93 Clinical Trials for Various Conditions
The CLEAN (ChLorine to reduce Enteric and Antibiotic resistant infections in Neonates) cluster randomized controlled trial in western Kenya will evaluate the impact of a multi-component chlorination intervention in health care facilities on maternal and neonatal health. Intervention facilities will receive a passive chlorination technology for water supply treatment and a reliable supply of sodium hypochlorite disinfectant. Both intervention and treatment facilities will receive infection prevention and control messaging. The goal of the study is to evaluate the impact of the intervention on bacterial contamination of water supply, on staff hands, and on high-touch surfaces in maternity wards, and the following outcomes among facility-born neonates and their mothers: (1) gut carriage of bacterial pathogens associated with sepsis one week post-birth, (2) gut carriage of antibiotic resistant bacteria one week post-birth, and (3) symptoms of possible serious bacterial infection one week following birth.
The purpose of this study is to better understand the effectiveness and safety of microbiome therapies (MT) as a treatment for patients with Multidrug Resistant Organism (MDRO) colonization after an infection. Limited data from prior studies suggest that MT may be an effective treatment to reduce intestinal MDRO colonization Although shedding of MDROs from patients to their surrounding environment is a recognized pathway of transmission, the potential effect of MT on the transmission of MDRO to other patients in the hospital environment is unclear. This study will test the safety and efficacy of MT for this use in hospitalized patients. This study will also help design larger studies. The MT may help reduce MDROs that colonize the gut. By reducing colonization before infections happen, this could help doctors avoid using "last resort" antibiotics that can have serious side effects like kidney damage. The reduction in MDROs after MT was originally identified in patients treated with MT for recurrent Clostridioides difficile (often called "C. diff") diarrhea. It has been shown that a type of MT called fecal microbiota transplant (FMT) can eliminate both C. difficile and other resistant bacteria.
In this study, the investigators seek to determine the effect of antibiotic use post-surgery on antimicrobial resistance. The investigators will be studying adults (aged 18 or older) who will undergo eye surgery at University of California, San Francisco (UCSF). We seek to gain a better understanding of how antibiotic use during the perioperative period influences local and systemic antibiotic resistance at the individual level.
Pulmonary exacerbations (PEx) are key events that lead to a decline in health status among CF patients, with many never recovering to baseline health. With the advancement of new CFTR modulators and other therapies increasing the lifespan of those living with CF, it will become increasingly important to have better strategies to manage PEx in order to have better outcomes following treatment. PEx treatment decisions will need to take into consideration the increasing frequency of antimicrobial resistance bacteria and the need to treat multiple types of bacteria at once. The purpose of this study is to analyze sputum samples from CF subjects at the time of PEx in order to identify markers of antimicrobial resistant bacteria and see how those relate to treatment responses. CF patients will be recruited from patients followed by the Adult CF Program at National Jewish Health. Within 48 hours of admission to the hospital for treatment of a PEx, subjects will be enrolled and sputum will be collected. The sputum will be processed and analyzed for the presence of antimicrobial resistant bacteria. These results will be compared to clinical data, such as spirometry and frequency of hospitalizations.
In this protocol, investigators are examining the ability for a novel multiplex PCR assay with mixed floral antibiotic resistance profiling is safe and increases effective treatment for urinary tract infections in a urology clinic over traditional culture methods alone and decreases retreatment rates in this population.
