View clinical trials related to Communicable Diseases.
Filter by:A prospective interventional study to evaluate a strategy of point-of-care testing for sexually transmitted infections including chlamydia, gonorrhoea, trichomoniasis, syphilis, and Hepatitis B with comprehensive case management including partner notification in antenatal settings in Harare province, Zimbabwe.
This is a single-patient, phase I/II clinical trial that aims to evaluate the potential of bacteriophage therapy to treat and prevent the recurrence of a drug-resistant urinary tract infection with serious long-term effects. This study will follow a minimally invasive phage therapy approach consisting of oral, topical (opening of the urethra) and bladder installations of a 3-phage cocktail comprised of HP3, HP3.1 and ES19.
The purpose of this retrospective study is to evaluate the effectiveness of CPM nasal spray as part of the treatment of COVID-19 and its impact on clinical symptoms. Two cohort groups will be compared (CPM vs. standard care). The hypothesis to be tested is that patients treated with CPM nasal spray showed more rapid clinical improvement than those treated with standard of care alone. Clinical improvement will be evaluated by the total number of days with the manifestation of COVID-19 symptoms, including cough, nasal congestion, ageusia, and anosmia, among others. The rate of hospitalization between the cohorts will also be evaluated.
The most severe infectious episodes are managed in intensive care. Classically, a distinction is made between sepsis, an infection associated with an inappropriate, excessive response of the immune system, responsible for organ dysfunction, and septic shock, during which, within the potential dysfunctions, hemodynamic alteration is central, requiring the introduction of catecholamines. The seriousness of these disorders, particularly because of their potential short-term severity, requires immediate treatment. The treatment of severe infections is based on the control of microbial proliferation, particularly bacterial. In this context, the speed of antibiotic therapy is associated with patient prognosis. If the administration of antibiotic therapy is an emergency during severe infections, particularly in situations of septic shock, its choice is decisive in the effectiveness of management and in the prognosis of the patient. Prior to microbiological results, antibacterial treatment is probabilistic. In spite of these numerous parameters, failure of probabilistic antibiotic therapy, due to a spectrum unsuited to the pathogens, is described in 15 to 30% of cases. In order to limit the risk of inappropriate treatment, it is recommended that broad-spectrum antibiotic therapy be used in states of shock of infectious origin. Because of their bactericidal properties, their kinetics of effectiveness, their marked post-antibiotic effect, their bioavailability in the plasma sector, and their synergy with beta-lactams, aminoglycosides are often recommended in combination in the initial probabilistic treatment. Despite numerous studies and extensive international experience with aminoglycosides, their real value in the management of severe infections remains uncertain, leading to contradictory information depending on whether one is interested in their benefit in the treatment of identified infections or in the probabilistic treatment of severe conditions. During the management of severe intensive care patients, the pharmacokinetics of drugs, especially antibiotics, are considerably modified. As a result, monitoring of plasma, or better, tissue concentrations of antibiotics is suggested by learned societies, although their practical realization is still very limited by numerous obstacles. Misuse of aminoglycosides is associated with a risk of acute renal failure, centered on the tubular toxicity of the antibiotic. While the risks associated with inappropriate frequency of administration are currently modest, those associated with high peak concentration, responsible for an increase in the duration of renal exposure, are not well known. COVID-19 is also associated with a high risk of impaired renal function. The effect of aminoglycoside administration in the context of COVID-19 remains unknown. Our goal is to determine whether the presence of COVID-19 associates with an elevated risk of renal failure when prescribing aminoglycoside.
This study will evaluate the implementation of an enhanced package of care, CD4 and tuberculosis lipoarabinomannan (TB-LAM) tests and the initiation of patients on TB prophylaxis [TPT and CPT], on retention in care and viral suppression ((<50 copies/ml) at 6 and 12 months after AHD care and treatment enrollment. The study will also assess the change in AHD screening, management and service uptake indicators among PLHIV clients before and after implementation of the QI collaborative implementation (QICI) project, evaluate the acceptability and feasibility of the AHD package of care among patients and HCWs providing related health services, and conduct a cost analysis of implementing the enhanced AHD package of care in a hub-and-spoke implementation of care model.
