Broad Implementation of Outpatient Stewardship
Acute Respiratory Tract InfectionOtitis Media2 moreReducing inappropriate antibiotic use is a key strategy to mitigate antibiotic resistance and adverse health effects associated with antibiotic exposure. The Broad Implementation of Outpatient Stewardship (BIOS) project focuses on broadly implementing an evidence-based intervention to improve antibiotic prescribing for acute respiratory tract infections in pediatric outpatient settings. Primary aims include: (1) examining the acceptability, feasibility and utility of a focused implementation strategy on improving intervention adoption and impact and (2) measuring the effectiveness of the intervention to reduce unnecessary broad-spectrum antibiotic prescription.
Decreasing Antibiotic Prescribing in Acute Respiratory Infections Through Nurse Driven Clinical...
Acute Respiratory InfectionThis study evaluates the effects of a novel integrated clinical prediction tool on antibiotic prescription patterns of nurses for acute respiratory infections (ARIs). The intervention is an EHR-integrated risk calculator and order set to help guide appropriate, evidence-based antibiotic prescriptions for patients presenting with ARI symptoms.
An Observational, Ambispective Cohort Study of Azvudine in the Treatment of Patients With COVID-19...
COVID-19 Respiratory InfectionThis is a multicenter, ambispective observational cohort study. The patients with corona virus disease 2019 (COVID-19) will be included in the study. The patients will be divided into 4 groups according to the treatment mode (Azvudine treatment group within 48 hours after the first positive for nucleic acid, Azvudine treatment group after 48 hours after the first positive for nucleic acid, short course of Azvudine treatment without nucleic acid turning negative, and the control group) . This study aims to analyze the efficacy and safety of Azvudine in the treatment of patients with COVID-19.
Effectiveness of Point-of-care Lung Ultrasound for the Management of Childhood Lower Respiratory...
Lower Respiratory InfectionLRTI2 moreThe goal of this clinical trial is to evaluate the effectiveness of point-of-care lung ultrasound versus chest X-ray for the management of childhood lower respiratory infections in a low-resource setting. The main question it aims to answer is: Is point-of-care lung ultrasound as effective as chest X-ray for the management of childhood LRIs in a low-resource setting? Participants will be assigned to either a point-of-care lung ultrasound group (intervention) or a chest X-ray group (control), to compare the effect on overall case management and various clinical outcomes (time to symptom resolution, rate of antibiotic use, length of stay, treatment costs).
Juvenile Recurrent Respiratory Papillomatosis: Establishment of a French National Cohort (PRR :...
Juvenile Recurrent Respiratory PapillomatosisRecurrent respiratory papillomatosis (RRP) is a rare disease. However, it is the most common benign laryngeal tumor in children. To date, no epidemiological data are available in France. The aim of this study is to establish the epidemiology of juvenile PPR.
To Evaluate the Clinical Efficacy and Safety of Recombinant Human Interferon ω Spray in Treatment...
Viral Upper Respiratory Tract InfectionTo evaluate the clinical efficacy and safety of recombinant human interferon ω spray in treatment of viral upper respiratory tract infection in children aged by 3-12 years, and to explore the appropriate usage and dosage of the drug in treatment of upper respiratory tract infection caused by viruses.
A Trial to Evaluate the Efficacy and Safety of RSVpreF in Infants Born to Women Vaccinated During...
Respiratory Tract InfectionThis randomized, double-blinded, placebo-controlled Phase 3 study is designed to evaluate the efficacy and safety of maternal immunization with RSVpreF against medically attended lower respiratory tract illness (MA-LRTI) in infants.
Pathogens Responsible for Respiratory Infections Associated With Drowning in Seawater
DrowningLittle 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.
Airway Intervention Registry (AIR): Recurrent Respiratory Papillomatosis (RRP)
Recurrent Respiratory PapillomatosisHuman Papilloma VirusRecurrent 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.
A Noninvasive Multimodal Biosensing Device for Screening and Monitoring Response to Treatment of...
COVID-19Upper Respiratory Infection1 moreBackground: The COVID-19 outbreak has strained the health care system. New tools are needed for diagnostic testing and monitoring of people who have the virus. Researchers want to test a device they hope can screen, detect, and monitor symptoms linked to respiratory diseases like COVID-19. Objective: To evaluate and validate a device that measures breathing, body temperature, heart rate, and tissue oxygenation. Eligibility: Healthy adults ages 18 and older with no flu-like symptoms and no current signs of infection, cough, fever, or sneezing. Design: Participants will have a physical exam. Their vital signs will be taken. Participants will sit in a chair. They will be monitored for 60 to 80 minutes while they do the following tasks: Rest for 10 minutes. They will repeat this after each task. Hold their breath for up to 2 minutes and then rest for 2 minutes. They will do this task 3 times. Pace-breathe with breathing rates of 10, 20, and 30 breaths per minute. They will do this task 2 times. Breathe air that has 5% of carbon dioxide for 5 minutes. During these tasks, data will be collected and recorded with a pulse oximeter, thermometer, respiratory belt, and spirometer. Participants will fill out questionnaires related to their daily activity (medication intake, exercise, smoking, and drinking). Participation will last for 2 to 3 hours.