View clinical trials related to Bacterial Infections.
Filter by:To evaluate the immune response and the safety of a primary series schedule that includes V419 (PR5I) at 2 and 6 months of age and Pediacel at 4 months of age Primary objectives - To demonstrate that the mixed schedule induces acceptable responses for Hepatitis B (HB) one month after completion of the mixed schedule - To demonstrate that the mixed schedule induces acceptable responses for Haemophilus influenzae type b (Hib) one month after completion of the mixed schedule Secondary objectives - To describe the antibody response to all PR5I antigens one month after completion of the mixed schedule - To describe the antibody response to meningococcal serogroup C (MCC) conjugate vaccine one month after the second dose of MenC vaccine - To describe the safety profile after each dose of study vaccines administered
Primary Series Primary objectives - To demonstrate that the concomitant administration of the hexavalent vaccine with a meningococcal serogroup C conjugate vaccine is non inferior to the administration of the hexavalent vaccine without a MenC vaccine concomitantly in term of seroprotection rate for hepatitis B one month after the third dose of the hexavalent vaccine - To demonstrate that the concomitant administration of a MenC vaccine with the hexavalent vaccine induces an acceptable response for MenC in term of seroprotection rate (SPR) one month after the second dose of MenC Booster Primary objectives - To describe the immunogenicity of a booster dose of the hexavalent vaccine and of a meningococcal group ACWY conjugate (MenACWY) vaccine either co-administered at 12 months of age or given separately.
Patients with COPD (chronic obstructive pulmonary disease) suffer from episodes of acute exacerbations leading to additional morbidity and mortality, and also a further decline in lung function. It has been well-established that bacterial colonization is prevalent in COPD, especially in moderate to severe COPD, and airway bacterial colonization is known to play an important role in the development of pneumonia and exacerbations. On the other way, inhaled corticosteroid (ICS) and long acting β2 agonist (LABA) were recommended in the treatment of moderate to severe COPD. Though there were some evidences that ICS had some protective effects on airway mucosa against bacteria invasion, the locally immunosuppressive effects of ICS is still a concern. Indeed, the incidence of pneumonia was higher than the control group, not only in the Towards a Revolution in COPD Health (TORCH) study but also in various studies and meta-analyses.We hypothesized that airway bacteria colonization is associated with disease severity, and that disease status can be identified by CAT (COPD assessment test)scores and changes of CAT scores. We therefore conducted this prospective, observational study in which CAT scores and sputum cultures were assessed in moderate to severe COPD patients with the combination therapy of ICS and LABA every three months during the study period. The primary end-point is the condition of potential pathogenic microorganisms (PPM) colonization in view of CAT scores. The second end-point was the changes of PPM colonization in association with CAT changes during follow-up. By the mean of CAT follow-up, it could possibly provide a surrogate about the risk of exacerbation and pneumonia under the combination therapy of ICS and LABA.
This randomized phase III trial studies chlorhexidine gluconate cleansing to see how well it works compared to control cleansing in preventing central line associated bloodstream infection and acquisition of multi-drug resistant organisms in younger patients with cancer or undergoing donor stem cell transplant. Chlorhexidine gluconate may help reduce bloodstream infections and bacterial infections associated with the central line.
This feasibility study will allow for the determination of the in vivo recovery and time of dialysis to optimize a future thorough microdialysis study. This is a single session, open label study to evaluate the feasibility of microdialysis for Retapamulin in healthy subjects. Three healthy subjects will be enrolled and complete the study procedures. Subjects will be admitted to the research unit on Day 1 and three microdialysis probes will be placed in the thigh of each subject prior to the start of the microdialysis procedure. After normal saline solution infusion for 30 minutes, a Retapamulin solution will be infused for 90 minutes. Saline perfusion will occur during the washout period. Microdialysis sampling will be done for 30 minutes (during the last 30 minutes of drug perfusion) and dialysate sample collection will continue every 30 minutes for 4 hours. The approximate duration of study including follow-up is 4 days.
This study was designed to evaluate the efficacy of delafloxacin patients with acute bacterial skin and soft tissue infections (ABSSSI).
