11 Clinical Trials for Various Conditions
The purpose of this study is to develop a new and very rapid diagnostic test for identifying a certain type of bacteria called Enterobacteriaceae in blood. Rapid identification of bacteria will assist in decreasing the use of antibiotics and help more patients survive bacterial infections of the blood.
A multi-center, retrospective study of cases of serious bacterial infections including complicated Urinary Tract Infection (cUTI) or Acute Pyelonephritis (AP), Hospital Acquired Bacterial Pneumonia (HABP), Ventilator Acquired Bacterial Pneumonia (VABP), and/or bacteremia caused by Carbapenem-Resistant Enterobacteriaceae (CRE)
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 randomized, open-label, clinical study aims to explore the safety and tolerability of KB109, a novel glycan, versus an observational control group on the gut microbiome in subjects whose gastrointestinal tracts are colonized with multiple drug-resistant organisms.
The primary purpose of this clinical investigation is to establish the performance of the GenePOC Carba assay on the revogene. This will be achieved by comparing the test to a conventional method for detection of Carbapenemase Producing Organisms (CPOs) in rectal swab samples.
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).
This is a prospective multi-center study. Bacterial isolates from hospitalized patients with CA-HRE will be compared to those from hospitalized patients with healthcare-associated HRE (HA-HRE). In addition, community spread of CRE will be determined.
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.
The purpose of this study is to better understand the efficacy and safety of microbiome therapies (MT) in patients with Multidrug Resistant Organism (MDRO) colonization who are admitted to Long Term Acute Care Hospitals (LTACH). This use of MT has been studied in other small studies to treat MDRO colonization, further study of the effect of MT on the transmission of MDRO to other patients is needed. This study will test the safety of the MT for this use in LTACH patients, and how well it works to help design larger studies. Importance to the field: MDRO colonization increases the risk of subsequent infection and transmission to others, however, there are no approved therapies for decolonization or reduction of the burden of colonization with MDROs. MT like Allogeneic Microbiota in Glycerol (AMG) has been shown to have \~ 60-90% efficacy for decolonization and an acceptable safety profile but has not been studied in this population for this indication. Study population: patients admitted to long-term care facilities (e.g. LTACHs and ventilator-capable skilled nursing facilities \[vSNF\]) found to be MDRO colonized during prevalence screening activities. The MT AMG will be delivered through an already existing feeding tube or into the rectum as an enema.
This study is specifically designed to provide observational data which can be used to help in the design of future randomized clinical trials on both therapeutics and diagnostics for MDRO infections. To this end, clinical and epidemiological data will be collected on patients who have MDRO isolated from clinical cultures during hospitalization, as well as descriptions of the outcomes of patients treated with various antimicrobial regimens. Molecular and microbiological characterization will also be performed on MDRO isolates. These data will include a detailed clinical and epidemiological description of patients including identifying potential barriers to enrollment in future trials. In addition, data will be collected on species, strain type, and mechanism of drug resistance of the causative organism. Knowing the molecular characteristics will further inform future trial design as not all diagnostics detect and not all therapeutics are active against the same mechanisms of resistance.
Transplant patients are at increased risk of colonization and infection with Multidrug Resistant Organisms (MDROs) due to medications that modify their immune systems, increased healthcare and antibiotic exposure, and surgical manipulation of mucosa. In this study, kidney transplant patients who have infections with resistant bacteria will be given a Fecal Microbiota Transplant (FMT), also known as a fecal transplant, after they receive antibiotic treatment. This study will see if FMT will eliminate the resistant bacteria so that the kidney transplant patients do not have to use last resort antibiotics. This Phase 1 pilot study is to obtain preliminary safety data for FMT in renal transplant patients to support the rationale for a subsequent clinical trial, not to establish efficacy or toxicity. This trial is designed to test the safety of FMT, identify clinical outcomes, assess feasibility, and refine the target population in participants with MDRO colonization and intestinal dysbiosis. Data from this study should provide directions for the design of future clinical trials.