Antibiotic resistance is one of the major health threats facing global as well as domestic populations, however it is not well characterized in pediatric patients. Pediatric patients receiving cancer-directed therapy have several risk factors implicated in development of antibiotic resistance including multiple courses of antibiotics, repeated exposures to the hospital environment, indwelling devices and chemotherapy-related damage to mucosal barriers. The investigators propose to capitalize upon the unique position of St. Jude Global within the global pediatric oncology community by using its regional alliance network to describe the molecular epidemiology of antibiotic resistance in Gram-negative bacteria in this population. Primary Objectives 1. Describe the epidemiology and the phenotypic and previously determined molecular determinants of antimicrobial resistance in Gram-negative organisms isolated from pediatric diagnostic specimens in selected Central American and US sites with capacity to treat pediatric cancer 2. Utilize strain typing by whole genome sequencing to describe relatedness between organisms at participating sites
The use of antibiotics has saved millions of human lives, however consumption of antibiotics can select for antibiotic resistant organisms and may lead to changes in commensal microbiome. This study is designed to estimate the effect of antibiotic consumption on microbiome in a rural region of rural Burkina Faso. Changes in the intestinal and nasopharyngeal microbiome and resistome following a short course of antibiotics will be measured.
This study, a Randomized controlled trial of Autologous microbiome reconstitution to prevent Colonization by antibiotic rEsistant bacteria (RACE), seeks to investigate the safety, feasibility and the role of autologous fecal microbiota transplantation (FMT) for the prevention of antibiotic resistant bacteria (ARB) through microbiome restoration.
M. A. suffers from hypogammaglobulinemia that has been complicated by refractory Mycoplasma hominis septic arthritis. He has been receiving the antibiotic valnemulin under Emergency Investigational New Drug (eIND) 114686 following many prior treatments with standard antibiotics. M.A. has also been receiving intravenous immunoglobulin (IVIG) replacement. The antibiotic and IVIG have been helpful, but not sufficient for cure. Antibodies have been shown to be critical for defense against mycoplasma. Hyperimmune serum against mycoplasma isolated from rabbit or goat has been effective in cases of chronic erosive arthritis in the setting of immune deficiency, and in some cases resulted in cures. The investigators propose to use M. hominis isolated from M. A. to vaccinate one transgenic cow (developed by SAB Biotherapeutics), purify human antibody after vaccination, test the purified antibody in killing assays to confirm potency, and then administer the purified human IgG to M. A. after FDA compassionate use IND application and local Institutional Review Board (IRB) approval.
The Curetis Unyvero LRT55 Application is intended to detect and to identify genes of 21 microorganisms and 19 genes associated with antibiotic resistance in 4 hours. In this study, the performance of the Unyvero LRT55 Application shall be tested under clinical conditions and compared to (1) a composite reference method (for non-atypical or cultured microorganisms) or (2) a molecular PCR based reference method for the 3 atypical microorganisms Chlamydophila pneumoniae, Legionella pneumoniae, and Pneumocystis jirovecii, and for resistance genes. PCR amplifications are followed by bi-directional sequencing, including comparison of the test results Time to result will be compared for the Unyvero LRT55 Application and standard-of care.
The aim of this project is to test the utility of The Gene Z device (as of 2018 Gene Z no longer being used), now using In-Dx and other rapid identification techniques that the investigators have developed in the lab on clinically obtained bodily fluid samples taken from patients with suspected infection or sepsis based on having three of four positive Systemic Inflammatory Response Syndrome markers, or having a known infection for which a specimen is being collected. Specimens will be collected by University of Michigan Health/Sparrow Laboratories and McLaren Greater Lansing laboratories, processed and stored for analysis at a later date to determine if the microbial pathogens identified by current methods of culture, as well as pathogen susceptibility to antibiotics by culture results, can be identified by the GeneZ technology (no longer in use) or other developed technology accurately, and more timely. It will not affect current patient care nor impact patient care, which will continue in the standard fashion today for sepsis. Results will be compared to standard culture results and antibiotic sensitivities.