Overall Aim: To describe and to assess the change in the temporal profile and transmission of microorganisms between patients and environmental surfaces after admission into a newly disinfected room. Study Activities: Investigators will prospectively and concurrently perform microbiological sampling of body sites (nose, throat, axillae, perineal and wounds) high touch surfaces (e.g. bedside rail, bed surface, toilet seat, IV pump and tray table) for consented adult patients admitted to freshly cleaned patient rooms. The microbiological sampling of body sites is already performed in many units of the hospital as standard of care. Infection and readmission related data from enrolled patients will be collected for upto 1 year after enrollment. Data analysis: Standard surveillance for hospital-acquired infections will be performed by the infection control group of the hospital. The identity and the nature of micro-organisms colonizing the high touch surfaces of rooms and of patient's body sites will be determined and compared. Risks involved is no more than minimal risk.
The last decade has witnessed an important reduction of the mortality in children under 5 years but such reduction has not impacted in neonates. Mortality in neonates contributes 40% of all deaths occurring in children below 5 years of age. Severe bacterial disease is among the leading causes of neonatal deaths. Bacterial disease follows bacterial infection. Individuals can be infected without developing disease (carriage stage) but infection is needed to subsequently develop disease. In sub-Saharan Africa, bacterial carriage (i.e. in the birth canal and/or nasopharyngeal tract) is very common in all age groups, with the consequence that occurrence of bacterial disease is one of the highest in the world. Newborns can be infected during labour - when passing through the birth canal - and during the first days/weeks of life, as a consequence of the close physical contact with the mother, if the latter carries bacteria in the nasopharyngeal tract. If the mother is an important source of bacterial infection to the newborn, treating mothers with a powerful antibiotic during labour should decrease bacterial carriage and therefore diminish the risk of bacterial transmission to the newborn during the first days/weeks of life, which should in turn result in the lower occurrence of severe bacterial disease and hence lower mortality. The purpose of this trial is to evaluate the impact of a single oral dose of azithromycin given to women in labour on bacterial carriage of the newborn as well as the women during the first month after delivery. The investigators have selected an antibiotic (azithromycin) that in sub-Saharan Africa has already shown both a strong impact on bacterial nasopharyngeal carriage and on all-cause mortality when administered to everybody in a community (mass drug administration). This specific antibiotic has several advantages for being deployable as a simple intervention in rural Africa, i.e. it requires a single oral administration, it has no special storage requirements and it has the potential to eliminate many of the bacteria commonly causing severe disease in newborn. This clinical trial will be conducted in a peri-urban health facility in Western Gambia. If an impact is shown, the next step would be to conduct a larger study aiming at establishing if the intervention, implemented at a lower level of care (most African women deliver at home assisted by traditional birth assistants), decreases the occurrence of neonatal bacterial disease
Background: The incidence of gastrointestinal infections is very high. In Western countries at least 30% of the population suffers from at least one food-borne infection per year. Mostly because of the problem of antibiotic resistance, more emphasis is put on prevention of infections. One of the possibilities is to strengthen human resistance to gut infections by consumption of milk ingredients. Aim: To study whether a milk protein concentrate rich in phospholipids improves the resistance of humans to enterotoxigenic E. coli (ETEC). Study design: The MIRAGE study is a parallel, double-blind, placebo-controlled 4-weeks intervention with a milk protein concentrate rich in phospholipids in healthy subjects of 18-55 yrs of age. Participants will be randomly assigned to the milk protein concentrate rich in phospholipids or placebo group (n=30 per group). Subjects will be instructed to maintain their usual pattern of physical activity and their habitual food intake, but to standardize their dietary calcium intake. After an adaptation period of 2 weeks, subjects will be orally infected with a live, but attenuated, ETEC vaccine (strain E1392-75-2A; collection NIZO food research; dose will be 1010 CFU). Before and after infection, an online diary will be kept to record all food and drinks consumption (2x2 days) to assess the habitual dietary intake. The diary will also be used for daily recording of bowel habits and frequency and severity of gastrointestinal complaints. The following biological samples will be collected: 4x10 ml venous blood, a single fecal bolus (for screening) and 7x24 hrs feces. Blood is sampled for immune response analyses and the fecal samples are collected to quantify several infection- and immune system markers and to verify dietary calcium intake. Saliva is sampled three times before and after infection to quantify immune system markers. Primary outcomes: Fecal ETEC excretion and severity of diarrhea (quantified by fecal output per day). Secondary outcomes: Serum immune response to ETEC, self-reported stool consistency scores and gastrointestinal complaints, relative fecal wet weight.
Assess efficacy of piperacillin/tazobactam in reducing the cases of colonization and infection of bacteria.