22 Clinical Trials for Various Conditions
The goal of this observational study is to learn about how transposable element levels affect the patient outcomes in sepsis. The main questions it aims to answer is: 1. Do transposable elements prematurely age the immune systems of patients with sepsis? 2. Do transposable elements correlate with increased mortality in patients with sepsis in the ICU? 3. Do transposable elements correlate with increased amount of secondary infections in patients with sepsis in the ICU? Participants will have blood drawn from them but will not be subjected to additional interventions.
The primary objective of this study is to validate the use of an electronic clinical decision support (CDS) tool, TriageGO with Monocyte Distribution Width (TriageGO-MDW), in the emergency department (ED). TriageGO-MDW is non-device CDS designed to support emergency clinicians (nurses, physicians and advanced practice providers) in performing risk-based assessment and prioritization of patients during their ED visit. This study will follow an effectiveness-implementation hybrid design via the following three aims (phases), to be executed sequentially: (Aim 1) Validate the TriageGO-MDW algorithm locally using retrospective data at ED study sites. (Aim 2) Deploy TriageGO-MDW integrated with the electronic medical record (EMR) and perform user assessment. (Aim 3) Evaluate TriageGO-MDW in steady state with respect to clinical, process, and perceived utility outcomes.
The purpose of this Ph2b study is to characterize the dose-response relationship and to evaluate the safety and efficacy of three different single doses of TIN816 in hospitalized adult participants in an intensive care setting with a diagnosis of sepsis-associated acute kidney injury (SA-AKI).
The FloPatch device will be applied to 150 septic patients in the emergency department before they receive fluid resuscitation. This study will assess whether initial FloPatch measured volume-responsiveness and volume of fluids used will predict a composite outcome of mortality, intensive care unit admission, or rapid response team activation. The development of fluid unresponsiveness throughout the initial fluid resuscitation will be assessed and its association with the composite outcome will be assessed.
This is a multicenter, prospective, biomarker-result-blinded observational study evaluating immunoassay measurements of pancreatic stone protein (PSP) performed on Abionic's abioSCOPE device with the PSP assay on ICU patients at risk of sepsis as an aid in identifying sepsis.
Normal gut bacteria prevent colonization and subsequent infection with MDR organisms (MDROs) through competition for resources and other mechanisms. During critical illness, this function of the microbiome is lost and there are no current treatments to restore it. Preliminary data indicates that the prebiotic fiber inulin is safe and may alter the gastrointestinal microbiome to improve gut barrier function, decrease colonization with MDROs, and reduce downstream risk for intensive care unit (ICU)-acquired MDR infections. However, the impact of inulin during critical illness is unknown. This double-blind, randomized clinical trial will test inulin for the prevention of antibiotic resistant infections in the ICU. The trial's specific aims are to determine (1) the feasibility, tolerability, and safety of inulin in the intensive care unit; (2) the impact of inulin on gut colonization with antibiotic-resistant pathogens; and (2A/exploratory) the impact of inulin on ICU-acquired antibiotic-resistant infections.
The timely use of antibiotics can reduce morbidity and mortality associated with bacterial infections, particularly in the intensive care unit setting (ICU). Long courses of antibiotics, however, are associated with the emergence of multi-drug resistant organisms and antibiotic-associated adverse events, such as C. difficile infections. Thus, antibiotic de-escalation is an important goal of antimicrobial stewardship programs. Procalcitonin (PCT) has been investigated as a biomarker for critically ill adult patients with bacterial infection, particularly pneumonia and sepsis. The proposed project will evaluate whether a PCT testing and treatment algorithm, implemented through daily antimicrobial stewardship audit and feedback, can promote early and safe antibiotic de-escalation in the pediatric ICU.
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.
This study is to determine whether accelerometry can be used to measure physical activity occurring during routine clinical care in a diverse population of patients with medical or surgical critical illness.
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.
Intensive care unit (ICU) hospitalization saves lives but often does so at a high personal cost to ICU survivors who frequently experience significant cognitive impairment and an array of physical and functional disabilities that limit their recovery and quality of life. While the problems experienced by these patients are likely amenable to rehabilitation, few ICU survivors receive focused rehabilitation. Recently, early physical rehabilitation in ICU patients has shown to improve the chances a patient will regain their pre-hospital functional status. Early cognitive rehabilitation for these patients has not yet been explored. This pilot study will determine the feasibility of early cognitive rehabilitation in ICU patients. The investigators will perform cognitive and physical rehabilitation, beginning in the earliest phases of critical illness, to determine the effect of these therapies on cognitive and functional outcomes in ICU survivors. The investigators hypothesize that combined cognitive and physical rehabilitation, started in the ICU, will improve recovery of cognitive and physical function as well as improve quality of life of ICU survivors.
The goal of this experimental study is to understand if endotracheal tube (ETT) suctioning increases pain and causes stress on the body in intubated adult ICU patients. These patients are already on ventilators, which means they need suctioning to keep their airways clear, but this procedure may be uncomfortable and cause stress. The main questions this study aims to answer are: Does ETT suctioning raise pain levels as measured by the Critical-Care Pain Observation Tool (CPOT)? Does ETT suctioning increase certain chemicals in the blood (hypoxanthine, xanthine, and uric acid) that show stress and lack of oxygen in the body? Researchers will compare patients who have ETT suctioning (intervention group) with those who do not have suctioning during the study period (control group) to see if there are differences in pain and blood markers of stress. Participants will: Have pain measured before and after suctioning using the CPOT. Have blood samples taken from an existing line at three time points: 5 minutes before, 5 minutes after, and 30 minutes after suctioning. Provide demographic information (like age, gender, and diagnosis) from medical records. This research will help improve how pain is managed for ICU patients who cannot speak for themselves, potentially leading to better pain relief methods in the future.
