View clinical trials related to Urinary Tract Infections.
Filter by:Urinary tract infection is a common infectious disease in clinic. Although urinary tract infection can be initially diagnosed by clinical sign and symptom, signs and urine routine, the application of appropriate antibiotic therapy depends on the further identification of pathogens. Metagenomic sequencing has been widely used in clinical pathogen diagnosis, especially in difficult infectious diseases. ICompared with tissue samples, cerebrospinal fluid, bronchoalveolar lavage fluid, whole blood and other samples, the application of mNGS in urine samples is relatively limited because incorrect sampling methods before and after collection of urine samples are easy to contaminate the samples and the colonization of distal urethra, periurethral skin and vagina will interfere with the interpretation of reports. Previous small sample studies have shown that the sensitivity of mNGS in urinary tract infection is high, but the specificity is relatively low, and there are many problems such as difficult interpretation of reports and low clinical conformity. This is closely related to the mNGS technology algorithm, such as the inability to eliminate the influence of urinary system background bacteria, and the ambiguity of short sequence alignment, which makes it difficult to distinguish homologous pathogens. In this study, based on the standard mNGS sequencing process, the improved Z value analysis method was used to select strictly enrolled clinical samples and compare them with pathogen culture to observe the clinical value of mNGS with Z value analysis method in the treatment of urinary tract infection.
General anesthesia, thoracic epidural, and morphine inhibit the urination process and promote postoperative Acute Urinary Retention (AUR) after thoracic surgery. Indwelling bladder catheterization prevents this risk, but is associated with other complications (urinary tract infection, delayed mobilization). With the rise of enhanced recovery after surgery (ERAS) protocols, bladder catheterization is being questioned. The current protocol in the department is to catheterize only patients with a high bladder volume in the post anesthesia care unit (defined as a bladder volume > 400 ml on bladder scan). Preliminary results from the "AirLeaks" study show a high rate of early postoperative AUR (approximately 50%). The investigators believe that a "systematic intermittent catheterization" (SIC) strategy is superior to the current "bladder scan-guided catheterization in the post anesthesia care unit" (BSGC) strategy in preventing the risk of postoperative AUR. To their knowledge, no study has compared these two bladder catheterization strategies in a thoracic accelerated rehabilitation protocol.
The objective of this study is the detection, quantification, and resistance gene identification of pathogens by using the urine of patients with urinary tract infection (UTI) symptoms.
IT001-310 is a clinical study which compares the effectiveness of oral sulopenem versus oral amoxicillin/clavulanate for the treatment of adult women with uncomplicated urinary tract infection.
At the end of most urological procedures, the doctor inserts a urethral catheter for a period of up to 5 days. According to AUA's guidelines, prophylactic antibiotic is indicated during catheter removal. The aim of our study is to check the influence of the antibiotic treatment on urinary tract infections after catheter removal
The study is seeking to understand the needs of patients and healthcare practitioners for an innovation in the way that changes in bladder function are assessed. This information will be used in the design and evaluation of a device, being developed in parallel, that assesses changes to the volume and flow of urine in order to determine changes in bladder function. In order to ensure development is optimal, the principal research objective is therefore to understand the needs of patients and healthcare practitioners (ranging from care home staff and GPs in primary care, to urologists in tertiary referral centres).
Menopausal women have an increased risk of recurrent urinary tract infections. This is likely due in part to hormonal changes occurring during menopause. As estrogen falls, the vaginal microbiome shifts from a healthy one to a less healthy one. Because the vagina is close to the urethra, this vaginal microbiome shift contributes to a loss of protection against urinary tract infections (UTIs). The investigators are asking whether improving the vaginal microbiome using an over-the-counter vaginal hygiene system can reduce frequency of recurrent UTI in menopausal women.
This study aims specifically to compare the rates of contaminants between standard clean-catch urine collection and urine collected using the PEEZY device. In particular, this study will compare the rates of contamination as stratified by BMI status (i.e., BMI < 30 and BMI ≥30). Based on previous studies through LUHS and the Wolfe lab, we anticipate a reduction in contamination from sample collected using the PEEZY device, particularly among those pregnant women with BMI ≥30. To investigate this hypothesis we have designed a prospective unblinded randomized controlled trial comparing voided urine specimens obtained for asymptomatic bacteriuria in pregnant women presenting for obstetric care with use of standard clean-catch (CC) sampling method versus specimen obtained using PEEZY collection device.
Investigate the effect of dietary supplements/probiotic ASTARTE™ ( L. crispatus, L. rhamnosus, L. jensenii, L. gasseri) on the microbiome composition in the intestine and vagina and thereby a reduction of risk factors for the development of rUTI during 6 months of intervention in women aged 18-40 years. This is measured by the incidence of symptomatic UTI.
Among postmenopausal women who suffer from recurrent urinary tract infections (UTI), vaginal estrogen therapy prevents UTI recurrences for 50% of sufferers. This research will investigate why some women benefit but others do not, focusing on (a) the effects of vaginal estrogen therapy on the bacteria that inhabit the vagina and bladder, (b) its influence on immune responses in both compartments, and (c) the extent to which those changes are critical to successful UTI prevention. The findings will be a first step in the development of more effective strategies to prevent UTI, one of the most common and costly benign urologic conditions.