569 Clinical Trials for Various Conditions
The primary objective of this study is to validate a pre-defined IL-6 concentration cutoff that predicts 28-day mortality in patients who are admitted or are intended to be admitted to the ICU diagnosed with sepsis or septic shock.
GEODESIC is a prospective descriptive cohort investigation that will examine the generalizability of the novel host gene expression biomarkers, SeptiCyteTM LAB, SeptiCyteTM VIRUS, SeptiCyteTM BACT, and SeptiCyteTM TRIAGE (collectively 18 genes or SeptiCyteTM LVBT) and SeptiCyteTM RAPID, for differentiating children with bacterial sepsis, versus severe viral illness, versus non-infectious related systemic inflammatory response syndrome.
The primary objective of this study is to establish an IL-6 concentration cutoff and optimal time point(s) for using Symphony IL-6 that predict 28-day mortality in patients who are admitted or are intended to be admitted to the intensive care unit (ICU) diagnosed with sepsis or septic shock.
The goal of this quasi-experimental interventional study is to determine the effectiveness of a multifaceted stewardship intervention in reducing overall vancomycin use in five tertiary care Pediatric Intensive Care Units (PICU). There are two groups of subjects in this study: PICU clinicians/sepsis stakeholders and patients admitted to one of the participating PICUs during the study period. The intervention will at a minimum include: * Implementation of a clinical guideline indicating when vancomycin should and should not be used * Unit-level feedback on overall vancomycin use within and across centers * Clinician education.
The overall purpose of this protocol is to identify subacute sepsis-associated cardiac disease in pediatric patients with cancer by CMR and evaluate the CMR findings during their follow-up. This will help inform heart failure management decision making. Evidence of dysfunction or elevated T2 values may inform adjustment of afterload reduction and beta blocker administration, and elevated ECV findings will suggest the need for increased surveillance for diastolic dysfunction. Primary Objectives: (Feasibility Phase) To determine the feasibility of cardiac MRI without anesthesia in the immediate post-sepsis period in children with cancer. CMR scanning will be completed within 10 days of presentation - this will allow us to ensure that possible hemodynamic or respiratory instability and renal dysfunction has resolved prior to transport to the MRI scanner during the most acute phase of illness. (Completion Phase) To estimate the frequency of subacute sepsis-associated cardiac disease, including myocardial inflammation and dysfunction, in the post-acute phase (within 10 days of presentation) of severe sepsis in children with cancer
The purpose of the study is to evaluate the real-time performance of a new host response test (SeptiCyte RAPID) for differentiating sepsis from non-infection/systemic inflammatory response syndrome among patients suspected of sepsis within the first 24 hours of intensive care unit (ICU) admission.
The TRIPS study is a prospective, multi-center, double-blind, adaptively randomized, placebo-controlled clinical trial of the drug anakinra for reversal of moderate to severe hyperinflammation in children with sepsis-induced multiple organ dysfunction syndrome (MODS).
The GRACE-2 study is a prospective, multi-center, double-blind, randomized controlled trial of the drug GM-CSF vs placebo in children with sepsis-induced multiple organ dysfunction syndrome (MODS) who have immunoparalysis with mild to moderate inflammation.
This is a single-center prospective bio-specimen analysis and observational study aiming to define immune pathways disrupted in bacterial sepsis and to identify clinically useful biomarkers of immune status.
This study is a multi-center, randomized, partially double-blind, and placebo-controlled Phase Ib clinical trial of inhaled CO (iCO) for the treatment of sepsis-induced acute respiratory distress syndrome (ARDS). The purpose of this study is to evaluate the safety and accuracy of a Coburn-Forster-Kane (CFK) equation-based personalized iCO dosing algorithm to achieve a target carboxyhemoglobin (COHb) level of 6-8% in patients with sepsis-induced ARDS. We will also examine the biologic readouts of low dose iCO therapy in patients with sepsis-induced ARDS.
In patients with SARS-CoV-2 or bacterial infection admitted to the intensive care unit (ICU), the state of the intravascular volume, the characteristics of the blood volume components, and the development of a vascular leak is currently unknown. The relationship of these parameters with parameters of cardiac performance, lung edema and sublingual microcirculatory perfusion parameters have never been studied.
The objective of this randomized clinical trial is to test whether administration of live attenuated MMR vaccine (measles mumps rubella; Merck) to eligible adults at highest risk for contracting COVID-19 (healthcare workers, first responders), can induce non-specific trained innate immune leukocytes that can prevent/dampen pathological inflammation and sepsis associated with COVID-19-infection, if exposed.
Prospective multi-center phase 2b randomized placebo-controlled double-blinded interventional platform trial of two different pharmacologic therapies (intravenous Vitamin C or intravenous Acetaminophen) for patients with sepsis-induced hypotension or respiratory failure.