Escalating resistance to antibiotics among disease-causing community bacteria increasingly threatens our ability to treat patients' infections. At the level of the physician-patient encounter, incentives at the patient level often take priority to society; this is often the case with antibiotic prescribing. Each patient level antibiotic treatment decision is based on how we value potential outcomes, including short-term benefits and risks and longer-term risks, including those related to future bacterial resistance to antibiotics. Unfortunately, antibiotics are often prescribed for illnesses unlikely to have a bacterial etiology; even a very small likelihood of benefit seems to outweigh an increased risk of future antibiotic resistance. While short-term effects of antibiotics on colonization with resistant bacteria have been demonstrated, the overall implications of each treatment for future individual, family and societal-level resistance remain difficult to quantify, and are often steeply discounted or ignored during decision-making. Knowledge regarding the longer-term effects of personal and household antibiotic use could better quantify these future resistance-related risks, and help guide antibiotic decision-making for physicians and patients. Infants are born with sterile nasopharyngeal and gastrointestinal tracts and yet, during the 1st year of life, become important reservoirs of resistant organisms; this creates an opportunity to study colonization and resistance starting from a microbiological tabula rasa. In this proposal, we will use an observational cohort to following newborns' antibiotic exposure and longitudinal colonization with specific bacterial pathogens and related antibiotic resistance in the 1st year of life. Our hypothesis is that during the 1st year of life, infants with personal and household antibiotic exposure will have greater colonization with resistan organisms than infants without antibiotic exposure. This project will help us understand the development of bacteria that are resistant to antibiotics within the community, and help to inform judicious decision-making regarding antibiotic prescribing.
This randomized controlled trial will compare strategies to reduce the risk of methicillin-resistant Staphylococcus aureus (MRSA) infection and re-hospitalization in MRSA carriers. This trial will provide critical answers about the role of decolonization versus standard-of-care education in preventing MRSA infections in the large group of high risk MRSA-positive patients being discharged from hospitals. Findings could potentially impact best practice for the 1.8 million MRSA carriers who are discharged from US hospitals each year.
The purpose of this study is to discover how often certain bacteria are found in the rectum at the time of a prostate needle biopsy to diagnose prostate cancer. Certain bacteria are of importance because they can cause serious infection. Antibiotics that urologists commonly use to prevent these bacteria from causing infection are no longer effective. Many physicians around the world are noting increased infections with antibiotic resistant bacteria. Therefore; despite treating patients who are to undergo prostate biopsy with antibiotics, certain patients are being readmitted to the hospital with a serious infection. In order to study the incidence of these particular bacteria, the best method is to culture the bacteria at the time of the biopsy. This involves one rectal culture swab just prior to needle biopsy of the prostate. Once the incidence of these bacteria is known we may take steps to prevent the serious infections that occur as a result of prostate biopsy.
Repeated exposure to topical antibiotics may alter the normal bacteria on the eye and in the nose and increase rates of resistance. This study will determine whether repeated short-term exposure to topical antibiotic drops which are commonly prescribed after eye injections to reduce the chance of infection increase rates of resistant bacteria which are normally found on the eye and in the nose. We hypothesis that certain commercially available antibiotics may increase rates of bacteria resistance more so than others.
This research is important because it allows for the determination of resistance rates to antibiotics that may not be frequently tested by the clinical microbiology laboratory at University of Pittsburgh Medical Center (UPMC)-Presbyterian. It also will provide antibiotic minimum inhibitory concentrations (MICs) for these pathogens which may help in identifying the best empiric antibiotic option for gram-negative blood stream infections based on known pharmacodynamic parameters.
The purpose of this study is to review patients with E. coli infections at UPMC from January 1, 2004 to December 31, 2005 to determine if these infections have arisen in the community rather than in hospitals or nursing homes. The occurrence of such resistant isolates could be devastating if they were associated with bloodstream infection, such as sometimes accompanies urinary tract infection, since antibiotic resistant E. coli is not suspected in isolates coming from the community.
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 objective of this study is to provide preliminary insight into the safety and efficacy of fecal microbiota transplantation (FMT) for the eradication of gastrointestinal carriage of vancomycin-resistant Enterococcus.
