View clinical trials related to Communicable Diseases.
Filter by:This is a research study that aims to determine if antibiotic bladder instillations (placing an antibiotic directly into the bladder) over several sessions at the office is a good option to prevent recurrent urinary tract infections, in comparison with oral suppression therapy (taking daily antibiotics in the form of pills by mouth). Oral antibiotic suppression therapy is currently the most common treatment route for recurrent urinary tract infections in post-menopausal women. The bladder antibiotic instillation may overcome the disadvantages of oral suppression therapy such as antibiotic resistance, certain side effects, and recurrence of infections after finishing the treatment course.
Since Dec 2019, over 70000 novel coronavirus infection pneumonia (NCIP) patients were confirmed. 2019 novel coronavirus (2019 nCoV) is a RNA virus, which spread mainly from person-to-person contact. Most of the symptoms are non-specific, including fever, fatigue, dry cough. Sever NCIP patients may have shortness of breath and dyspnea, and progress to acute respiratory distress syndrome (ARDS) and multiple organ dysfunction syndrome (MODS). The mortality is reported to be around 2.3%. Thus, early detection and early treatment is very important to the improvement of NCIP patients' prognosis. At present, NCIP RNA detection of pharyngeal swab specimen by RT-PCR is recommended. However, due to the universal susceptibility to 2019 nCoV in general population and limited number of NCIP RNA detection kits available, to identify an efficient screening strategy is urgently needed. This study aim to develop and validate the diagnostic accuracy and screening efficiency of a new NCIP screening strategy, which can benefit the disease prevention and control.
A higher frequency of recurrences in the University Hospital of Cabueñes (HUCAB) than in other hospitals in our area, including Central University Hospital of Asturias (HUCA) has been found. This increase does not seem to be related to underlying diseases, age, sex or predisposing factors classically described in this type of infection. This high rate of recurrence, together with the absence of response to all conventionally used antibiotic treatments, has important repercussions in the morbidity and mortality of patients, in the ecology of the hospital due to the risk of transmission of a strain of major severity and in the high costs associated with an increase in the hospitalization days of these patients, as well as in an eventual transfer of these to other structures specialized in fecal transplantation. Two hypotheses are proposed to explain the higher frequency reported: Hypothesis 1. There are alterations of the microbiome in patients with severe recurrences that favor the appearance of these. Hypothesis 2. The circulating strain in the hospital has intrinsic characteristics that make it more virulent, such as the presence of virulence or multiresistance factors. For this reason we design a descriptive, prospective multicentric study that will include all patients older than 18 years diagnosed with C difficile infection at the Central University Hospital of Asturias and the University Hospital of Cabueñes during the year 2020-2021
We aim to prospectively evaluate the risk factors that can play a role before, during or after the surgical period.
- to describe the profile of uropathogenic E coli from Egyptian pregnant women with UTIs and a symptomatic bacteriuria. - to determine the susceptibility pattern of our local isolated UPEC strains which is essential for optimal management of UTI. - to evaluate the different virulence genes in UPEC isolates and their association with antibiotic resistance. - to track common UPEC serogroups. - to investigate the biofilm formation and the relationship between virulence genes and biofilm formation in UPEC strains isolated from patients.
Many patients who undergo vascular surgery to improve the blood flow to their legs are at risk of developing an infection in the surgical site and are then at risk of serious complications such as hospital readmission, failure of the surgical procedure and lower limb amputation. Surgical site infections may be reduced in high-risk patients by applying two commonly used antibiotics (gentamicin and vancomycin) into the surgical incision at the end of the surgical procedure. This will be compared to the standard of care treatment at London Health Sciences Center.
A suture is a biomedical device that is made of natural or synthetic materials. Sutures are used to close tissue surfaces until wounds heal and regain their ability to withstand normal stresses. Although different suture materials are available for various dental procedures, clinicians commonly neglect to select sutures based on their mechanical properties and capabilities. Instead, clinicians rely on their clinical experience to determine which suture material will suffice for wound closure and healing. To our knowledge, there have been no published studies detailing the results of mechanical testing on sutures after clinical application. The aim of this study is to clinically, histologically, and mechanically assess the four common sutures used in periodontal and dental surgery, with the hopes of providing clinicians with a guide that will allow them to choose sutures based on the clinical, histological, mechanical properties that best fit the stress and strain applied to the wound.
DETERMINE trial is a prospective multicenter multinational cohort study. This study will be carried out to predict the risk of bloodstream infections (BSIs) or other types of invasive infection with carbapenem resistant K.pneumoniae in patients being colonized by CRKp. The results of DETERMINE trial would be quite important to prevent unnecessary coverage of carbapenem resistant Klebsiella pneumoniae in empirical treatment of colonized patients. In this study, both risk score model and decision tree algorithm will be constructed and compared with each other in terms of sensitivity, specificity, positive predictive value and negative predictive value.
COMBAT trial was contemplated to elucidate unknown clinical relevance of carbapenem heteroresistance among Klebsiella pneumoniae species. Bloodstream infections, type of frequently seen invasive infections that pathogen isolation, identification of antimicrobial resistance mechanisms can be performed efficiently, with carbapenem resistant Klebsiella pneumoniae (CRKp) and carbapenem hetero-resistant Klebsiella pneumoniae will be compared in terms of relevant clinical outcomes such as 30-day mortality rate, 14-day clinical cure rate, 7-day microbiological eradication rate and 90-day relapse/re-infection rate. In addition, underlying molecular resistance mechanisms causing carbapenem hetero-resistance among Klebsiella pneumoniae isolates will be investigated by using whole genome sequences.
Background & Rational: Antibiotics are a major underpinning of modern medicine. The global rise of antimicrobial resistant (AMR) organisms is a serious world health problem. With few new antimicrobial drugs on the horizon, it is imperative that we develop novel approaches to extend the service life of our existing drugs. AMR is a complex problem that is being driven by a wide range of factors. More than half of the antibiotics prescribed have no medical benefit, and outpatient visits for uncomplicated urinary tract infections (UTIs) are a major contributor to this problem. Recent studies have shown that nearly half of people treated for UTIs receive the wrong frontline drug and in 75% of patients, the duration of therapy is inappropriate. Limitations in the current diagnostic technology make it impossible to identify UTI pathogens and measure their antibiotic sensitivities during the short out-patient clinical visits that are typical for most UTI patients. These circumstances result in the inappropriate use of stronger than necessary or inappropriate antimicrobials. The aim of this study is to develop and evaluate a system that can detect bacteria in urine and find the best antibiotic in under 4 hours, thus enabling a rapid diagnosis and use of the most appropriate and cost-effective antimicrobial agent for the agent detected.