View clinical trials related to Pneumonia.
Filter by:Severe infections can be caused by various organisms, such as bacteria or viruses, and lead to otherwise healthy people getting very unwell, sometimes needing treatment in hospital or even intensive care. For the treatment of bacterial infections to be successful, the correct antibiotics need to be given promptly. Early in the course of illness, clinicians often do not know exactly which bacteria are causing the infection. Furthermore, patients differ in terms of how their bodies process the antibiotics they are given; this means that some may get too much and others too little. This can in turn lead to some patients not being fully cured, and others coming to harm due to side effects of higher doses of these drugs. For certain types of antibiotics, clinicians are able to measure their levels in the bloodstream, which can help guide dosing. This is called therapeutic drug monitoring, and is commonly used in clinical practice. One of the problems with therapeutic drug monitoring is that it is often not available outside of regular working hours, is costly, and most importantly, provides clinicians with useful information only after a few days of treatment have already been completed. This may be too late to treat these severely ill patients with life-threatening infections, where early and appropriate treatments matter. The aim of our study, called TDM-TIME, is to look at how long it takes for blood samples to get from the patient to the laboratory to be measured, with the results then communicated back to clinicians. We are further looking to investigate whether steps can be taken to improve these timings, which would lead to shorter times until treatments can be improved. As our study is observational, we will not change anything about the treatment of our patients, but will only be measuring levels of antibiotics in their blood.
The goal of this clinical trial is to compare the safety and efficacy of AON-D21 versus placebo, both on top of standard of care, in patients with severe community acquired pneumonia admitted to ICU (or similar unit). The main questions to answer are: - The safety and tolerability of AON-D21 vs placebo. - The efficacy of AON-D21vs placebo. - The pharmacokinetics of AON-D21. - The pharmacodynamics of AON D21. - To identify biomarkers for patient stratification and analyses in future trials.
The goal of this prospective study is to compare rapid molecular technique BioFire Pneumonia Panel Filmarray and conventional culture-based methods in the microbiologic diagnosis on bronchoalveolar lavage of lung transplant patients. The main questions it aims to answer are: - determine the microbiological concordance between molecular diagnostic and conventional culture techniques on donor's bronchoalveolar lavage before lung transplantation - determine the microbiological concordance between molecular diagnostic and conventional culture techniques on recipient's bronchoalveolar lavage, performed 72 hours after lung transplantation - determine the microbiological concordance between molecular diagnostic and conventional culture techniques in detecting molecular resistance patterns - determine the difference in time to microbiological results between molecular diagnostic and conventional culture techniques - determine time to clinical decision based on molecular diagnostic techniques compared to conventional culture techniques
Azygos vein preservation revisited: impact on early outcomes after repair of Esophageal atresia/ Tracheo-Esophageal Fistula in newborns. A randomized controlled study.
Multicenter, randomized, controlled, open-label trial to assess if semiquantitative multiplex PCR assay, as compared to conventional microbiology, can reduce the percentage of patients without microbiological diagnosis in the first 24 hours from HAP/VAP suspicion, thus allowing early de-escalation.
Nigella sativa is the world's oldest immunomodulator. The main active component in Nigella sativa is thymoquinone. Research shows thymoquinone has antioxidant, anti-inflammatory, and antimicrobial effects. Based on these observations on the pharmacological activities of Nigella sativa, the potential therapeutic efficacy of N. Sativa was proposed in CAP.
The purpose of this study is to determine whether or not the FilmArray Penumonia Panel adds value to patient care.
Respiratory syncytial virus (RSV) infection and bacterial co-infection are the most common causes of pneumonia. Currently, there is no vaccine available for RSV prevention, and the use of the antiviral medication ribavirin is not widely recommended for children. Therefore, the primary treatment approach follows the general protocol for pneumonia, and oxygen therapy is recommended for all cases of pneumonia with respiratory failure. However, in children, the treatment of RSV and bacterial pneumonia remains supportive to prevent bacterial co-infection and respiratory failure. Probiotics have emerged as promising and safe options for supporting the treatment of acute respiratory tract infections (ARTIs) and reducing dependence on antibiotics in recent years. In this study, investigators propose that the direct administration of probiotics through a nasal spray can offer rapid and effective symptomatic treatment for children with pneumonia who require oxygen therapy due to RSV and bacterial co-infections. The aim of the study is to evaluate the effectiveness of nasal-spraying probiotics containing spores of two bacterial strains, Bacillus subtilis and Bacillus clausii (LiveSpo Navax), in preventing and supporting the treatment of severe pneumonia in children (who require oxygen therapy) caused by RSV infection and bacterial co-infection. Study population: The sample size was 100, and the study was conducted at the Vietnam National Children's Hospital. Description of Study Intervention: All 100 eligible patients were randomly divided into two groups (n = 50/each): Patients in the Control group received routine treatment and were administered 0.9% NaCl physiological saline 3 times/day, while the patients in the Navax group received LiveSpo Navax 3 times/day in addition to the same standard of care treatment. The standard treatment regimen typically lasts for 5-7 days, but its duration can be extended based on the severity of the patient's respiratory failure. Study duration: 12 months.
The study compares a device that is used for the detection of bacteria and MDR pathogens from skin, soft tissue and nose with the gold-standard (microbiological lab). It is a novel use for this device because it has been used in samples from the lower-respiratory tract.
This study is a cross-sectional study, was conducted at Chest department of Kasr Al-ainy Hospital, Cairo university during the period between October 2020 and April 2021. The aim of the work was to evaluate levels of acute phase reactants(APR) in Non-COVID-19 bacterial pneumonia, and to correlate between levels of APR and the disease severity.