576 Clinical Trials for Various Conditions
This is a Phase 3, randomized, double-blind, controlled, adaptive, 2-arm, multicenter study to demonstrate the efficacy and safety of DefenCath in adult participants receiving home Total Parenteral Nutrition (TPN) via Central Venous Catheter (CVC) compared with heparin.
In July 2020, a bundle (Appendix C) was implemented at Methodist Dallas Medical Center where all patients with SAB were reviewed by the antimicrobial stewardship pharmacist (Monday - Friday from 0700 to 1500), a note outlining optimal interventions was written in the electronic medical record (EMR), and the recommendations were communicated to the primary team via secure messaging or telephone
Streptococcus pneumoniae is a gram-positive (GP) bacteria responsible for common infections such as community-acquired pneumonia (CAP), as well as complicated infections such as bacteremia, infective endocarditis and meningitis. S. pneumoniae bacteremia ranks among the top 10 most common pathogens associated with bloodstream infections and correlates with high morbidity and mortality worldwide.
The Gram-negative bloodstream infection Oral Antibiotic Therapy trial (The GOAT Trial) is a multi-center, randomized clinical trial that hypothesizes that early transition to oral antibiotic therapy for the treatment of Gram-Negative BloodStream Infection (GN-BSI) is as effective but safer than remaining on intravenous (IV) antibiotic therapy for the duration of treatment.
Bloodstream infections (BSI) caused by bacteria translocating across injured oral mucosa are a significant cause of morbidity and mortality in patients undergoing stem cell transplantation (SCT). Unfortunately, there are currently no known strategies to prevent these BSI in this vulnerable population. The investigators will conduct a randomized, double-blind, placebo-controlled trial at three institutions to evaluate the effectiveness of twice daily intraoral xylitol-wipe application on reducing BSI in pediatric SCT patients.
To evaluate the feasibility of performing combined hemodialysis with the GARNET device in chronic hemodialysis patients with a blood stream infection (BSI), and measure clinical performance and safety endpoints.
The purpose of this study is to assess the effectiveness of RaPID/BSI by testing its performance compared to blood cultures collected prospectively from consented subjects.
Patients on long-term parenteral nutrition (PN) are at high risk for central line-associated bloodstream infections (CLABSI). This study evaluates the efficacy and safety of ethanol lock therapy for CLABSI prophylaxis in adult patients on PN.
The purpose of this study is determine safety and effectiveness of Neutrolin, a catheter lock solution, for prevention of central venous catheter associated bloodstream infection in hemodialysis patients.
Central line-associated bloodstream infections (CLABSIs) are the most common healthcare-associated infection in children and are associated with morbidity and mortality. This study will attempt to identify the source of bloodstream infections (BSIs) in children with CLABSI because we hypothesize that many of the BSIs that are currently classified as CLABSIs are actually laboratory-confirmed bloodstream infections (LCBI) that may be a result of mucosal barrier injury (MBI), also known as MBI-LCBI. In order to study this, we will isolate bacteria from multiple body sites of children that have BSI in order to compare these bacteria to the strain growing in their blood using whole-genome DNA sequencing. We will also evaluate biomarkers of MBI of the respiratory tract and GI tract.
The study team will compare hospital length of stay (LOS) and attributable length of stay (ALOS, the LOS attributable to CRI), in a randomized, un-blinded prospective trial utilizing short-dwell ethanol-lock therapy (ELT) (4 hours to 24 hour dwell times per day, repeated for up to 72 hours) placed within 24 - 36 hours of admission(Group 1, Preemptive ELT) versus ELT placed at the time of first positive blood culture report (Group 2, Rescue ELT (Standard of Care ). ELT will be given in both groups, in combination with systemic antibiotics, for the treatment of CRI (suspected or proven) of the blood in children with central catheters. Participants will be enrolled from patients with hematologic/oncologic disorders and bone marrow or hematopoetic stem cell transplants (BMT) admitted for care to Children's Hospital of Michigan (CHM), a tertiary care pediatric hospital in Detroit, Michigan. ALOS will be defined as the number of hospital days between first symptoms of Catheter-related infection (CRI) (or date of admission for those admitted with symptoms) and first negative blood culture. Study Hypothesis: The main hypothesis is that the short-dwell ethanol-lock therapy, defined above, placed within 24 - 36 hours of symptoms/admission (Arm 1) versus ELT placement at the time of first positive blood culture report (Arm 2), with concomitant systemic antibiotics, for the treatment of CRI (suspected or proven) of the blood in children with central catheters in the H/O/BMT population will have shorter hospital length of stay (LOS) and attributable LOS (ALOS) and therefore lower hospital costs.
