View clinical trials related to Bloodstream Infection.
Filter by:Antimicrobial resistance is a major global problem, particularly in hospital-acquired infections (HAIs). Gram-negative bacilli (GNB), including Enterobacterales, Pseudomonas aeruginosa, and Acinetobacter baumannii, are among the most common pathogens associated with multidrug resistance and HAIs. These bacteria are of special concern because few therapeutic options are available. Traditionally, the duration of treatment for severe multidrug-resistant (MDR)-GNB infections is 14 days. Studies of severe infections by GNB, regardless of susceptibility profile, have shown that shorter antimicrobial treatments are not inferior to traditional durations of therapy and are associated with a lower incidence of adverse effects. However, there are currently no studies assessing whether shorter duration of antimicrobial treatment is effective for MDR-GNB. This open-label, randomized clinical trial aims to assess the non-inferiority of 7-day antibiotic therapy compared to conventional 14-day treatment in severe infections by MDR-GNB.
Hospital-acquired bloodstream infection (BSI) is serious care problem worldwide associated with significant morbidity and mortality. However, only few nationwide studies have focused on the incidence of BSI, and its results were often inconsistent. The objective of this study was to analyze bloodstream infections in patients hospitalized in the intensive care unit of the tertiary, university hospital. Special attention was put on the etiology of the infections, the antimicrobial susceptibility/resistance of the isolated pathogens, as well as the incidence of central vein catheters infections in the analyzed population. Data were collected in the intensive care unit of the Military Institute of Medicine, Warsaw, Poland, between January, 1, 2007 and December, 31, 2019.
There is no specific recommendation about antimicrobial treatment length for documented infections in chemotherapy induced febrile neutropenia. The aim of this study was to compare long versus short antibiotic course for bloodstream infection treatment in acute myeloid leukemia patients during febrile neutropenia. This monocentric retrospective comparative study included all consecutive bloodstream infection episodes among acute myeloid leukemia patients with febrile neutropenia for 3 years (2017-2019). Episodes were classified regarding the length of antibiotic treatment, considered as short course if the treatment lasted ≤7 days, except for nonfermenting bacteria and Staphylococcus aureus or lugdunensis for which the threshold was ≤10 days and ≤14 days, respectively. The primary outcome was the number of bloodstream infection relapses in both groups within 30 days of antibiotic discontinuation.
Enterobacterales resistant to carbapenem are cause of severe concern in hospital-acquired infections since therapeutic options are limited. Recently approved drugs, such as bela-lactam/beta-lactamase inhibitor, have been the drug of choice. However, its use is limited in low- and middle-income countries. Thus, therapy of these infections mostly relies on polymyxins and other old drugs. The role of adjuvant carbapenem therapy in combination with polymyxins, aminoglycosides and other drugs is under investigation. From a pharmacokinetic/pharmacodynamic (PK/PD), there is an elevated probability that high-dose, extended infusion administered meropenem reach the PK/PD target of 40% above the minimal inhibitory concentration (MIC) of the pathogen when the MIC is 32mg/L or lower (non-susceptible isolates have MICs of 4mg/L or higher). However, the MIC is not routinely determined in clinical laboratories. In addition, high-level (above 32mg/L) resistance to carbapenems have been reported in many studies. This open-label, randomized clinical trial aim to assess if the addition of meropenem to the best available therapy can increase the number of days alive and free of hospitalization in patients with bloodstream infections by Enterobacterales with MIC of meropenem above 32mg/L.
Secondary infections remain a major cause of mortality in critically ill patients, mainly because of high prevalence of multidrug-resistant microorganisms. Therefore strategies aimed to reduce the incidence of ventilator-associated pneumoniae (VAP) and bloodstream infections are of utmost important. There is robust data on selective digestive decontamination (SDD) efficacy in reduction of secondary infections in intensive care units (ICU) with low rates of antibacterial resistance. However the data received from hospitals with moderate-to-high rates of resistance is equivocal. This as an interventional parallel open-label study investigating the effect of selective digestive decontamination on the rates of ventilator-associated pneumonia in critically ill patients admitted to the ICU with high prevalence of drug-resistant bacteria. Secondary outcomes include rates of bloodstream infections, mortality, duration of mechanical ventilation, duration of ICU stay, resistance selection and overall antibiotic consumption.
