View clinical trials related to Urinary Tract Infections.
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.
- 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.
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.
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.
Aminoglycosides are broad-spectrum antibiotics, effective against gram-negative bacteria. Aminoglycosides urine concentration exceeds that of the plasma by up to a hundred. Their efficacy is dependent on their level above minimal inhibitory concentration (MIC); however high levels are associate with nephrotoxicity. Therefore aminoglycosides have a narrow therapeutic rang. The correlation between administrated dose and blood drug levels is hard to predict. Amikacin is a highly effective aminoglycoside, highly effective against extended spectrum beta lactamase (ESBL) bacteria. Older patients suffer from more urinary tract infection (UTIs), and have a higher frequency of infection with resistant bacteria, mainly among frail nursing home residents. Our goal is to prove that fixed low dose amikacin in the elderly patient in non-inferior to weight-adjusted treatment. Study design: A randomized prospective, open label, non-inferiority trial Study participants will be 65 years or older, who were admitted to the medical ward due to a UTI will be assigned to one of the following study arms: 1. Intervention arm: in which patients will receive a fixed dose of amikacin, 500 mg, once a day. 2. Comparator arm: in which patients will receive a weight adjusted dose of amikacin (15 mg/kg adjusted body weight) and continue in adjusted intervals according plasma concentrations, using the Barnes Jewish Hospital nomogram. All participants will be followed up with: 1. Amikacin blood levels 6-14 hours following first administration, used for dose adjustment according to the nomogram. Peak amikacin blood levels, 30- 60 minutes following first or second administration. 2. Urine analysis and culture upon admission to the emergency department (ER). In patients with indwelling urinary catheters, cultures will be taken following replacement with a new catheter. 3. Broad serum biochemistry, complete blood count, C-reactive protein and blood cultures will be taken upon admission to the ER, two days after recruitment and at least once every three days following that, as long as the patient is receiving amikacin. Duration of amikacin treatment will be according to the attending physician's clinical judgment; however, it will not be shorter than 72 hours since first dose. Total duration of amikacin treatment will not exceed 10 days. Total treatment for UTI will not fall short of seven days of antibiotics (either amikacin or any suitable alterative according to blood and/or urine cultures).
Background: Survival in Granzyme A gene (gzmA) knocked-out mice was significantly longer than in wild-type mice in a murine peritonitis model (cecal ligation puncture). Hypothesis: GZM A has a pathogenic role in sepsis in humans and gzmA polymorphisms can help to predict the risk of sepsis among patients with systemic infections (E. coli bacteremic urinary tract infections). Objectives: 1. To assess the correlation between GZM A serum levels and systemic inflammatory response in a human model of infection/sepsis (E. coli bacteremic UTI) 2. To characterize gzmA polymorphisms among patients with E. coli bacteremic UTI 3. To determine GZM A serum kinetics among patients with E. coli bacteremic UTI 4. To characterize E. coli strains causing bacteremic UTI: antimicrobial phenotype and virulence factors ("virulome"). Methods: - Design and setting: Prospective nested case-control study - Study population: consecutive adult patients with bacteremic urinary tract infections (UTIs) caused by E. coli - Exclusion criteria: Patients with conditions that significantly compromise immune status or patients exposed to urologic procedures - Estimated sample size: 50 patients with a sepsis/ non sepsis 1:1 ratio. Septic and non septic patients will be matched on gender, age (+/- 10 years), comorbidity (Charlson score +/-1), time symptom onset to blood culture (+/- 24h) - Measurements: GZM A serum levels will be determined on day 0, day 2-3, day 30. GZM A kinetics, gzmA polymorphisms (whole exome sequencing).Whole genome sequencing of E. coli isolates retrieved from blood cultures will be performed. - Analysis: Association between GZM A levels and gzmA polymorphisms and sepsis will be analyzed adjusting for patient, infection and microorganism-related factors (multivariate analysis).
Catheterisation is an accepted tool in intrapartum bladder care and indwelling catheters are used routinely before elective caesarean sections. However, urinary catheters are associated with an increased rate of urinary tract infections which can lead to complications including increased maternal morbidity and prolonged hospital stay. A Cochrane Review (2014) concluded that there is insufficient evidence to assess the routine use of indwelling bladder catheters in women undergoing caesarean section. The incidence and causation of catheter-associated infection in this population is unknown. We propose to provide this data, by comparing urine samples from pregnant women before and after their delivery and analysing this against observational catheter use during the delivery. This will be vital in conducting future research into potential change in policy on routine catheterisation. It will also be beneficial to patients as it could reduce the burden of catheterisation by reducing their chance of developing a UTI and by reducing the associated morbidity.
The aim of the study was to evaluate the clinical and microbiological efficacy of fosfomycin trometamol (FT) per os in the treatment of documented male urinary tract infections with ESBL-producing enterobacteriaceae
The aim of this study is to compare the incidence of catheter associated culture-based urinary tract infection (UTI) after elective CD with or without preoperative placement of a urinary catheter.
The purpose of this study is to evaluate the efficacy, safety and immune mechanism of Sanjin tablets for the treatment of acute simple lower urinary tract infection and its influence on recurrence rate.