Mitochondria are organelles (a specialized subunit of a cell) responsible for providing cells with energy. For reasons not yet understood, mitochondria will release their DNA into blood in response to cellular injury or cell death. With a simple blood draw, investigators can measure the amount of mitochondrial DNA in a patient's blood. The investigators' hypothesis, is that mitochondrial DNA can be used as a surrogate marker of cellular injury to predict patient outcomes. The investigators intend to test their hypothesis by measuring mitochondrial DNA in adult patients presenting to the Emergency Department with sepsis (a life-threatening condition due to an infection) and observing their hospital course.
The aim of this investigation is to longitudinally quantify host gene expression and serum proteins in children with infectious and non-infectious SIRS. The investigators hypothesize that children with non-infectious SIRS, with bacterial infection associated SIRS, or with viral infection associated SIRS will exhibit distinct patterns of host gene expression and serum proteins. The investigators further hypothesize that it should be possible to discover sets of mRNA or protein biomarkers that will permit unambiguous diagnosis of non-infectious SIRS, SIRS associated with bacterial infection, and SIRS associated with viral infection.
Mortality related to neonatal sepsis exceeds 1 million deaths worldwide; the highest risk of mortality is in preterm neonates, especially low birth weight (LBW), and very low birth weight (VLBW) neonates. The estimated cost of caring for these patients is approximately $700 million in the US alone. In an effort to help mature the neonatal immune system, several adjuvant therapies have been studied; however, none have been implemented in clinical practice. One of the most frequently considered targets for adjuvant therapy is toll-like receptors (TLRs). TLRs detect conserved molecular products of microorganisms (lipopolysaccharide (LPS), and initiate immunity and inflammation. Early adjuvant administration in VLBW infants may be a viable approach to reducing the incidence of early and late sepsis. This research study will characterize immune genomic expression and functional capacity at the time of birth in both term and preterm neonates and determine what effects, if any, that adjuvants have on this function. Additionally, this study will seek to determine if immune function correlates with certain microbiota.
The proposed work will provide critical insights into the potential impact of a biomarker-based algorithm on reducing unnecessary antibiotic use in different adult and pediatric/neonatal ICU's. This proposal will also assess the costs (or savings) of a biomarker-based intervention. Overall, the results of this work will be critical in informing future strategies to eliminate unnecessary antibiotic use and curb the continued rise in antimicrobial resistance.
The goal of this study is to demonstrate the sensitivity and specificity of detecting circulating micro RNA (miRNA) biomarkers in pediatric septic patients. It will also follow expression and modulation of levels in response to therapy in comparison to current biomarkers.
Sepsis is a major global health problem, leading to substantial morbidity and mortality despite medical care. The initial diagnosis of sepsis is a clinical challenge, as it is based on nonspecific systemic criteria. Excessive endothelial activation is a cardinal feature of sepsis and contributes to microvascular leak, edema, circulatory shock and organ failure. Activated endothelial cells shed endothelial microparticles (EMPs) which can be measured in plasma and are found at low levels in healthy subjects. Elevated EMPs have been reported in sepsis, but whether their effect is beneficial or deleterious is unclear. In this context, we hypothesize that circulating EMP levels can be assessed as a biomarker differentiating sepsis from non-sepsis critical illness. This may also suggest that EMP levels correlate with 30-day mortality. We propose to measure circulating EMPs at ICU admission in subjects with suspected sepsis. Final diagnoses will be adjudicated using standard criteria and 30-day mortality ascertained. Subjects determined not to have sepsis will serve as the control group. EMP levels will be correlated with diagnosis to ascertain the utility of EMP levels as a diagnostic biomarker for sepsis. For those subjects with proven sepsis, EMP levels will be correlated to 30-day mortality to assess EMP level as a prognostic marker in sepsis.
The primary objective of the proposed study will be to determine if a multi-modality teaching curriculum utilizing high-fidelity simulation and didactic lecture will result in sustained improvement by internal medicine residents in written knowledge and clinical performance when compared to residents receiving a curriculum utilizing only didactic lecture. The investigators hypothesis is that the addition of high-fidelity simulation to a traditional didactic lecture curriculum will result in sustained and superior written knowledge and practical performance when compared to a group receiving only didactic lecture on the same topic. Specifically, the investigators will be assessing internal medicine resident knowledge and performance in the area of sepsis in the hospitalized patient, and will shape the investigators teaching curriculum around this focus.
Thousands of children die from Sepsis following routine infections. Many of these deaths can be prevented with earlier recognition and focused management. No tools are currently available to recognize the signs of early sepsis in children. The investigators have developed a electronic health record-based tool that will recognize children with sepsis early and trigger an alert to their hospital caregivers. The caregivers will be prompted to launch a focused management bundle that can stabilize these children, prevent further deterioration and reduce their chances of sepsis related complications and death. The proposed study will test the validity and effectiveness of this electronic tool in reducing sepsis mortality rates.
