View clinical trials related to Respiratory Tract Infections.
Filter by:The study will explore the impact of a nurse-led bundled antimicrobial stewardship intervention on the appropriateness of antimicrobial use in residential aged care facilities. The intervention will be assessed in a stepped-wedge cluster randomised controlled trial across 14 residential aged care facilities over an 18-month period.
The real-time reporting of PCT results along with viral PCR data from the FilmArray® Respiratory Panel 2 plus in conjunction with an antimicrobial stewardship plan will aid in the proper withholding or withdrawing of antibiotics (ATB) when the collective data is indicative of a viral Lower Respiratory Tract Infection (LRTI). The addition of the FilmArray® RP2plus diagnostic test indicating the presence of a viral infection in subjects presenting with respiratory symptoms could improve the confidence to care-providing physicians to withhold prescribing antibiotics.
The purpose of this study is to assess the efficacy and safety of HLIM
This study will seek to enroll immunocompromised patients with Lower Tract parainfluenza infection. It also contains a sub-study to enroll patients with severe COVID-19.
Pneumonia and diarrhea are the most frequent causes of infectious diseases in children under 5 years of age worldwide, responsible for 1.5 million deaths annually. In up to 80% of pneumonia cases the etiology is viral. Some viruses can persist up to 6 months after an acute infection. The time when viruses enter the body and whether they are commensals or only cause disease and are eliminated after an acute infection is unknown. Modern techniques have identified diverse communities of microbiota in healthy and sick people, and viral communities associated in a close interaction. The acquisition and colonization by respiratory viruses and the role in health and disease in this niche that is the microbiome is unknown. The role of probiotics in the prevention of respiratory disease and in the maintenance of homeostasis in the microbiota is poorly understood, and even more the probable relationship between the microbiota, the respiratory viruses that could be commensals or pathogens at the respiratory level, the time when children can be colonized, and their regulation with the administration of probiotics. The aims of the study are to determine the changes in the intestinal and respiratory microbiota, the viruses that can be commensals or cause disease and the role of probiotics in the prevention of respiratory diseases during the first year of life. A prospective, randomized, controlled clinical trial will be carried out making basic metagenomics studies (translational medicine). After informed consent, 120 newborns will be randomized into 2 groups, one will receive probiotics 4 times a week orally and the other a placebo consisting of sterile water 4 times a week. The clinical follow up will be done every 2 months until 1 year old, nasal washes and stool samples will be collected to determine the intestinal and respiratory microbiome. Multiplex polymerase chain reaction studies will be conducted to detect the presence of respiratory viruses and the time when the children acquire viruses that are commensal or only in the case of respiratory infection. The mothers will be asked to come for consult in case of respiratory infection and a nasal wash and stool sample will be taken. Descriptive, bivariate and multivariate statistics will be used to determine the associations between the microbiota, the viral metagenomics, the respiratory viruses and the risk of presenting or not respiratory infection in the group receiving probiotics compared to placebo.