Multidrug-resistant organisms (MDROs) are endemic in nursing homes (NHs) with prevalence rates surpassing those in hospitals. The aim of the study is to design and evaluate the effectiveness of a multi-component intervention to reduce new acquisition of MDROs in NH residents. The intervention will incorporate resident-level, environmental, and caregiver based strategies. Using a cluster-randomized study design, three NHs will be randomized to the intervention group and three to the control group. Control NHs will be allowed to continue standard infection prevention practices. Nursing homes will serve as the unit of allocation. Analyses will be performed both at the resident and the cluster level. The primary outcomes of the study are reduction in MDRO prevalence, and reduction in new MDRO acquisition .
The purpose of this study is to pilot the use of best practices alerts to enhance an antimicrobial stewardship program using the electronic medical record, EPIC.
The goal of this observational study is to investigate how bacterial populations from the intestine and mouth of patients change during the hospitalization period and evaluate if some populations of specific bacteria increase or decrease the risk of acquiring an infection or becoming colonized by pathogenic bacteria. Participants will have the following samples collected during enrollment: stool samples (maximum 2x/week), blood draws (1x/week), oral swab (1x/week).
The investigators aim to conduct a prospective surveillance study of mothers and their infants born vaginally or by scheduled C-section and who are admitted to Northwestern Medicine Prentice Women's Hospital to determine the prevalence of ESBL-E carriage in healthy post-partum women and the transmission rate of these strains to their infants. Using whole genome sequencing and a comparative genomics approach the investigators will determine the relatedness of strains among mother-infant dyads as well as identify genetic regions common to transmitted strains. It is hypothesize that; 1) given the diverse population of Chicago there will be a significant rate of gut colonization with ESBL-E among mothers admitted to Prentice, 2) ESBL-E strains isolated from neonates will be identical to those from their mothers and 3) genetic determinants of transmission are conserved across ESBL E. coli strains that are perinatally transmitted. These hypotheses will be tested using the following Aims: Aim 1: Determine the prevalence of ESBL-E gut colonization and rate of perinatal transmission among mother-infant dyads Aim 2: Identify genetic determinants of transmission common to ESBL E. coli that are perinatally transmitted. The long-term goal is to understand the unique features of persistent gut and vaginal ESBL-E colonizers and identify genetic and molecular elements that could be attractive therapeutic targets to decrease the burden of ESBL-E colonization and perinatal transmission.
This is an observation study comparing prospective use of Imipenem/Cilastatin/Relebactam (IMI/REL) to retrospective data using Meropenem/Vabobactam (MVB)and Ceftazidime/Avibactam CZA) in treatment of Klebsiella Producing Carbapenemase Enterobacteriaceae infections at a tertiary care hospital. The objectives of the study are to demonstrate successful treatment of KPC containing Enterobacteriaceae infections with IMI/REL including in bacteremia, and to analyze treatment outcomes in use of IMI/REL for KPC-producing infections compared to historical clinical outcome data with CZA and MVB use at the same institution.
This pilot study is a single-site randomized, double blinded placebo-controlled in females with recurrent multi-drug resistant (MDR) urinary tract infections(UTI). Our study hypothesizes that a novel probiotic strain improves antibiotic sensitivity patterns in these former MDR UTIs.
The purpose of this study is to determine if the use of prophylactic bismuth subsalicylate (BSS) has an effect on the acquisition of travelers' diarrhea (TD) or antimicrobial resistance (AMR) genes in fecal samples among international travelers who departed from the United States to South East Asia, South Central Asia, or Africa. Our hypotheses will be tested using a double-blinded, placebo controlled randomized clinical trial with participants from a pre-travel health clinic in the United States.
This is a prospective, Phase 4, open label, multi-center study of the clinical and microbiologic efficacy of ciprofloxacin for the treatment of uncomplicated urinary tract infections in adult women.