This is a prospective, observational cohort study to assess the frequency with which neutropenic patients with hematologic malignancies and hematopoietic cell transplant (HCT) recipients are colonized with fluoroquinolone-resistant Enterobacterales (FQRE) and the clinical impact of FQRE colonization.
To evaluate the feasibility of performing combined hemodialysis with the GARNET device in chronic hemodialysis patients with a blood stream infection (BSI), and measure clinical performance and safety endpoints.
In sub-Saharan Africa, non-typhoidal Salmonella (NTS) are a frequent cause of bloodstream infection, display high levels of antibiotic resistance and have a high case fatality rate (15%). In Kisantu hospital in the Democratic Republic of Congo (DR Congo), NTS account for 75% of bloodstream infection in children and many children are co-infected with Plasmodium falciparum (Pf) malaria. NTS bloodstream infection presents as a non-specific severe febrile illness, which challenges early diagnosis and, as a consequence, prompt and appropriate antibiotic treatment.Moreover, at the first level of care, frontline health workers have limited expertise and diagnostic skills and, as a consequence, clinical danger signs that indicate serious bacterial infections are often overlooked. Basic handheld diagnostic instruments and point-of-care tests can help to reliably detect danger signs and improve triage, referral and the start of antibiotics, but there is need for field implementation and adoption to low-resource settings. Further, it is known that some clinical signs and symptoms are frequent in NTS bloodstream infections. The integration of these clinical signs and symptoms in a clinical decision support model can facilitate the diagnosis of NTS bloodstream infections and target antibiotic treatment. The investigators aim to develop such a clinical decision support model based on data from children under five years old admitted to Kisantu district referral hospital in the Democratic republic of the Congo. While developing the model, the investigators will focus on the signs and symptoms that can differentiate NTS bloodstream infection from severe Pf malaria and on the clinical danger signs that can be assessed by handheld diagnostic instruments and point-of-care tests. The deliverable will be a clinical decision support model ready to integrate in an electronic decision support system.
Bloodstream infections are frequent in children admitted to the hospital for severe febrile illness in sub-Saharan Africa.Ongoing blood culture surveillance at Kisantu Hospital showed non-typhoidal Salmonella (NTS) as the first cause of bloodstream infections in children. Bloodstream infections have a high case fatality (15 - 20%). Outcome of bloodstream infections is dependent on timely diagnosis and treatment. However, observations at Kisantu Hospital showed that many children arrive late and die early after admission. By interviewing caregivers of severely ill children admitted to Kisantu Hospital, the investigators aim to study their health itinerary, i.e. the sequence of all actions of health care seeking and care provision between the onset of febrile illness and the admission at the hospital. The investigators aim to assess the health itinerary according to the "three delays" model. The three delays model studies delays and practices at the level of health care seeking, of transport and of start of antibiotic treatment.10 Visits to referring health centers will provide complementary information about diagnosis, treatment and referral practices. In hospital follow-up will allow to assess the outcome according to the duration of health itinerary. The results of routine laboratory tests upon hospital admission will allow to stratify the health itinerary according to fever etiology. The results of this study will allow to understand the duration of the health itinerary, its possible association with case-fatality, and factors explaining for delays at every level. This information is expected to orient local health policy makers towards interventions shortening the duration of the health itinerary and in that case improve and monitor the referral system. In addition, the study results are expected to orient towards further research to understand health seeking behavior (i.e. focus-group discussions and community-based studies).
Safety and Performance Evaluation of Seraph 100 Microbind Affinity Blood Filter (Seraph 100) in the reduction of pathogen load from the blood in septic patients with suspected, life-threatening bloodstream infection