This randomized phase III trial studies chlorhexidine gluconate cleansing to see how well it works compared to control cleansing in preventing central line associated bloodstream infection and acquisition of multi-drug resistant organisms in younger patients with cancer or undergoing donor stem cell transplant. Chlorhexidine gluconate may help reduce bloodstream infections and bacterial infections associated with the central line.
The purpose of this research study is to evaluate the effects (good and bad) of supplementation with Glutamine to that of a placebo (L-alanine), on your child and their Short Bowel Syndrome. Researchers are doing this study to see if the addition of Glutamine to oral/tube feeding (nutrition therapy) will work better by preventing bloodstream infections, improving growth, and/or changing the make-up of bacteria in your child's intestine. Glutamine is approved by the FDA for use in adults with Short Bowel Syndrome. In this study, the investigators will be assessing how well Glutamine affects Short Bowel Syndrome in children.
A CVC is a sterile flexible tube that allows a drug to flow from a bottle or bag directly into a patient's bloodstream. CVCs may cause infections when bacteria gets into the catheter and enters the bloodstream. They also have a risk of becoming clogged. When this occurs, the CVC usually needs to be replaced. The goal of this clinical research study is to learn if an antimicrobial catheter lock solution can make it possible for the CVC to stay in place while treating an infection with antibiotics. The safety of the solution will also be tested. Your outcome will be compared to the outcome of patients who had the same type of infection but had their CVC removed. The antimicrobial catheter lock solution is made up of 3 chemicals: Minocycline and ethanol are designed to disinfect the CVC. Disodium ethylenediaminetetraacetate is designed to prevent the CVC from clogging.
Use of long-term central venous access devices (including tunneled lines and ports) can be associated with development of bloodstream infection caused by build-up of bacteria or fungus on the inside of the device, called central line associated bloodstream infection (CLABSI). This infection generally requires hospital admission and antibiotic therapy. This treatment usually helps eradicate the infection but sometimes it is not possible to clear or it comes back after treatment. Also, once someone has had one line infection the chance of getting another one is higher. This study will test whether treatment and secondary prophylaxis of CLABSI with ethanol lock therapy (ELT) can significantly reduce the risk of treatment failure (comprising failure to clear initial infection, relapse or reinfection) in children and adolescents treated for cancer or hematologic disorders or undergoing hematopoietic stem cell transplantation (HSCT). ELT involves injecting a solution of ethanol and water into the line or port, allowing it to dwell for 2 hours, and then withdrawing the solution.
The goal of this clinical research study is to learn if Vibativ (telavancin) can help to control blood stream infections (BSIs). The safety of this treatment will also be studied. Objectives: Evaluate the clinical efficacy and safety of Telavancin given for treatment of gram positive bacteremia in cancer patients (including neutropenics).
Bloodstream infections (BSI) are a major cause of morbidity and mortality. Bloodstream infections are also costly and result in prolonged hospital stays. The duration of therapy necessary to clear blood stream infections is unknown and no study has systematically addressed this issue. However, the use of antimicrobials is not without consequence. These include financial cost, side-effects, promotion of superinfection (especially Clostridium difficile-associated diarrhea), and the promotion of microbial resistance. This study hypothesizes that a procalcitonin (host biomarker) and endotoxin (microorganism biomarker) guided treatment plan could significantly decrease unnecessary exposure to antibiotics in patients with bloodstream infections.
