Active clinical trials for "Shock, Septic"

Septic shock remains a major public health problem in industrialized countries, with a mortality rate as high as 50%, largely related to multiple organ dysfunction. In addition to dysregulated inflammatory response, the pathophysiology of organ failures in septic shock involves ischemia-reperfusion processes. Remote ischemic conditioning is a therapeutic strategy for protecting organs against the detrimental effects of ischemia-reperfusion injury. The objective of the present study is to determine whether remote ischemic conditioning can limit the severity of organ failure in patients with septic shock.

In this prospective clinical study, the investigators compare the outcome and clinical course of consecutive septic participants treated with intravenous vitamin C, hydrocortisone, and thiamine (treatment group) with a control group treated in the investigators' ICU. The primary outcome is hospital survival. A propensity score is generated to adjust the primary outcome.There is 70 participants in each group.

Septic shock is a highly lethal condition associated with a mortality risk of 30 to 60%. Optimizing tissue perfusion and oxygenation is the aim to decrease mortality and morbidity in septic shock patients. Persistent hyperlactatemia after initial resuscitation is particularly difficult to interpret, although optimizing systemic blood flow might reverse ongoing hypoperfusion. Nevertheless, if persistent hyperlactatemia is caused by non-hypoperfusion-related mechanisms, then sustained efforts aimed at increasing cardiac output (CO) could lead to detrimental effects of excessive fluids or inotropes. Another potential alternative resuscitation target is peripheral perfusion as assessed by capillary refill time (CRT), mottling score or central-to-toe temperature differences. Reversal of abnormal peripheral perfusion might represent improvement in tissue hypoperfusion with the advantage of a faster recovery than lactate. Hypothesis: Peripheral perfusion guided resuscitation in septic shock is associated with lower mortality, less organ dysfunctions, less mechanical ventilation (MV), less vasopressor load, and less renal replacement therapies than a lactate-targeted resuscitation strategy. Main Objective To test if peripheral perfusion targeted resuscitation in septic shock is associated with lower 28-day mortality than a lactate targeted resuscitation. Design: Multicenter, Parallel Assignment randomized controlled study, conducted under supervision of an independent Data Safety Monitoring Board (DSMB). Interventions: Active Comparator- Peripheral Perfusion guided resuscitation Active Comparator- Lactate guided resuscitation Randomization: 1:1 the randomization using a block size of eight will be stratified according to participating centers. Trial size: 400 randomized patients in 30 ICUs.

We performed a multicenter, prospective, randomized, double-blind, pilot study in four adult medical intensive care units. Patients presenting septic shock were rapidly administered one of two regimens of hydrocortisone, either a 50-mg intravenous bolus every six hours during seven days (200-mg group) or a 100-mg initial bolus followed by a continuous infusion of 300 mg daily for five days (300-mg group). Hydrocortisone was stopped abruptly at the end of treatment.

The aim of this study is to evaluate the efficacy of early metabolic resuscitation with combination therapy using vitamin C and thiamine in improving organ function and survival in patients with septic shock.

Persistent tachycardia in sepsis or multi-organ dysfunction syndrome (MODS) is an ominous sign. This usually comes under control with judicious use of antibiotics, fluid resuscitation, sedation. Uncontrolled tachycardia in systemic inflammatory response syndrome and sepsis deprives the heart muscle of oxygen. As it progresses, insufficient heart muscle nutrition eventually leads to myocardial dysfunction. It can also present as heart failure. In acute coronary syndromes, beta blockers are used to control heart rate. However in MODS, it cannot be used due to hemodynamic instability and worsened myocardial function. Sinoatrial (SA) myocytes are the pacemaker cells in the heart. Pacemaker activity involves several ionic currents that influences spontaneous depolarization of SA node including I(f) current. The word I(f) means funny, because this current has unusual properties as compared with other currents known at the time of its discovery. It is one of the most important ionic current for regulating pacemaker activity in SA node. Ivabradine is an I(f) current inhibitor in SA node. Currently, it is the only agent shown to clinically lower heart rate with no negative inotropism or effects on conduction and contractility.so usage of Ivabradine to control tachycardia in patients with septic shock may help to improve myocardial filling and cardiac output. Marcos L.Miranda et al. found that Ivabradine was effective in reducing microvascular derangements evoked by experimental sepsis, which was accompanied by less organ dysfunction. These results suggest that ivabradine yields beneficial effects on the microcirculation of septic animals. No data found on effect of Ivabradine on the microcirculation of human. In this study the investigators will investigate the effect of Ivabradine on perfusion in capillary circulation using Cytocam video microscope, Braedius®.

The investigators propose a dose finding study to determine the feasibility of Angiotensin II (AII) to increase mean arterial pressure in high-output shock. If AII can be shown to increase mean arterial pressure, this could lead to future pharmacologic development based on the AII hormonal pathway. The investigators propose a 20 patient, randomized, placebo-controlled, blinded study in the treatment of high-output shock. Patients with high-output shock and a cardiovascular SOFA (sequential organ failure score) score of > 4 will be eligible. In addition, patients must already be receiving cardiac output monitoring and have a cardiac index > 2.4 L/min/ 1.73 m2. Patients will be randomized to intravenous AII or saline in a blinded fashion. There will be 10 patients in each arm. This is a safety and dose finding feasibility study. The investigators are starting with a small cohort consistent with similar types of studies. The investigators estimate that ten patients in each arm will generate a basis for determining if there is sufficient signal for AII to improve blood pressure at the doses outlined. The primary endpoint in the study will be the effect of AII on the standing dose of norepinephrine which is required to maintain a MAP of 65 mmHg. Secondary endpoints will be the effect of AII on urine output, serum lactate, and creatinine clearance. 30 day post dose mortality will also be assessed. Subjects discharged prior to day 30 will be contacted by telephone for this assessment.

The primary purpose of this study to evaluate the effect of two different doses of AZD9773 (CytoFab™) versus placebo on ventilator free days (VFDs) over the first 28 days after the start of dosing with AZD9773 in patients with severe sepsis and/or septic shock, who are already receiving appropriate standard of care treatment for sepsis.

Patients with blood poisoning - sepsis - often receive blood transfusions in the intensive care unit. The evidence that blood transfusion leads to improved outcome is limited and the blood may be harmful to some of these patients. To bridge the gap between clinical practice and evidence, a large randomised clinical trial is needed to document the efficacy and safety of RBC transfusion in these very sick patients

The present study was conducted as a prospective, randomized, controlled study to: investigate the effects of a combination of levosimendan and inhaled nitric oxide on systemic hemodynamics and microcirculation in patients with catecholamine-dependent septic shock; test the hypothesis that levosimendan plus inhaled nitric oxide may be effective in restoring microvascular function in septic shock.