Sepsis is a syndrome comprised of a systemic inflammatory response, signs of tissue hypoperfusion, and organ in the setting of presumed infection. Heparin, in addition to being an anticoagulant, is also a well-known antiinflammatory. The investigators believe that unfractionated heparin has the potential to save the lives of septic patients at a drastically reduced cost. This is a dose escalation study to determine the safety of increasing levels of heparin in this patient population; compare markers of anticoagulation and inflammation between treatment groups; and compare clinical outcomes between groups.
Percutaneously Inserted Central Catheters (PICCs) are special tubes that are inserted into blood vessels of premature babies (neonates) to give them nutrition and medications. Sometimes these tubes get infected and they need to be removed. Also, the babies need to be given medications to treat these infections (antibiotics). PICC infections in neonates are a serious problem and we need to find new ways of detecting infections early so that we can treat them promptly to avoid complications. The purpose of this study is to understand what causes tube infections in neonates and to develop a test to detect tube infections early to avoid complications.
This study should help determine to determine whether or not the use of an antibiotic coated catheter will significantly reduce the number of central line related bloodstream infections in children requiring a CVC. This study may also determine if antibiotic coated catheters will be significantly less likely than non-antibiotic coated catheters to allow bacteria to live (colonize) in/on the catheter. The use of central venous catheters (CVC) is paramount to the care of critically ill children. Thus, in the pediatric intensive care unit (PICU), these catheters are widely used in situations when more than peripheral venous access is necessary. This central access allows the delivery of fluids, e.g, blood, medications, etc. as well as serves as a means to withdraw blood. It has been estimated that more than 250,000 nosocomial bloodstream infections occur each year, with 90% of these associated with the use of CVCs. More recently, the National Nosocomial Infection Surveillance System (NNIS) reported during 1992-2001 CVC-associated bloodstream infections (BSI) in ICU settings occurred at rates of 2.9-11.3 BSI per 1,000 catheter days. The cost of treating CVC related BSI has been estimated to be in excess of $28,000 per catheter. In the adult medical literature, there is strong evidence supporting use of antiseptic or antibiotic coated catheters to reduce the cost of hospitalization for CVC related infections. Cost-benefit studies have suggested that if the baseline incidence of CVC BSI is \>0.4 BSI per 1000 catheter days, $59,000 will be saved, 7 cases of BSI will be avoided, and 1 death prevented for every 300 anti-septic impregnated CVCs used.
This project is designed to have patients participate in a virtual environment with various tasks such as breathing exercises, games to help the brain, and techniques that promote relaxation while hospitalized in the Intensive Care Unit (ICU). The participation in research will last about 5 days and take about 15 to 45 minutes each day.
The purpose of this study is to test whether a U.S. Food and Drug Administration (FDA) approved laboratory test (PCT Kryptor) can help doctors make better decisions on the need for antibiotic therapy in ICU patients with suspected infections.
Patients in the intensive care unit are at risk for many infections because the severity of illness and the procedures necessary to care for them. This study is designed to look at a change in bathing procedure as a method to reduce infections. Currently, patients at John H. Stroger Hospital are cleansed with soap and water. However, preliminary data from a previous study at Rush University Medical Center showed that a chlorhexidine (CHG)-impregnated cloth (2% CHG Antiseptic Cloth system, Sage Products, Inc.) decreased skin bacteria and may lessen bacteria in the blood stream. The 2% CHG Antiseptic Cloth system is a non-irritating, no-rinse, cleansing and moisturizing product that contains 2% chlorhexidine gluconate. The goal of this proposed study is to further evaluate the effectiveness of the 2% CHG Antiseptic Cloth system compared with soap and water in cleansing the skin and preventing bacteria from entering the bloodstream.
Umbilical catheters are necessary for many infants admitted to the Newborn Intensive Care Unit (NICU)and utilized when indicated for up to 7 to 14 days. Bacterial colonization can occur at the umbilical stump and potentially lead to serious bloodstream infections (BSIs). This study is a prospective, randomized controlled feasibility trial to evaluate three types of hygiene products on umbilical line stumps, on the effect of line colonization and subsequent infections. Infants admitted to the NICU with an umbilical line(s) will be randomized into one of four study groups, three products against standard of care (no product). The three products that will be evaluated are currently being used in different capacities for skin care in the University of Virginia (UVA) NICU. The study hypothesizes that twice daily topical application of 1 or more antiseptic to the top of the umbilical stump will decrease colonization of the umbilical stump while umbilical lines are in place.
Many HIV infected patients admitted to the intensive care area (ICA) have never taken anti-HIV drugs. The purpose of this study is to learn whether starting anti-HIV drugs while patients are in an ICA will help them to survive and get better faster. This study will also evaluate patients who, though not in an ICA, have been admitted to the hospital for serious illnesses or infections.
The purpose of this study is to prevent catheter-related infections in newborn infants admitted to the Neonatal Intensive Care Unit (NICU). This study will compare the effectiveness of daily chlorhexidine versus isopropyl alcohol in preventing the growth of microbes in catheters.
We sought to determine if there is a benefit to using an insulin drip to control hyperglycemia in the surgical critical care unit for patients who undergo general and vascular surgery.