View clinical trials related to Cytokine Storm.
Filter by:COVID-19 pandemic has spread all over the world, and hospitalization of the patients with COVİD-19 Pneumonia has become a great burden to the Intensive Care Units. Unfortunately there is still no curative method for the disease yet. Intensive Care Units provide general care for the patients; including oxygen therapy, maintenance of the organ systems (e.g., cardiovascular, renal), nutrition, antibiotic therapy for secondary infections, and etc. One of the major problems in COVID-19 is macrophage activation syndrome, also known as cytokine storm. It stems from exaggerated inflammatory response, which causes increased cytokine release and results in clinical deterioration of the patients. Many drugs have been used to prevent this exaggerated inflammation, like corticosteroids, interleukin (IL) receptor blockers, plasma exchange, etc. In this study our aim is to investigate the effectiveness of high dose corticosteroid (methylprednisolone 250 mg for 3 days) and an IL-6 receptor antagonist (tocilizumab) in the treatment of the cytokine storm of the COVID-19 patients.
Critical ill COVID-19 patients often develop respiratory, hemodynamic and neuropsychiatric complications. An imbalance of sympatho-parasympathetic nervous system is discussed as one of the reasons. The nervus vagus is essential for controlling the sympatho-parasympathetic nervous system and the inflammatory processes. Aim of this study is to evaluate whether Nervus vagus stimulation decreases the rate of complications (e.g. need of mechanical ventilation, hospital stay, mortality) in critical ill patients.
In this randomized controlled trial (RCT), severe cases of COVID-19 infection will be treated with secretome of menstrual blood stem cells. The improvement in the clinical, laboratory and radiological manifestations will be evaluated in treated patients compared with the control group.
To explore the efficacy of treatment of pulmonary cytokine storm induced by SARS-CoV2 with a monoclonal antibody to IL-2 (Basiliximab) in addition to current standard of care vs current standard of care with the primary efficacy endpoint being the proportion of subjects alive and free of ventilator support, defined as intubation and requiring mechanical ventilation, at Day 28 from time of randomization.
The mortality of critically ill patients is persistently high and requires targeted therapy of pathophysiological disorders. One approach to optimize therapy is the use of the cytokine adsorber Cytosorb®, which has a CE certification for the indications hyperinflammation, rhabdomyolysis and liver failure and is therefore frequently used in patients with sepsis, polytrauma and acute liver failure. Although few clinical data describe the efficiency mostly retrospectively, there are no data on real-time elimination performance and saturation kinetics during the course of treatment. These questions should be answered by the present study.
Septic shock and the underlying dysregulated inflammatory host-response remain a major contributor to mortality in critically ill patients. Cytokine adsorption represents an attractive approach to the treatment of septic shock. Nevertheless, its effect on circulating cytokine levels, as well as on the course of disease remains largely unassessed.
Cytokine hemoadsorption is a novel therapy used to improve outcome in critically ill patients with a dysregulated cytokine response and hemodynamic instability. Patients on extracorporeal membraneous oxygenation (ECMO) often develop severe systemic inflammatory response syndrome (SIRS). Cytokine removal using different types of hemoadsorption devices is believed to block the vicious circle of inflammation dysregulation when other basic therapeutic measures fail. To date there are very limited reports on ECMO and cytokine hemoadsorption combination therapy. The aim of this retrospective study is to evaluate feasibility and effectiveness of hemoadsorption in veno-arterial and veno-venous ECMO patients.
The research objective of the UNITE Study is to assess the potential efficacy of ultrasound application to the spleen using a small wearable ultrasound system in the treatment of coronavirus disease 2019 (COVID-19) in a pilot study. Specific Aims: 1. Determine the efficacy of splenic ultrasound with a new wearable device in affecting markers of systemic inflammation in COVID-19 infection between an ultrasound group versus a control group; and 2. Evaluate the potential efficacy of splenic ultrasound with this new wearable device in affecting clinical outcomes in COVID-19 infection in the ultrasound group compared to a control group.
Anesthetic agents, including opioids can modulate the altered immune function in patients with obesity through mechanisms that involve the expression and release of cytokines. For this reason, anesthetic care in patients with obesity remains controversial. Therefore, the aim of the study was to compare the effect of opioid-containing anesthesia vs opioid-free anesthesia using the Cortínez-Sepúlveda model on serum levels of IL-6, IL-1β and TNF-α before and after surgery in obese patients undergoing bypass surgery. Methods: A randomized cross-sectional study of 40 unrelated obese adults was performed in the Anesthesiology and Bariatric Surgery Service at the Civil Hospital of Guadalajara "Dr. Juan I. Menchaca". Before undergoing laparoscopic Roux-en-Y gastric bypass, patients were randomly assigned to two anesthesia groups: opiod-containing (n=20) or opioid-free (n=20). The opioid used in the opioid-containing anesthesia group was fentanyl. To characterize the disposition of intravenous propofol for the target-controlled infusion technique in obese patients, the Cortínez-Sepúlveda pharmacokinetic model was used. Body mass was determined to the nearest 0.05kg using a balance scale (Seca 703; Seca, Hamburg, Germany). Blood samples were taken before and immediately after surgery and cytokine serum levels were determined with ELISA kits. Statistical analyses were performed using the IBM Statistical Package for the Social Sciences software package version 20.0 (IBM Corp., Armonk, NY, USA).
The immune system response needs to be forceful but also balanced for a rapid recovery from infection which avoids harmful overreactions. Innate immunity can adapt and respond more efficiently to secondary exposures, thanks to epigenetic and metabolic reprogramming, namely "trained immunity". ABBC1 is a combination of beta-1,3/1,6-glucan with inactivated Saccharomyces cerevisae rich in selenium and zinc for training immunity. ABBC1 includes repurposed synergistic yeast-based ingredients: a unique ß-1,3/1,6-glucan complex and a consortium of probiotic Saccharomyces cerevisiae, rich in Selenium and Zinc. ABBC1 induces trained immunity due to its specific chemical and tridimensional structure: its ß-glucan complex interacts with specific receptors in immune cells, provoking a release of cytokines and priming phagocytosis. Simultaneous activation of these pathways activates innate immunity and counteracts cytokine storm. ABBC1 provides highly bioavailable selenium and zinc, micronutrients with a critical role in an optimal immune responsiveness to allergy, infection, and vaccines. ABBC1 possesses proven microbiome modulating properties, which revert in immune training. Due to its high tolerance, safety and immediate availability, ABBC1 is an ideal candidate for complementary management of geriatric patients with seasonal influenza viruses or COVID-19, or to improve the immune response in the general population receiving the influenza or Covid-19 vaccines. The absence of drug interactions in ABBC1 allows a dosage that is fully compatible with the medication prescribed for all types of patients, including the elderly who are frequently polymedicated, and allows adding an additional therapeutic tool in the fight against the pandemic. This study assesses the benefits of a nutritional supplementation with ABBC1 in volunteers receiving the influenza vaccine during autumn 2020 and the Covid-10 vaccine during winter 2021.