min intervals) will be repeated until perfusion target is achieved, or dynamic predictors of fluid responsiveness become negative, or a safety limit is reached. The design of our study is aimed at: a) determining if CRT targeted resuscitation is associated with less fluid resuscitation and fluid balances; b) determining if this strategy is associated with less organ dysfunctions; and c) if it results in similar improvement in markers of tissue hypoperfusion or hypoxia such as hepato-splanchnic blood flow or microcirculatory perfusion.
Lidocaine as an Adjuvant for Ketamine in Induction of Anesthesia in Septic Shock Patients
Septic ShockAnesthesiaThe aim of the work is to investigate the effect of using lidocaine in combination with low dose ketamine in induction of anesthesia for septic shock patients compared to normal dose of ketamine.
Peripheral Venous Analysis (PIVA) for Predicting Volume Responsiveness and Fluid Status
Systemic Inflammatory Response SyndromeDistributive Shock4 moreThe aim of this study is to determine the effects of fluid alternations, hemodynamic changes, mechanical ventilation, pharmacologic agents, positional changes, and comorbidities on the Peripheral Intravenous waveform Analysis (PIVA) signal.
Early Versus Late CRRT in ACLF Patients With Septic Shock and AKI
Septic Shock and Acute Kidney InjuryConsecutive patients with ACLF (Acute on Chronic Liver Failure) and septic shock with AKI (Acute Kidney Injury) who give written informed consent will be included in this prospective trial at ILBS. At baseline s, endotoxin levels, NT-Pro BNP, , urine N-GAL will be done for all patients. A 10 ml serum sample will be stored for doing a cytokine profile. Septic shock will be defined by the presence of two or more diagnostic criteria for the systemic inflammatory response syndrome, proven or suspected infection with hypotension non-responsive to adequate fluid resuscitation assessed by no evidence of stroke volume variation on flow track and need of a vasopressor to achieve a target mean arterial pressure (MAP) of ≥ 65 mm Hg. A record of CVP, IVC diameter and B-lines on ultrasound lung would also be done. Patients with age less than 18 years, severe known cardiopulmonary disease (structural or valvular heart disease, coronary artery disease, COPD) pregnancy, chronic kidney disease, patients already meeting emergency criteria for immediate hemodialysis at the time of randomization as specified in the late group, patients transferred from other hospitals who have already been on hemodialysis before their arrival in the intensive care unit, extremely moribund patients with an expected life expectancy of less than 24 hours, failure to give informed consent from family members.
Ivabradine for Heart Rate Control In Septic Shock
Septic ShockSeptic shock is a major health problem, with several million cases annually worldwide and a mortality approaching 45%. Tachycardia is associated with excess mortality during septic shock. This pejorative effect could be related to the increase in cardiac metabolic demand, impaired cardiac diastolic function, and/or poorer tolerance of administered exogenous catecholamines. Recent studies suggest that controlling the heart rate with the use of beta blockers has beneficial effects on the morbidity and mortality of septic shock. However, the negative effects of beta-blockers on cardiac contractility and blood pressure complicate their use during septic shock, particularly because about one-half of patients exhibit a septic-associated systolic dysfunction, which often requires the use of inotropes. Ivabradine is a selective inhibitor of If channels in the sinoatrial node. It is a pure bradycardic agent with no deleterious effect on other aspects of cardiac function (contractility, conduction and repolarization) nor on blood pressure. Ivabradine can therefore alleviate sinus tachycardia without negative inotropic effects nor hypotension. Moreover, the improvement in diastolic function (ventricular filling) with ivabradine may increase stroke volume, even in case of severe impairment of systolic function. Controlling sinus tachycardia with ivabradine during septic shock would allow reducing cardiac metabolic demand (and potentially associated ischemic events) and improving the chronotropic tolerance of exogenous catecholamines. The effectiveness of ivabradine in controlling the heart rate was demonstrated in various clinical settings such as coronary artery disease, chronic heart failure and cardiogenic shock. Encouraging preliminary data are reported in critically ill patients.
Methylene Blue and Microcirculation in Septic Shock
Septic ShockThis trial aims to identify the effects of methylene blue infusion on the the micro-circulation in patients with septic shock. The investigators will evaluate various indices of micro-circulation such as: microvascular flow index, the flow heterogeneity index, the total vessel density, the perfused vessel density, and the proportion of perfused vessels.
The Effect of Simultaneous Renal Replacement Therapy on Extracorporeal Membrane Oxygenation Support...
Cardiogenic ShockExtracorporeal membrane oxygenation (ECMO) is a temporary mechanical circulatory support device for cardiogenic shock (CS) patients. During ECMO support, renal replacement therapy (RRT) facilitate more rapid metabolic or uremic control and more effective prevention and management of fluid overload which happened in critical state. CS patients who are likely to receive ECMO support will be enrolled and randomized with a 1:1 allocation to a simultaneous RRT arm vs. standard care arm. The patients in the simultaneous RRT arm will receive RRT when ECMO is commenced. The patients in the standard care arm will not receive RRT when ECMO is commenced. Only when a patient demonstrates AKI and fulfills any one of the criteria of the conventional RRT indication during ECMO support or after ECMO weaning, conventional-indication RRT would be delivered. The primary outcome is all-cause 30-day mortality after ECMO is commenced
Effect of Monitoring of Pulse Index Continuous Cardiac Output (PiCCO) on Shock Patients in Intensive...
ShockPiCCO has become a widely used haemodynamic monitoring device in the management of shock patients in ICU patients nowadays. But the effects on outcome of use of Picco, such as hospital mortality, vasoactive agents-free days, intensive care unit, and mechanical ventilation-free days and change of lactate and BNP in shock patients has not been determined. Patients will be randomly assigned to a Picco group or the control group, hospital mortality, vasoactive agents-free days, intensive care unit, and mechanical ventilation-free days and change of lactate and BNP will be observed. The conclusion will supply evidence for the clinical effectiveness of Picco in shock patients.