There are currently no published data on the efficacy of the chlorhexidine-impregnated foam dressing to reduce catheter-related bloodstream infections (BSI) in hemodialysis patients. The researchers perfomed a cross-over intervention trial on patients who were dialyzed through central venous catheters at two outpatient dialysis centers were enrolled. The use of a chlorhexidine-impregnated foam dressing was incorporated into the catheter care protocol during the intervention period. A nested cohort study of all patients who received the foam dressing was also conducted to determine independent risk factors for development of BSI. The primary outcomes were the catheter-related bloodstream infection rates in the intervention and control groups. Secondary outcomes include the clinical sepsis rates between the two groups and risk factors for development of bloodstream infection despite the use of the foam dressing.
We proposed to perform a prospective randomized controlled trial to study the effect of the use of a commercially-available chlorhexidine-impregnated sponge (Biopatch) as part of central venous catheter care on catheter-related bloodstream infections among patients in two Barnes-Jewish Hospital ICUs.
The objectives of this multinational study are to assess the clinical outcomes of patients with Acinetobacter bloodstream infection and to further assess the predictors of mortality in this patient population. We also aim to characterize the molecular epidemiology of this remarkable organism in an attempt to further understand its transmission dynamics on a global level and to determine whether increased pathogenicity is geographically dependent.
Primary Objective: -Evaluate the clinical efficacy and safety of Daptomycin given for treatment of catheter-related bloodstream infections (CRBSI) due to gram positive bacteremia in the context of standard of care antimicrobial therapy consisting mainly of Vancomycin with or without initial treatment with beta lactam antibiotics.
This study will treat hemodialysis patients who have a central catheter that is thought to be infected with a specific bacteria (Gram positive bacteria).
This is a study to evaluate a new medication dosed once a week in the treatment of bacterial infections in the blood from intravenous catheters (CR-BSI). The primary objective is to evaluate the efficacy and safety of dalbavancin in the treatment of adults with CR-BSI relative to a standard of care treatment, vancomycin.
Central venous catheters (CVCs) are used in patient care for such purposes as the administration of medication, fluids, blood products and for functions such as hemodialysis and plasmapheresis. However, the use of CVCs can cause complications such as life-threatening bloodstream infections (BSI). BSIs are caused by organisms from the skin's surface tracking down the catheter's outer surface. The organisms grow on the catheter surface (catheter colonization) which is followed by seeding into the bloodstream. BSIs can be difficult to treat and the mortality rate is as high as 35% in Intensive Care patients with a catheter-related BSI. It is estimated that up to 70,000 patients in the US die each year from catheter-related BSI. MBI 226 is a new drug that, when applied to the skin surrounding the catheter insertion site, may prevent organisms on the skin from migrating down the catheter and entering the bloodstream and therefore decrease the incidence of catheter-related BSI in patients with CVCs.
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.
Fluids are one of the most common treatments given to patients in the hospital. Fluids are especially important in treating patients with sepsis. Multiple clinical studies have compared the two main types of fluids used in sepsis (normal saline and balanced crystalloids). However, these studies have not found a clear benefit of one type of fluid versus the other. Which fluid should be given to which patient is an essential question because of the ubiquity of this intervention. Even a small difference in mortality could drastically change the standards of care given the national (and worldwide) scale of this intervention. The investigators have developed an algorithm that uses bedside vital signs (temperature, heart rate, respiratory rate, and blood pressure) to identify a group of patients (Group D) who have a significant mortality benefit from balanced crystalloids. The study randomizes adult patients admitted through emergency departments across 6 Emory hospitals belonging to Group D to intervention versus usual care. The intervention arm involves a prompt to clinicians to use balanced crystalloids rather than normal saline.
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.
Sepsis is the second leading cause of maternal death in the U.S. For racial and ethnic minoritized birthing people, especially those who are Black, living in poverty, and from underserved communities, labor and postpartum are particularly vulnerable risk periods. The goal of this multi-center, multidisciplinary observational study is to establish a novel maternal care continuity model to reduce sepsis- related death and disability and increase maternal health equity.
Sepsis is the second leading cause of maternal death in the U.S. For racial and ethnic minoritized birthing people, especially those who are Black, living in poverty, and from underserved communities, labor and postpartum are particularly vulnerable risk periods. The goal of this multi-center, multidisciplinary observational study is to optimize risk prediction accounting for the social determinants of health, and establish a novel maternal care continuity model to reduce sepsis- related death and disability and increase maternal health equity.