The overall goal of the project is to develop and evaluate a home-based intervention to prevent re-infection and transmission of Community-Acquired Methicillin-resistant Staphylococcus aureus (CA-MRSA) in patients presenting to primary care with skin or soft tissue infections (SSTIs). Centers for Disease Control (CDC) CA-MRSA guidelines include incision and drainage, antibiotic sensitivity testing and antibiogram-directed prescribing. Re-infections are common, ranging from 16% to 43%, and present significant challenges to clinicians, patients and their families. Several decolonization and decontamination interventions have been shown to reduce Hospital-Acquired MRSA (HA-MRSA) re-infection and transmission in intensive care units. Few studies examine the feasibility and effectiveness of these infection prevention interventions into primary care settings, and none employ Community Health Workers (CHWs) or "promotoras" to provide home visits for education and interventions about decolonization and decontamination. This comparative effectiveness research/patient centered outcomes research builds upon a highly stakeholder-engaged community-academic research and learning collaborative, including practicing clinicians, patients, clinical and laboratory researchers, and barbers/beauticians. Clinical Directors Network (CDN), an established, NIH-recognized best practice Federally Qualified Health Center (FQHC) Practice-based Research Network (PBRN), and The Rockefeller University propose to address this question through the completion of four aims: (1) To evaluate the comparative effectiveness of a CHW/Promotora-delivered home intervention (Experimental Group) as compared to Usual Care (Control Group) on the primary patient-centered and clinical outcome (SSTI recurrence rates) and secondary patient-centered and clinical outcomes (pain, depression, quality of life, care satisfaction) using a two-arm randomized controlled trial (RCT). (2) To understand the patient-level factors (CA-MRSA infection prevention knowledge, self-efficacy, decision-making autonomy, prevention behaviors/adherence) and environmental-level factors (household surface contamination, household member colonization, transmission to household members) that are associated with differences in SSTI recurrence rates. (3) To understand interactions of the intervention with bacterial genotypic and phenotypic variables on decontamination, decolonization, SSTI recurrence, and household transmission. (4) To explore the evolution of stakeholder engagement and interactions among patients and other community stakeholders with practicing community-based clinicians and academic laboratory and clinical investigators over the duration of the study period.
Background: Helicobacter pylori is a bacterium that infects the lining of the stomach and intestines. It can cause peptic ulcers, cancers, and infections. Current methods of diagnosing H. pylori infections have limitations. Researchers want to test a new method of testing for H. pylori. Objective: To compare the esophageal string test (EST) to standard tests for detecting H. pylori infection. Eligibility: People aged 18 years or older with persistent H. pylori infection. Design: Participants will have 3 or 4 clinic visits over 2 to 4 months. Screening visit: Participants will have a physical exam. They will provide a stool sample. Baseline visit: Participants will have blood tests. Then they will have the EST: One end of a string will be taped to the outside of their cheek; the other end will be packed into a capsule. Participants will swallow the capsule, and the string will unwind down their throat into their stomach. The string will be left in for at least 1 hour. Then researchers will gently pull out the string. The fluids soaked into the string will be studied. Some participants will be prescribed antibiotics. Follow-up visit 1: Participants whose H. pylori infection was cured by the antibiotics may leave the study. Those who are still infected will have an endoscopy: A flexible tube will be inserted down the throat and into the stomach. It will take tissue samples from the stomach lining. These participants will then receive antibiotics again. Follow-up visit 2: The physical exam, blood test, and stool sample will be repeated. ...
TRL1068 is expected to eliminate the pathogen-protecting biofilm in the prosthetic joint and surrounding tissue, thus making pathogens substantially more susceptible to established antibiotic treatment regimens. This Phase 2 study is designed to assess efficacy and safety of TRL1068 in combination with a DAIR (debridement, antibiotics, and implant retention) procedure for chronic prosthetic joint infections of the knee and hip, specifically, eliminating the need for the standard of care 2-stage exchange surgery, so that the original prosthesis can be retained.