The INSPIRE Skin and Soft Tissue Infection trial is a cluster-randomized controlled trial of HCA Healthcare hospitals comparing routine empiric antibiotic stewardship practices with real-time, precision medicine computerized physician order entry (CPOE) smart prompts providing the probability that a non-critically ill adult admitted with skin and soft tissue infection is infected with a resistant pathogen. Note: enrolled "subjects" represent 102 individual HCA Healthcare hospitals that have been randomized into 92 clusters. Hospitals were grouped into the same randomization cluster if they shared campuses or antibiotic stewardship staff.
The INSPIRE Abdominal Infection Trial is a cluster-randomized controlled trial of HCA Healthcare hospitals comparing routine empiric antibiotic stewardship practices with real-time, precision medicine computerized physician order entry (CPOE) smart prompts providing the probability that a non-critically ill adult admitted with abdominal infection is infected with a resistant pathogen. Note: enrolled "subjects" represent 102 individual HCA Healthcare hospitals that have been randomized into 92 clusters. Hospitals were grouped into the same randomization cluster if they shared campuses or antibiotic stewardship staff.
The purpose of this study is to evaluate the immunogenicity and safety of co-immunization with recombinant human papillomavirus bivalent (Types 16,18) vaccine (Escherichia coli) and Hepatitis E vaccine (Escherichia coli)
The underlying pathophysiology for BPS/IC is currently an active area of research. There is speculation that there may be alteration in the bladder and vaginal microbiome that contributes to the symptomatology of BPS/IC, however existing literature is limited and contradictory. Nickel et al (2015) studied the bladder microbiota in women with IC/BPS during a flare versus nonflare. The study collected initial stream and midstream urine specimens and detected overall, there was no significant differences in the species composition. However, a greater prevalence of fungi (Candida and Saccharomyces) was seen in the flare group (15.7%) versus the non-flare group (3.9%) midstream urine specimens. Pearce et al (2015) sought to characterize the urinary microbiome via catheterized specimens from women with urgency urinary incontinence, a condition that can present similarly as IC/BPS. The study found that more than half of the patients were sequence positive, most commonly for Lactobacillus (45%) or Gardnerella (17%), with 25% made up of various other bacteria. In contrast, Abernethy et al (2017) showed via catheterized urine specimens from patients with IC/BPS that the urinary microbiome is less diverse and less likely to contain Lactobacillus species. There have been two recent studies investigating the female urinary microbiome in patients with IC/BPS. Nickel et al (2019) found no differences in species composition between urine from patients with IC/BPS versus controls. Meriwether et al (2019) reported similar findings, and additionally found no differences when comparing the vaginal bacterial microbiome in patients with IC/BPS versus controls. However, in evaluating the bladder microbiome, both studies utilized uncatheterized urine specimens. Wolfe et al (2012) showed microbiome differences between clean-catch and catheterized urine specimens, therefore vaginal contamination in both studies cannot be ruled out.
Antimicrobial-resistant and healthcare-associated pathogens are a global health threat. The goals of antimicrobial stewardship are to minimize unnecessary and inappropriate antimicrobial use as a means to combat antimicrobial resistance. Previously, the investigators implemented a Videoconference Antimicrobial Stewardship Team (VAST) at 2 VA Medical Centers (VAMCs), using telehealth to connect clinicians at a rural VAMC to a geographically distant infectious disease expert Both VASTs successfully decreased overall antibiotic use in acute and long-term care units. This project will expand the VAST approach to other VAMCs and test the hypothesis that quarterly reports that quantify facility-level antibiotic use will enhance the efficacy of VASTs to support antimicrobial stewardship. This work will directly increase access to antimicrobial stewardship consultation at rural VA facilities, which are often underserved by infectious disease expertise.