View clinical trials related to Bacterial Infections.
Filter by:Beginning in the mid-to late 1980s and accelerating through the 1990s and 2000s the shield of antibiotic invincibility began to crack sufficiently so that it was apparent to everyone we faced a serious problem. The investigators will demonstrate and expand the use of information technology based on the ingenious weighted-incidence, syndromic, combination antibiogram (WISCA) tool for the widespread use of automated clinician prompts enhancing empiric antibiotic therapy as part of a comprehensive infection control stewardship program that reduces antibiotic resistance. This research program will demonstrate that use of such a tool lowers mortality, improves outcome, lowers antimicrobial resistance and reduces healthcare cost.
This is a Phase IV, multi-center open-label pharmacokinetic trial studying the pharmacokinetics and pharmacodynamics of a single dose of Minocin IV. Up to 67 subjects will be enrolled to obtain 50 evaluable, ICU patients who are already receiving antimicrobial therapy for a known or suspected Gram-negative infection. The entire study duration will be approximately 16 months and each subject participation duration will be approximately 2 days. The study will be conducted at approximately 13 clinical sites. Each subject will receive a single 200 mg dose of Minocin IV infused over approximately 60 minutes. Each subject will have 7 PK samples collected (1 pre-dose, 6 post-dose) at designated time points over a ~48 hour period following the start of the Minocin IV infusion. The primary objectives are: 1) To characterize minocycline PK at the population level in critically-ill adults, with illness known or suspected to be caused by infection with Gram-negative bacteria and 2) To assess patient-level and clinical covariates associated with minocycline pharmacokinetic properties in critically-ill adults, with illness known or suspected to be caused by infection with Gram-negative bacteria.
A prospective study of bleeding peptic ulcers and/or erosions in the upper gastrointestinal tract - risk-medication, presence of Helicobacter pylori, treatment and outcome.
Group A Streptococcus (GAS) infection is a major cause of death and disability globally with a disproportionately high burden in settings of disadvantage worldwide. Acute infections due to GAS range from very common superficial skin infections (>150 million prevalent cases) and pharyngitis (over 600 million incident cases) to life-threatening invasive disease (>600,000 incident cases) such as necrotising fasciitis. Post-infectious GAS sequelae of GAS include acute rheumatic fever (ARF, ~500,000 incident cases) leading to rheumatic heart disease (RHD, ~34 million prevalent cases), and acute glomerulonephritis. The health services impact of GAS disease in all its forms is immense and strikes at every level from primary to intensive care. Controlled human infection models (CHIMs) have a long history of critical contributions to vaccine development. Data from CHIMs meeting modern scientific, regulatory, and ethical standards, are aiding efforts to control over 25 major human pathogens, including bacteria (e.g. pneumococcus, cholera), viruses (e.g. respiratory syncytial virus, influenza), and parasites (e.g. malaria, schistosomiasis). A reliable and safe controlled human infection model of GAS pharyngitis will be an important part of the global vaccine development effort. To build the model, the investigators are undertaking a dose-ranging study using an observational, dose-escalation, inpatient trial to determine the dose of GAS administered by direct oropharyngeal inoculation (bacteria 'painted' onto throat) required to reliably produce a pharyngitis attack rate of ≥ 60% in carefully screened healthy adult volunteers.
This is a 2-part, drug-drug interaction study to evaluate potential PK interactions after single doses in Part 1 and multiple doses in Part 2. In Part 1, subjects will receive single dose of 5 treatments in a cross-over design; in Part 2 subjects will receive treatment for 10 days.
The delayed administration of an adequate antimicrobial therapy is a strong predictor of impaired outcome in patients with bacterial sepsis. Therefore, the current Surviving Sepsis Campaign guidelines (2016) recommend that administration of intravenous antimicrobials be initiated within one hour following the recognition of sepsis or septic shock. The quick Sepsis-related Organ Failure Assessment (qSOFA) score is a new bedside tool which has been recently proposed by the Third International Sepsis Consensus Definitions Task Force (Sepsis-3) to identify patients with suspected infection who are at greater risk for a poor outcome outside the Intensive Care Unit (ICU). It uses three criteria, assigning one point for low systolic blood pressure (SBP ≤100 mmHg), high respiratory rate (≥22 breaths per min) and altered mentation (Glasgow coma scale <15). The score ranges from 0 to 3 points. A qSOFA value ≥2 points is associated with a greater risk of death or prolonged ICU stay, these outcomes being more common in infected patients who may be septic than in those with uncomplicated infection. The definite goal of qSOFA is to hasten the management and thus improve the outcome of patients at risk of sepsis or septic shock. Many patients admitted to the hospital for bacterial sepsis or septic shock are initially managed in the Emergency Department (ED). This study aims at investigating whether the routine calculation of qSOFA at patient triage may hasten the initiation of antimicrobial therapy in patients admitted to the ED with suspected or proven bacterial infection, especially in those with subsequent criteria for sepsis or septic shock (Sepsis-3 definition).
Ventilator-associated pneumonia (VAP) is the most frequent life-threatening nosocomial infection in the ICU. Oropharyngeal colonization with bacterial pathogens is the first step toward lung infection. Oral hygiene with Chlorhexidine mouth wash (CMW) is among the most widespread preventive measure to prevent VAP. Precise microbial documentation of CMW efficacy on oropharyngeal colonization is lacking. Investigators wish to determine CMW antimicrobial efficacy in ICU ventilated patients and to measure chlorhexidine residual concentration in patients' saliva at the same time-points after CMW.
This is a 52-month study (8 months preparation; 36 months to conduct the trial; 8 months data analyses and manuscript preparation) of a cluster randomized controlled trial (RCT) of an intervention to improve infection management for suspected UTIs and LRIs among residents with advanced dementia (N=480; N=240/arm) living in NHs (N=24; N=12/arm). The NH is the unit of randomization as the intervention must be delivered at the facility level to avoid contamination and because this is how it would be employed in the real-world. Analyses will be at the patient level.
This is a single-center, randomized, placebo-controlled, double-blind, multiple-ascending-dose, inpatient study to assess the safety, tolerability, and pharmacokinetics of TP-271 in healthy subjects. Subjects aged 18 to 50 years who fulfill the inclusion/exclusion criteria will be enrolled in this study.
The purpose of this study is to assess the effect of a new critical pathway (use of guideline-based patient identification criteria and for those who meet these criteria, use of dalbavancin) compared to usual care for the treatment of ABSSI (Acute Bacterial Skin and Skin Structure Infections)