View clinical trials related to Respiratory Tract Infections.
Filter by:The goal of this clinical trial is to test the effectiveness of two self-care eHealth applications in parents of children with uncomplicated upper respiratory tract infections (URTIs). The main question it aims to answer is: • What is the effect of a self-management FeverApp and a self-care herbal medicine decision making tool (DMT) on reducing antibiotic use for acute, uncomplicated URTIs, among children in Dutch general practice? Participants will: - Complete an online questionnaire at baseline - Use a self-care eHealth application for ten days (in the intervention groups) - Report symptom severity of the URTI of their child online at day 2, 5 an 7 - Complete an online follow-up questionnaire at day 10 - Collect two stool samples of their child at baseline and at day 10 Researchers will compare three groups to see if the Apps have an effect on recovery time and complications from URTIs, AB use, frequency of GP visits, and diversity of the gut microbiome: - Parents that will use an evidence based fever app additional to standard advices of their GP - Parents that will use an evidence based herbal medicine DMT additional to standard advices of their GP - A control group of parents who will receive just standard advices from their GP,
Chronic obstructive pulmonary disease (COPD) is a chronic and often progressive pulmonary disease, where inflammation and recurrent infections are key pathophysiological contibutors in disease progression. Acute exacerbations of COPD (AECOPD) are often treated with antibiotics, even though only about 50% are caused by bacteria, and the evidence for benefit of empiric antibiotic treatment in AECOPD is conflicting. Microbiological sampling is often insufficient in the setting of AECOPD, and there is a lack of biomarkers distinguishing AECOPD caused by bacteria from those not caused by bacteria, leaving the clinician with few tools to guide the use of antibiotics. Overuse of antibiotics is the main driver of antimicrobial resistance (AMR), a major global public health threat, and obtaining the correct microbiological diagnose is important in guiding treatment of AECOPD. COPEXNOR seeks to examine which samples give the highest microbiological yield in AECOPD, comparing induced sputum to nasopharyngeal swabs. We will also compare conventional microbiological diagnostics to modern rapid molecular microbiological tests, to evaluate if faster microbiological diagnosis improves antibiotic stewardship. The study aims to define the microbiological etiology causing AECOPD in the Norwegian COPD-population, and examine the lung microbiome over time. COPEXNOR will explore biomarkers in sputum and blood that can be useful for differentiating patients who will benefit from antibiotic treatment from patients who will not.
The purpose of this study is to evaluate the efficacy, safety, pharmacokinetics (PK), neutralizing antibody and antidrug antibody (ADA) response for TNM001 in infants entering their first RSV season.
The purpose of this study is to evaluate overall changes in patient management and longer-term resource utilization between control and test arms, including (but not limited to) additional work-up (including other diagnostic tests and consults), antimicrobial treatments, disposition decisions and hospital length of stay (LOS)
The cornerstone of COPD therapy is based on the use of inhalation drugs. The correct use of devices is crucial; a suboptimal use technique is the cause of a possible clinical deterioration with a consequent increase in exacerbations and healthcare expenditure. Inhalation of drugs by nebulizer, in specific populations of patients who have shown poor adherence to inhalation therapy and poor symptomatological control, could be a more advantageous therapeutic strategy than pMDIs or DPIs, not requiring coordination at the time of delivery and not requiring an effective inspiratory effort. The objective of this study is to evaluate the effects of the transition from portable inhalers (pMDIs or DPIs) to an innovative prototype Omron C28P nebulizer, measured primarily as changes in treatment adhesion and respiratory symptoms. The sudy design is open, single-arm, real-life, prospective study conducted in two tertiary level respiratory centers in Italy, with assessments conducted on the occasion of patients' visits to their doctor.
The 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).
The primary objective of this clinical trial is to evaluate the performance of three pulse oximeters during outpatient care within Cape Town, South Africa. This objective will be achieved through generating evidence on how, why, for whom, to what extent and at what cost can paediatric pulse oximetry devices improve the management of hypoxemic children. This will be done with two inter-linked studies: - Aim 1: Determine the impact of two novel paediatric pulse oximeter devices on the correct management of hypoxaemia. If the investigators find these devices improve healthcare worker assessments and decision making, it could improve clinical outcomes for children in low-resource contexts. - Aim 2: Describe the burden of hypoxaemia and risks for mortality amongst children presenting with acute respiratory infections in a low-resource setting in Cape Town. By establishing the burden and need, a clearer investment case for pulse oximetry can be made for this context.
The goal of this randomized clinical trial is to investigate the optimal supportive treatment of bronchiolitis in infants from 0-12 months of age. The main question[s] it aims to answer are: - To investigate whether isotonic saline should be used as supportive treatment for children with bronchiolitis, and if so, identify the optimal route of administration. The primary outcome is duration of hospitalization. - To investigate the current epidemiology of the viral pathogens causing bronchitis in children in Denmark, and to assess whether children infected with specific pathogens might benefit from treatment with isotonic saline. The children are randomized after inclusion through computer randomization to one of the 3 arms in the study: 1. Nebulized isotonic saline 2. Nasal irrigation with isotonic saline 3. No treatment with saline The investigators will compare treatment with saline (both methods) with no treatment, and the investigators will also compare the two methods of delivery of saline (nebulized vs. nasal irrigation).
To 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.
Acute respiratory infections (ARI) are one of the most frequent reasons for hospital admission and antibiotic use, and can be caused by a broad range of pathogens, including respiratory viruses with proven epidemic potential, e.g. influenza and coronaviruses. The POS-ARI-ER study will focus on describing the different routine diagnostic and therapeutic practices in the work-up and treatment of ARI, as well as clinical outcomes across the patient population. In addition, POS-ARI-ER aims to characterise both the adult patient population with ARI presenting to acute hospital settings in Europe, and the aetiology of ARI in these patients.