The purposes of this study is to determine whether Heparin Binding Protein (HBP) can be used as a marker of severe sepsis (including septic shock) in patients presenting to the emergency department with suspected infection.
The aim of the study is to assess the effect of short-term infusion of ketamine at analgesic dosage on the immune response, morbidity and mortality among patients suffering from septic shock. We hypothesize that ketamine will modulate the cytokine response to sepsis and reduce morbidity and mortality.
The purpose of this study is to determine whether macrolide treatment of patients with severe sepsis has an advantageous immunomodulatory and clinical effect compared to severe septic patients without macrolide therapy. Our main hypothesis is macrolide use in addition to standard therapy in severe septic patients has an advantageous immunomodulatory and clinical effect compared to patients with severe sepsis not treated with a macrolide.
The purpose of this study is to determine if levels of ischemia modified albumin (IMA) in blood are elevated in patients with suspected infection and are predictive of severity of illness in patients with sepsis. In order to compare subjects with infection to those without infection who are representative of the ED population at each site, a group of non-infected control patients will be enrolled. Each hospital will enroll subjects with age (by decade) and sex matched controls to reflect the population of subjects suspected of infection.
We propose to develop novel diagnostic tests for severe sepsis and community acquired pneumonia (CAP). This program, entitled Community Acquired Pneumonia \& Sepsis Outcome Diagnostics (CAPSOD), is a multidisciplinary collaboration involving investigators at six organizations: NCGR; Duke University Medical Center, Durham, NC; Henry Ford Hospital, Detroit, MI; Eli Lilly and Company, Indianapolis, IN; Indiana Centers for Applied Protein Sciences, Indianapolis, IN; and ProSanos Corp., La Jolla, CA. In the United States, Community Acquired Pneumonia is the sixth leading cause of death and the number one cause of death from infectious diseases. Of the 5.6 million annual cases of CAP, 1.1 million require hospitalization for intensive therapy. Sepsis, commonly known as blood poisoning or bloodstream infection, is the tenth leading cause of death in the US and the number one cause of death in non-cardiac intensive care units. Incidence of sepsis is increasing by 9% each year and mortality rates vary between 25 and 50%. Cost to the US healthcare system exceeds $20 billion each year. In patients with suspected sepsis or early CAP, rapid identification of patients who will develop severe sepsis or CAP is critical for effective management and positive outcome. The CAPSOD study is designed to identify novel tests for early diagnosis of severe sepsis and CAP. When performed in patients at the earliest stages of disease, these tests will have prognostic value, rapidly identifying those who will have poor outcomes or complicated courses. CAPSOD will prospectively enroll patients with sepsis and CAP at Duke University Medical Center and Henry Ford Hospital. The study will use advanced bioinformatic, metabolomic, proteomic and mRNA sequencing technologies to identify specific protein changes, or biomarkers, in patient blood samples that predict outcome in sepsis and CAP. Development of biomarker-based tests will permit patient selection for appropriate disposition, such as the intensive care unit, and use of intensive medical therapies, thereby reducing mortality and increasing effectiveness of resource allocation.
The purpose of this study is to determine the optimal dose of Resatorvid for reducing 28-day all-cause mortality in subjects with severe sepsis.
Sepsis is a serious condition where there is inflammation and damage to body tissue, usually caused by an infection. This infection can lead to decreased function of vital body organs and in some cases may lead to permanent health problems or death. Much of the injury is due to endotoxin, a harmful substance produced by certain types of bacteria. An endotoxin antagonist is designed to block the effects of endotoxin. This study is designed to study the safety and efficacy when treating patients with severe sepsis.
A common group of viruses that infect humans are enteroviruses. Enteroviruses produce illnesses in children which may range from very mild (summer colds) to severe (infections of the brain, liver, and heart). The purpose of this study is to determine if a new drug called pleconaril helps treat babies with enteroviral sepsis. In addition, researchers are attempting to determine a safe and effective dose of pleconaril to help babies with this disease. Infants who are 15 days or younger when diagnosed with enteroviral disease are eligible for this study. Two out of 3 babies will be randomly assigned to receive Pleconaril and the other one out of three will receive a placebo (inactive substitute). Participants will be hospitalized while receiving study medication. Babies will receive standard treatment care for their symptoms and will be observed for their medical progress. Participants may be in the study for up to 2 years.
OBJECTIVES: I. Determine the maximum tolerated dose of vasoactive intestinal peptide in patients with acute respiratory distress syndrome. II. Evaluate the safety and pharmacodynamic activity of this peptide in these patients.