Active clinical trials for "Cytokine Release Syndrome"

Two hundred individuals will be formed according to the study and control groups: Group-1: coronavirus 2 (Covid-19) (+) patients (n=100) and Group-2: Healthy individuals (in which the volunteers will be included due to group-1) (n=100). Oral examinations including DMFT scores, salivary flow rate, visible gingival index scores and radiographs (OPG) will be performed on both groups on the 1st appointment. Oral swap samples will be collected with sterile swap brushes (Six sample for each person) on the 1st, 7th and 30th days to evaluate the salivary immunoglobulins (Immunoglobulin A (IgA), Immunoglobulin G (IgG), Immunoglobulin M (IgM)) and cytokine (IL-1, IL-6, IL-10) levels. Blood samples will be collected to validate the oral swap test results.

The effect of Weekly 50,000 IU vitamin D3 supplements on the serum levels of selected cytokines involved in cytokine storm of Covid-19; A randomized clinical trial in the Covid-19 uninfected people with vitamin D deficiency.

The purpose of this study is to assess the safety and efficacy of repurposing tazemetostat for the treatment of Acute Respiratory Distress Syndrome (ARDS) or Systemic Cytokine Release Syndrome (SCRS) in COVID-19 patients.

COVID-19 is an infectious disease caused by severe acute respiratory syndrome coronavirus 2. COVID-19 causes life threatening complications known as Cytokine Release Syndrome or Cytokine Storm and Acute Respiratory Distress Syndrome. These complications are the main causes of death in this global pandemic. Over 1000 clinical trials are on-going worldwide to diagnose, treat, and improve the aggressive clinical course of COVID-19. The investigators propose the first, and so far, only gene therapy solution that has the potential to address this urgent unmet medical need. Rationale There are striking similarities between the damaged lung environment of COVID-19 induced ARDS and the tumor microenvironment (exposed collagen from tissue destruction by invading tumor or by the virus-induced immune response, and presence of activated proliferative cells (cancer cells and tumor associated fibroblasts or activated T cells, macrophages and pulmonary fibroblasts in COVID-19); DeltaRex-G is a disease-seeking retrovector encoding a cytocidal dominant negative human cyclin G1 as genetic payload). When injected intravenously, the DeltaRex-G nanoparticles has a navigational system that targets exposed collagenous proteins (XC proteins) in injured tissues (e.g. inflamed lung, kidney, etc.), thus increasing the effective drug concentration at the sites of injury, in the vicinity of activated/proliferative T cells evoked by COVID-19. Our hypothesis is that DeltaRex-G then enters the rapidly dividing T cells and kills them by arresting the G1cell division cycle, hence, reducing cytokine release and ARDS; Intravenous DeltaRex-G has minimal systemic toxicity due to its navigational system (targeting properties) that limits the biodistribution of DeltaRex-G only to areas of injury where exposed collagenous (XC) proteins are abnormally found; and DeltaRex-G is currently available in FDA approved "Right to Try" or Expanded Access Program for Stage 4 cancers for an intermediate size population. To gain this approval, FDA requires DeltaRex-G to have demonstrated safety and efficacy in early clinical trials.

"The purpose of this study is to assess the safety and efficacy of oral administration of itacitinib for the prevention of cytokine release syndrome (CRS) in male or female participants aged 12 years or older and who are planning to receive an approved immune effector cell (IEC) therapy for hematologic malignancies.

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 clinical syndrome associated with infection of the Coronavirus Disease 2019 (COVID-19) is notable for its variable clinical expression. Infection and transmission of the virus by asymptomatic individuals have been noted and represent one end of the clinical spectrum, while multi-organ failure, particularly pulmonary failure, and death represent the most severe end of the clinical spectrum. In a recent study published from the investigator's institution about the first 393 patients with COVID-19, 77.1% had a fever, a mechanism driven by IL-1. This suggests that there may be an excess release of IL-1 present. Cytokine storm syndrome (CSS) has been observed in patients with COVID-19 and has been proposed to contribute to the acute pulmonary failure that occurs. In distinct clinical settings, macrophage activation syndrome, elevated levels of pro-inflammatory cytokines, including IL-1, IL-6, and others, as well as elevations in laboratory indicators, including ferritin, CRP, d-dimer, and lymphopenia, have been observed. IL-1 production is induced in response to inflammatory stimuli and mediates various physiologic responses including inflammatory and immunological responses. Anakinra, a recombinant IL-1 receptor antagonist, has shown promise in treating CSS. It inhibits both IL-1-alpha and IL-1-beta. It is an FDA approved medication used in rheumatoid arthritis (RA) and Cryopyrin-Associated Periodic Syndromes (CAPS). Anakinra's ability to inhibit both IL-1 subtypes and short half-life makes it favorable to some experts. In the investigator's case-series, using anakinra in patients with COVID-19 showed promising in preventing the need for mechanical ventilation, and mortality subsequently. This study will determine the efficacy of anakinra, an interleukin (IL) -1 receptor blocker, in reducing the need for mechanical ventilation and/or 28-day mortality among patients with COVID-19 who have features of CSS and severe respiratory failure. The investigators will test the hypothesis that the proportion of subjects with COVID-19, features of CSS, and severe respiratory failure (World Health Organization (WHO) category 4 or 5) alive and without having required mechanical ventilation at day 28 from randomization will be 18% higher among those that receive anakinra compared to those that receive a placebo. A secondary hypothesis is that the number of subjects alive at 60-days will be higher amongst those who receive anakinra compared to those who receive a placebo.

The primary aim of this study is to test whether Doxycycline can benefit patients with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections by inhibiting the replication of the virus while at the same time blocking the development of cytokine storms or inhibiting cytokine-associated coagulopathy respectively. The investigators hypothesize that Doxycycline will will improve survival and reduce morbidity in SARS-CoV-2 infected patients. A secondary aim is to identify genetic variants that predict either an unusually mild disease or an unusually severe disease - knowledge that can be used to design new and precise medications and to be able to predict patients who might get into early trouble and to therefore hospitalize them.

Septic patients with acute kidney injury (SA-AKI) requiring continuous renal replacement therapies (CRRT) present high mortality due to systemic inflammatory response, cytokine liberation, and finally multiorgan dysfunction. Cytokine plasmatic elimination with continuous venovenous hemofiltration (CVVH) presents a high resource cost both technical and human. The study primary end-point is to demonstrate a similar cytokine removal of continuous venovenous hemodialysis (CVVHD) respect to CVVH, both modalities employing the same adsorption capacity membrane. As secondary end-points investigators will try to demonstrate technical superiority of CVVHD respect to CVVH. In order to achieve these objectives investigators have designed a proof of concept exploratory trial that will include those participants whom present SA-AKI meeting CRRT initiation criteria. During the first 72 hours investigators will measure plasmatic elimination capacity of main cytokines, and other clinical and prognostic relevant molecules. Investigators wil measure mean filter life during all CRRT with special attention to the first 72 hours. Investigators will also measure hemodynamic, respiratory, and metabolic parameters. Finally, investigators will analyze 90 days survival. Demonstration of a similar immunomodulating capacity and a minor complication rate with its consequent lower cost, should settle the based evidence principles that recommend the use of CVVHD associated to an adsorption capacity membrane in patients with SA-AKI whom need CRRT.

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.