Clinical trials for
Translating trial titles and descriptions to plain English...
Sepsis is a state of multiple organ dysfunction caused by a generalized immune-inflammatory response of the body to an infectious agent, with pronounced heterogeneity and interchangeability of clinical and laboratory manifestations. Violation of autoregulation and multiple organ dysfunctions in case of not timely started and / or ineffective therapy lead to the development of multiple organ failure and thanatogenesis in 40-90% of cases. At the moment, there is no standardized approach to the treatment of the entire pool of sepsis patients. Pharmacological effects on receptors for interleukins and endotoxin, antibiotic therapy and immunoprotection do not allow taking the process under complete control. The pathogenesis and clinical diversity of manifestations dictates the need for a personalized approach based on identifying a group of patients with homogeneous characteristics and the course of the process, where one or another technique would have the greatest benefit. The choice of tactics for extracorporeal therapy should be based on early support of organ function and consistent elimination of high concentrations of trigger compounds (endotoxin, other metabolic products of microorganisms and products of cytolysis of a macroorganism), as well as aimed at minimizing the loss of proteins and immune complexes. The aim of this clinical study was to assess the efficacy and safety of the selective adsorption of endotoxin in patients with severe multiple organ dysfunction after complicated cardiac surgery.
This observational pilot study aims to establish criteria for evaluating the effectiveness of hemoadsorption with the Efferon LPS device in adult patients with burn injury. Participants will be prospectively enrolled into the treatment group and compared with a retrospectively selected control group. Each patient in the treatment group will undergo two hemoadsorption sessions, each lasting 6-12 hours, with a 24 hours interval between sessions. The procedures may be performed in combination with hemofiltration or hemodiafiltration at the investigator's discretion.
To evaluate the decreasing rate of blood IL-6, β2-MG and PTH in maintenance hemodialysis patients in the 52nd week compared with routine hemodialysis.
The goal of this clinical trial is to learn if complement factor I (CFI) works to predict development of complications in participants with leptospirosis. It will also learn if plasma transfusion, hemoperfusion, and extracorporeal membrane oxygenation works to treat participants with leptospirosis. The main questions it aims to answer are: * Does a low level of CFI predict the development of lung damage in participants with leptospirosis? * Does plasma tranfusion lower the chances of participants getting lung damage from leptospirosis? * Does hemoperfusion work to remove harmful materials from the blood of participants with leptospirosis? * Does extracorporeal membrane oxygenation increase the chance of survival in participants with lung damage? Researchers will compare plasma tranfusion and hemoperfusion to conventional therapy (standard of care for leptospirosis, including antibiotics, fluids, and other treatment that the doctor deems necessary) to see if these novel therapies work to treat leptospirosis. Participants will: * Give blood samples for the study of CFI * Receive conventional therapy and/or plasma transfusion for 4 times in 2 days, OR * Receive conventional therapy and/or hemoperfusion for at least 3 days, AND/OR * Receive extracorporeal membrane oxygenation if their condition worsens
Acute liver failure patients posed high mortality rate despite receiving standard therapy. The severity and mortality even higher in patients with underlying liver disease. Acute liver failure cause hyperinflammatory response in early stage and immunoparalysis in later stage. The surge of proinflammatory cytokines leads to multiorgan failure and more liver injury. Subsequent immunoparalysis may lead to lethal secondary infections. Liver support system had been used in acute and acute ontop chronic liver disease for last several decades. Double plasma molecular adsorption system (DPMAS) is one of the promising non-biological liver support system that have been extensively investigated in acute ontop chronic liver failure from hepatits B viral. DPMAS circuit consist of BS330 (bilirubin adsorber) and HA330 (Cytokines adsorber). Thus, DPMAS can also remove various cytokines. The effect of DPMAS on immune function in these patients has not been explored. Recent randomized controlled trial by Srisawat et al. demonstrated improvement of mHLA-DR in septic shock patients who received polymyxin B extracorporeal therapy compare to control arm. Since liver failure show change of immunological profile resemble to sepsis. Investigators proposed that removal of toxic liver toxins and lethal cytokines by DPMAS will improve immunological profiles in acute ontop chronic liver failure patients. Investigators plan to conduct a randomized controlled trial in acute ontop chronic liver failure patients who admitted to intensive care unit. Investigators plan to compare the immunomodulatory effects of DPMAS with standard treatments.
