View clinical trials related to Antibiotics.
Filter by:The PHARMECMO study is a pilot, prospective, pharmacokinetic study, conducted in a cardiac surgery intensive care unit of 18 beds. Optimization of antibiotic therapy for extracorporeal membrane oxygenation (ECMO) patients remains a pharmacological challenge. Clinical studies suggest that individualized dosing strategies and therapeutic drug monitoring could facilitate the achievement of adequate antibiotic concentration. The objective of this pilot study was to observe the pharmacokinetic characteristics of commonly used antibiotics in intensive care for patients treated with extracorporeal membrane oxygenation.
To find out whether oral antibiotics given after transsphenoidal endoscopic surgery for pituitary adenoma improves sinus and nasal symptoms, reduces the incidence of infection (sinusitis), and helps mucosal healing in the nasal passages.
Inappropriate use of antibiotics in primary care is associated with Development of antibiotic resistant strains. As part of a quality improvement program carried out in primary care in Uruguay, Argentina, Paraguay and Bolivia, a cluster randomized control trial was performed. The aim of the study was to assess whether the use of continuous evidence-based feedback about management of respiratory tract infections could decrease use of antibiotics in Acute bronchitis, common cold and acute otitis media.
The OASIS Collaborative is an organizational intervention aimed at reducing unnecessary antibiotic use in skilled nursing facilities. The first target of intervention is the tasks carried out by nursing staff after a change in condition and after an antibiotic prescription is initiated. The second target are the management staff who provide feedback to staff. The third target are the administrators who identify and overcome organizational barriers to implementation. In this study, we will implement two tools that are intended to minimize unnecessary antibiotic use in skilled nursing facilities. The first tool helps skilled nursing facility staff assess risk and communicate with prescribers when residents experience a change in health status that may result in the use of antibiotics. The second tool is used after an antibiotic is prescribed; the tool streamlines reassessment of the patient, and provides prescribers the opportunity to consider stopping unnecessary antibiotic prescriptions, narrowing the spectrum of antibiotic therapy, or shortening the duration of antibiotic therapy.
Iron deficiency and anemia are health issues affecting mainly infants and women in developing countries. Iron deficiency in infancy can have long-lasting impact on cognitive and motor development of the child. Iron fortification has shown to be effective against anemia. However, in areas with a high burden of infectious diseases iron may increase the risk of unfavorable gut microbiota composition possibly influencing diarrhea prevalence. Therefore we want to assess the effects of home fortification of complementary food with two iron-containing micronutrient powders (MNPs) with and without the addition of a prebiotic (7.5 g of galactooligosaccharides as GOS-75) compared to a control on the composition of the gut microbiota of Kenyan infants. In addition, iron deficiency may iimpair adaptive immunity. Following Kenyan Minstry of Health guidelines, infants receive their first measles vaccine at 9 months. In this study we will use an MNP with a moderate iron dose of 5 mg, with 2.5 mg of Fe as NaFeEDTA and 2.5 mg of Fe as ferrous fumarate (+Fe). There will be 3 study groups MNP, MNP+Fe and MNP+Fe+GOS. The infants will be enrolled in the study at the age of 6-10 months and will consume a home-fortified maize porridge for four months. At baseline and endpoint (after 4 months of intervention), we will collect blood samples of the infants in order to assess anemia, iron status, and inflammation. In addition, we will assess the effect of iron supplementation on measles vaccine response. Fecal samples (from child and mother) will be collected at baseline, 3 weeks and at endpoint in order to evaluate the changes in gut microbiota and gut inflammation. During the intervention, in a sub-group of children who receive broad-spectrum antibiotics, we will compare how the three different interventions modify the effect of antibiotics on the infant gut microbiota. We will opportunistically select children that are enrolled in the study and who become ill, and who are prescribed antibiotics by the local health care team, according to the local standard of care in the study area. Five additional stool samples from these children will be collected (day 0 (before the first antibiotic dose), 5, 10, 20 and 40) to evaluate the changes in the gut microbiota and gut inflammation. Three years after the study end, we would like to collect a blood and stool sample from the children and examine the iron status and gut microbiome respectively.
The study's objective is to evaluate the efficacy and safety of two formulations for the prophylactic treatment of diarrhea in subjects using antibiotics.
Although the use of antibiotics in the treatment of acute exacerbation of chronic obstructive pulmonary disease (COPD) is largely accepted, controversy remains regarding whether the choice of antibiotic has any impact on outcome. Our aim was to compare the effects of the combination of trimethoprim and sulfamethoxazole and ciprofloxacin in patients treated for severe COPD exacerbation requiring mechanical ventilation.