In Ethiopia, great majorities (95%) of households rely on solid biomass fuels such as wood, muck, crop residues, and charcoal burned in highly polluting stoves to meet the basic household energy needs with its severe health consequences due to emission of toxic indoor air pollutants. Correspondingly, household air pollution (HAP) from biomass fuel use is now estimated to be responsible for nearly 3.5 million premature deaths annually, with the highest disease burdens experienced by countries in sub-Saharan Africa. HAP ranks as the highest environmental risk factors to premature deaths globally and 2nd leading risk factor next to childhood underweight in most of sub-Saharan Africa countries as well as 3rd leading risk factor of disease next to childhood underweight, and suboptimal breastfeeding in Ethiopia. Usually prevention efforts aimed at reducing HAP and related health burdens have been focused on the use of energy efficient cookstoves. There is, however, rigorous lack of evidence in Ethiopia or in other similar settings whether it is possible to achieve adequate HAP reduction and improve health with locally made energy efficient baking stoves from a public health point of view. Particularly, the popular Ethiopian energy efficient "Injera" baking stove has not been researched through stove trial inquiry. Therefore, research studies are required in Ethiopia on health benefits achieved when households adopt energy efficient baking stoves. In view of that, cluster randomized controlled trial will be employed with experimental study design for one year to test the effectiveness of the Ethiopian improved "Injera" baking stove intervention on reducing HAP and childhood acute respiratory infection (ARI) through comparing equal size groups of children before and after part of households received an improved "Injera" baking stove. Accordingly, the proposed stove trial aims to address an important research gap by determining whether the Ethiopian improved "Injera" baking biomass stove intervention can adequately reduce HAP exposure to prevent childhood acute respiratory infection. With this objective, the proposed stove trial will test the hypothesis that there is a statistically significant difference in HAP levels and incidence of childhood ARI when using traditional versus improved "Injera" baking stove in Northwest Ethiopia
Little data is currently available on the type of pathogen responsible for respiratory infections following drowning. Many environmental germs present in seawater are described as difficult to culture on standard media but are potentially pathogenic. Even using specific culture media nearly 90% of the bacteria present in the water remain non-cultivable. The use of 16S and 18S rDNA amplification followed by high throughput sequencing on respiratory samples could allow us to objectify these bacteria potentially involved in the physiopathological process secondary to drowning and thus improve their overall management. Carrying out a bronchoalveolar lavage (BAL) within 24 hours after admission to intensive care with analysis on standard and specific culture media of environmental germs, carrying out antibiograms, DNA extraction, amplification by universal 16 and 18S rDNA primers followed by high flow sequencing and phylogenetic analysis of pathogens found. Comparison of these results with the same analyses performed on seawater samples taken near the drowning site and during a new AML at 72h for patients still intubated and showing signs of pneumonia in order to determine if the pathogens detected at the entrance persist and are present in the environment. AML at the patient's entrance, on day 3 and environmental sampling in the drowning environment within 24 hours. Standard and specific bacteriological analyses with molecular biology techniques (amplification 16 and 18S rDNA) carried out at Pr RUIMY's laboratory (Nice University Hospital) sequencing on INRA's Toulouse genomics platform. Phylogenetic data capture and analysis at IRCAN (Bioinformatics, Croce Olivier). Patient follow-up until resuscitation discharge.
Recurrent Respiratory Papillomatosis (RRP) causes wart-like growths in the airway which can make it difficult to breathe, speak and carry out normal everyday activities. It is a rare condition affecting all ages, but is more common and aggressive in children than in adults, affecting 4 in every 100,000 children. There is no known cure for RRP, but symptoms are checked through regular hospital visits, with multiple therapies or procedures under general anaesthetic needed to remove or shrink the growths which can grow back quickly. The problem is that nobody knows which therapies or procedures work best. Aim: To identify which RRP treatments currently used in National Health Service (NHS) hospitals within the United Kingdom (UK) are the most effective and safest in the short- and long-term. It will also identify which patients respond best to specific treatments, and those who are at higher risk of experiencing a complication after treatment. Method: Collect information from usual patient care and quality of life questionnaire responses in a secure online database. Participation in this study requires patient/parent/guardian consent. This observational study does not require patients to undergo any additional intervention as part of the research.
This study evaluates the effect of amoxicillin in the treatment of lower airway infections in preschool children. Half of the patients will receive amoxicillin, while the other half will receive placebo.
Antibiotics are still most often administered on an empiric fashion, as defined for the general population with dosages only adapted based on weight and renal and/or hepatic functions. As a result, serum concentrations show important interpatient variations with the risk of being subtherapeutic or toxic. Recent studies with temocillin, ceftriaxone, or meropenem confirm this for patients in intensive care units. The aim of the study will be to measure the total and free concentrations of temocillin, ceftriaxone, and meropenem in patients hospitalized in Intensive Care Units for pulmonary infections or another infection for which one of the above mentioned antibiotics is indicated. Patients will be stratified according to the level of their renal function. The antibiotics will be assayed in plasma as well as other accessible fluids in order to assess their pharmacokinetic properties.