The goal of the study is to evaluate the safety and efficacy of multimodal (cytokine and lipopolysaccharide) hemoperfusion using the Efferon® LPS device in combination with hemofiltration (HF) / hemodiafiltration (HDF), with the goal of reducing the severity of organ dysfunction (measured by SOFA score) in patients with acute pancreatitis. Participants will be assigned to two groups for comparison: a control group receiving baseline therapy with HF/HDF, and a treatment group receiving baseline therapy in combination with HF/HDF and Efferon® LPS hemoadsorption.The therapy will be initiated within the first 24 hours after ICU admission and within 8 hours after patient enrollment.
Low-level interventional clinical trial to evaluate the effectiveness and safety of extracorporeal support with hemoperfusion in critical patients with septic multiorgan dysfunction syndrome.
The primary object of this clinical study is to investigate the efficacy and the safety of NOA-001 in patients with ARDS (ARDS caused by Non-COVID-19 or COVID-19).
Mortality from severe acute pancreatitis reaches 42%. The prognosis of acute pancreatitis is associated with the development of acute inflammatory response syndrome (SIRS) and multiple organ failure (MOF). Due to the lack of etiological therapy, the treatment of acute pancreatitis is predominantly symptomatic. Severity and mortality are associated with early systemic inflammatory response syndrome (SIRS) and septic complications in the later stages of the disease. In connection with a pronounced inflammatory reaction ("cytokine storm") in the early phase of endogenous intoxication of acute pancreatitis, a promising therapeutic approach is the extracorporeal removal of cytokines. This prospective study intends to study the effect of hemoperfusion (Efferon CT) in combination with high-volume hemofiltration (HVHF) on the severity of symptoms of endogenous intoxication and indicators of organ dysfunction in acute pancreatitis.
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.
This single-center, prospective cohort Study evaluates whether adding the pHA130 hemoperfusion cartridge to conventional hemodialysis (HD) or hemodiafiltration (HDF) more effectively reduces protein-bound uremic toxins-specifically indoxyl sulfate (IS) and p-cresyl sulfate (PCS)-in maintenance HD patients. Adults on thrice-weekly, 4-hour HD for at least three months are randomized to one of three arms: HD/HDF alone; HD/HDF plus biweekly pHA130 hemoperfusion; or HD/HDF plus biweekly HA130 hemoperfusion. After a four-week washout, toxin levels are measured at baseline and again at Weeks 4, 12, and 24, with the primary endpoint being the reduction in IS and PCS at Week 24. Secondary endpoints include single-session toxin removal, middle-molecule clearance (β₂-microglobulin, PTH), patient-reported outcomes (itching, sleep, quality of life), and rates of hospitalization and mortality. Safety is closely monitored through adverse event reporting and consistent anticoagulation dosing. Findings will clarify the clinical value of pHA130 hemoperfusion for improving toxin clearance and guiding optimal dialysis strategies.
This randomized controlled study aims to evaluate the efficacy and safety of intraoperative and early postoperative hemoadsorption using the Efferon® LPS device in patients undergoing cardiac surgery with cardiopulmonary bypass in reducing the incidence and severity of multiple organ dysfunction syndrome (MODS) in the postoperative period. Each patient in the treatment group will undergo two hemoadsorption sessions: first during cardiopulmonary bypass (CPB) at the time of cardiac surgery, with the duration determined by the CPB time, and second within 24 hours postoperatively, for a minimum duration of 6 hours.
This observational pilot study aims to identify criteria for evaluating the effectiveness of hemoadsorption with the Efferon LPS NEO device in pediatric burn injury. Participants will be prospectively assigned to the treatment group and compared with a retrospectively selected control group. Each patient in the treatment group will undergo two hemoadsorption sessions, each lasting 6-12 hours, with an interval of 24-120 hours between procedures. The sessions may be performed in combination with hemofiltration or hemodiafiltration at the discretion of the investigator.
