Cardiogenic shock is the most severe manifestation of acute heart failure and remains the leading cause of death in patients hospitalised with acute myocardial infarction. Cardiogenic shock is a well-known and potent trigger of the immune response, ischemia/reperfusion organ damage, hemolysis and release of free hemoglobin. The activation of immune cells leads to the release of cytokines and inflammatory mediators such as IL-6, IL-8, activated complement and others. As a result of myocardial ischaemia and reperfusion injury, a multiorgan dysfunction syndrome may develop. The Efferon CT hemoadsorption device effectively removes cytokines and other pro-inflammatory molecules (≤55 kDa). This study evaluates whether this blood-filtering therapy can prevent organ failure in acute myocardial infarction patients with cardiogenic shock by eliminating inflammation-inducing mediators.
Cardiogenic shock (CS) is a state of acute critical tissue hypoperfusion caused by impaired myocardial contractility. It is one of the most serious complications of acute coronary syndrome (ACS), particularly acute myocardial infarction (AMI). Cardiogenic shock develops in approximately 30-40% of ACS patients, with a one-year mortality rate of 50-60%. Despite advances in modern cardiology-including widespread use of timely revascularization, vasopressors, inotropic agents, and mechanical circulatory support-CS-related mortality remains unacceptably high. Efferent therapy, which modulates the homeostasis of biological fluids (e.g., blood) through physical and chemical methods (filtration, apheresis, sorption), represents a promising approach. Recent studies on the hemoadsorbent CytoSorb in acute cardiac pathology demonstrated reductions in inflammatory markers (IL-6, lactate), improved hemodynamic stability, and lower 30-day ICU mortality (52% vs. 80% SOFA-predicted). These findings highlight the potential of cytokine adsorption to mitigate systemic inflammation in CS. The Efferon CT hemoadsorption device, which effectively removes cytokines and other pro-inflammatory molecules (≤55 kDa), may improve outcomes by alleviating CS symptoms and preventing multiple organ dysfunction.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
60
Efferon CT (JSC Efferon, Moscow, RF) is a device for extracorporeal blood purification by direct hemoadsorption. Detoxification is carried out by sorption of cytokines and other products of endogenous intoxication with a molecular size of up to 55 kDa. The therapy will be performed once no later than 4 hours after the diagnosis of cardiogenic shock. The duration of hemoadsorption is from 4 to 12 hours. The rate of hemoadsorption is from 80 to 150 ml/min. Anticoagulation is systemic (heparin or sodium citrate).
Tomsk NRMC Cardiology Research Institute
Tomsk, Russia
RECRUITINGTime to Resolution of Cardiogenic Shock (Days)
Time from randomization to sustained hemodynamic stabilization, defined as: Mean arterial pressure (MAP) ≥65 mmHg and Heart rate ≤110 bpm and Cessation of vasopressors/inotropes (e.g., norepinephrine, dopamine) and mechanical circulatory support (MCS). Persistence of all criteria for ≥4 consecutive hours
Time frame: 1-7 days
Need for vasopressor support
Need for vasopressors according to the VIS 2020 heart rate scale (Vasoactive inotropic score), measure every 12 hours. VIS is calculated as a weighted sum of all administered vasoactive inotropic agents.
Time frame: 0-72 hours
Pulmonary oxygen metabolic function
Measuring PaO2 / FiO2 index every 24 hours
Time frame: 1-7 days
SOFA score
The SOFA (Sequential Organ Failure Assessment) index is equal to the sum of six indicators. The higher the score, the greater the insufficiency of the system being assessed. The higher the overall index, the greater the degree of multiorgan dysfunction. Violation of the function of each organ (system) is assessed separately in dynamics against the background of intensive therapy. With a score of no more than 12, multiple organ dysfunctions are assumed, 13-17 points indicate the transition of dysfunction to insufficiency, a score of about 24 indicates a high probability of death. The lower the SOFA index, the less pronounced organ failure and the better the patient's survival prognosis. Calculation every 24 hours.
Time frame: 1-7 days
Duration of ventilation
The time (hours) from the onset of hemoadsorption to the time of disconnection from the ventilator within 7 days or discharge from hospital or transfer from intensive care (if earlier than 7 days).
Time frame: 1-7 days
ICU length of stay
Time (days) from the start of hemoadsorption to transfer from the ICU within 7 days or hospital discharge (if earlier than day 7).
Time frame: 1-7 days
Hospital length of stay
Time (days) from the start of hemoadsorption to hospital discharge.
Time frame: 1-7 days
Incidence and severity of AKI
Frequency of AKI (AKI verified by KDIGO 2012 criteria) and duration (hours) of RRT in patients with AKI
Time frame: 1-7 days
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