4 Clinical Trials for Various Conditions
Multicenter clinical study to test a new qualitative in vitro nucleic acid amplification assay based on kPCR technology. The assay is intended for the diagnosis of Chlamydia trachomatis (CT) and Neisseria gonorrhoeae (GC).
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 research will test a new ultra-rapid technology (called ID/AST Accelerate system) that uses a digital microscope to identify bacteria based on their growth patterns. This method does not have to wait for bacteria to grow in a lab. The new method can identify the type of bacteria within 2 hours of receiving a specimen. The new method also shows the effect of selected antibiotics on the bacteria including multidrug resistant bacteria so that doctors know within 6 hours from specimen collection which antibiotic kills the bacteria. To check the accuracy, speed and impact of the new method on antibiotic prescribing, investigators are proposing a study with two parts; The first part will test the accuracy and speed of the results obtained by the new method. The second part will test if having the results from the new method early would change the antibiotics prescribed to a patient in a simulation experiment. An independent infectious disease physician will be shown the results from the new method and asked if the results were accurate, would it change the antibiotic treatment for the patient.
Military service members and the U.S. veteran population face a growing and serious health threat: widespread antibiotic resistance resulting from resistant bacteria and a dwindling pipe-line of sufficiently potent antibiotics. Infections with antibiotic resistant bacteria are increasing significantly. They cause major complications and mortality, and drive up healthcare costs. Powerful but non-targeted antibiotics, while in widespread use, can actually pressure bacteria to develop resistance.