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Trials actively recruiting for Hemoperfusion
Translating trial titles and descriptions to plain English...
Sepsis is a state of multiple organ dysfunction caused by a generalized immune-inflammatory response of the body to an infectious agent, with pronounced heterogeneity and interchangeability of clinical and laboratory manifestations. Violation of autoregulation and multiple organ dysfunctions in case of not timely started and / or ineffective therapy lead to the development of multiple organ failure and thanatogenesis in 40-90% of cases. At the moment, there is no standardized approach to the treatment of the entire pool of sepsis patients. Pharmacological effects on receptors for interleukins and endotoxin, antibiotic therapy and immunoprotection do not allow taking the process under complete control. The pathogenesis and clinical diversity of manifestations dictates the need for a personalized approach based on identifying a group of patients with homogeneous characteristics and the course of the process, where one or another technique would have the greatest benefit. The choice of tactics for extracorporeal therapy should be based on early support of organ function and consistent elimination of high concentrations of trigger compounds (endotoxin, other metabolic products of microorganisms and products of cytolysis of a macroorganism), as well as aimed at minimizing the loss of proteins and immune complexes. The aim of this clinical study was to assess the efficacy and safety of the selective adsorption of endotoxin in patients with severe multiple organ dysfunction after complicated cardiac surgery.
This observational pilot study aims to establish criteria for evaluating the effectiveness of hemoadsorption with the Efferon LPS device in adult patients with burn injury. Participants will be prospectively enrolled into the treatment group and compared with a retrospectively selected control group. Each patient in the treatment group will undergo two hemoadsorption sessions, each lasting 6-12 hours, with a 24 hours interval between sessions. The procedures may be performed in combination with hemofiltration or hemodiafiltration at the investigator's discretion.
To evaluate the decreasing rate of blood IL-6, β2-MG and PTH in maintenance hemodialysis patients in the 52nd week compared with routine hemodialysis.
The goal of this clinical trial is to learn if complement factor I (CFI) works to predict development of complications in participants with leptospirosis. It will also learn if plasma transfusion, hemoperfusion, and extracorporeal membrane oxygenation works to treat participants with leptospirosis. The main questions it aims to answer are: * Does a low level of CFI predict the development of lung damage in participants with leptospirosis? * Does plasma tranfusion lower the chances of participants getting lung damage from leptospirosis? * Does hemoperfusion work to remove harmful materials from the blood of participants with leptospirosis? * Does extracorporeal membrane oxygenation increase the chance of survival in participants with lung damage? Researchers will compare plasma tranfusion and hemoperfusion to conventional therapy (standard of care for leptospirosis, including antibiotics, fluids, and other treatment that the doctor deems necessary) to see if these novel therapies work to treat leptospirosis. Participants will: * Give blood samples for the study of CFI * Receive conventional therapy and/or plasma transfusion for 4 times in 2 days, OR * Receive conventional therapy and/or hemoperfusion for at least 3 days, AND/OR * Receive extracorporeal membrane oxygenation if their condition worsens
Acute liver failure patients posed high mortality rate despite receiving standard therapy. The severity and mortality even higher in patients with underlying liver disease. Acute liver failure cause hyperinflammatory response in early stage and immunoparalysis in later stage. The surge of proinflammatory cytokines leads to multiorgan failure and more liver injury. Subsequent immunoparalysis may lead to lethal secondary infections. Liver support system had been used in acute and acute ontop chronic liver disease for last several decades. Double plasma molecular adsorption system (DPMAS) is one of the promising non-biological liver support system that have been extensively investigated in acute ontop chronic liver failure from hepatits B viral. DPMAS circuit consist of BS330 (bilirubin adsorber) and HA330 (Cytokines adsorber). Thus, DPMAS can also remove various cytokines. The effect of DPMAS on immune function in these patients has not been explored. Recent randomized controlled trial by Srisawat et al. demonstrated improvement of mHLA-DR in septic shock patients who received polymyxin B extracorporeal therapy compare to control arm. Since liver failure show change of immunological profile resemble to sepsis. Investigators proposed that removal of toxic liver toxins and lethal cytokines by DPMAS will improve immunological profiles in acute ontop chronic liver failure patients. Investigators plan to conduct a randomized controlled trial in acute ontop chronic liver failure patients who admitted to intensive care unit. Investigators plan to compare the immunomodulatory effects of DPMAS with standard treatments.
The goal of the study is to evaluate the safety and efficacy of multimodal (cytokine and lipopolysaccharide) hemoperfusion using the Efferon® LPS device in combination with hemofiltration (HF) / hemodiafiltration (HDF), with the goal of reducing the severity of organ dysfunction (measured by SOFA score) in patients with acute pancreatitis. Participants will be assigned to two groups for comparison: a control group receiving baseline therapy with HF/HDF, and a treatment group receiving baseline therapy in combination with HF/HDF and Efferon® LPS hemoadsorption.The therapy will be initiated within the first 24 hours after ICU admission and within 8 hours after patient enrollment.
Low-level interventional clinical trial to evaluate the effectiveness and safety of extracorporeal support with hemoperfusion in critical patients with septic multiorgan dysfunction syndrome.
The primary object of this clinical study is to investigate the efficacy and the safety of NOA-001 in patients with ARDS (ARDS caused by Non-COVID-19 or COVID-19).
Mortality from severe acute pancreatitis reaches 42%. The prognosis of acute pancreatitis is associated with the development of acute inflammatory response syndrome (SIRS) and multiple organ failure (MOF). Due to the lack of etiological therapy, the treatment of acute pancreatitis is predominantly symptomatic. Severity and mortality are associated with early systemic inflammatory response syndrome (SIRS) and septic complications in the later stages of the disease. In connection with a pronounced inflammatory reaction ("cytokine storm") in the early phase of endogenous intoxication of acute pancreatitis, a promising therapeutic approach is the extracorporeal removal of cytokines. This prospective study intends to study the effect of hemoperfusion (Efferon CT) in combination with high-volume hemofiltration (HVHF) on the severity of symptoms of endogenous intoxication and indicators of organ dysfunction in acute pancreatitis.
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.
This single-center, prospective cohort Study evaluates whether adding the pHA130 hemoperfusion cartridge to conventional hemodialysis (HD) or hemodiafiltration (HDF) more effectively reduces protein-bound uremic toxins-specifically indoxyl sulfate (IS) and p-cresyl sulfate (PCS)-in maintenance HD patients. Adults on thrice-weekly, 4-hour HD for at least three months are randomized to one of three arms: HD/HDF alone; HD/HDF plus biweekly pHA130 hemoperfusion; or HD/HDF plus biweekly HA130 hemoperfusion. After a four-week washout, toxin levels are measured at baseline and again at Weeks 4, 12, and 24, with the primary endpoint being the reduction in IS and PCS at Week 24. Secondary endpoints include single-session toxin removal, middle-molecule clearance (β₂-microglobulin, PTH), patient-reported outcomes (itching, sleep, quality of life), and rates of hospitalization and mortality. Safety is closely monitored through adverse event reporting and consistent anticoagulation dosing. Findings will clarify the clinical value of pHA130 hemoperfusion for improving toxin clearance and guiding optimal dialysis strategies.
This randomized controlled study aims to evaluate the efficacy and safety of intraoperative and early postoperative hemoadsorption using the Efferon® LPS device in patients undergoing cardiac surgery with cardiopulmonary bypass in reducing the incidence and severity of multiple organ dysfunction syndrome (MODS) in the postoperative period. Each patient in the treatment group will undergo two hemoadsorption sessions: first during cardiopulmonary bypass (CPB) at the time of cardiac surgery, with the duration determined by the CPB time, and second within 24 hours postoperatively, for a minimum duration of 6 hours.
This observational pilot study aims to identify criteria for evaluating the effectiveness of hemoadsorption with the Efferon LPS NEO device in pediatric burn injury. Participants will be prospectively assigned to the treatment group and compared with a retrospectively selected control group. Each patient in the treatment group will undergo two hemoadsorption sessions, each lasting 6-12 hours, with an interval of 24-120 hours between procedures. The sessions may be performed in combination with hemofiltration or hemodiafiltration at the discretion of the investigator.
13 trials · Recruiting