View clinical trials related to Asthma.
Filter by:The study aims to to use new technologies (ML, AI, NLP), to autonomously identify moderate to severe asthma populations within an EHR system, describe differences in treatment patterns across different populations, and determine trial eligibility. Primary Objectives Please ensure you detail primary objectives Aim 1. Determine and validate a diagnosis of severe asthma (SA) using predictive features obtained from the Scripps Health EHR. - Aim 1a: Use ML applied to structured EHR data to predict SA. Use the opinion of 2 specialty-trained physicians and ATS guidelines to determine model accuracy. - Aim 1b: Use NLP applied to unstructured text to predict SA. Determine model accuracy as above in Aim 1a. - Aim 1c: Use a combination of ML applied to structured data to predict SA. Determine model accuracy as above in Aim 1a.
The goal of this clinical trial] is to evaluate the long term safety of dexpramipexole treatment in participants with severe asthma, aged ≥12 years, on Global Initiative for Asthma (GINA) 2021 [GINA, 2021] Step 4 or 5 therapy and who completed either of the Phase III studies EXHALE-2 or EXHALE-3.
The goal of this cluster RCT is to determine the effectiveness of Asthma Link, a school supervised asthma therapy program, compared with an educational asthma workbook, in improving asthma symptoms for children with poorly controlled asthma aged 5-14.
The primary objective of this randomized, double-blind, single/multiple ascending dose, placebo-controlled Phase I clinical trial was to evaluate the safety and tolerability of SHR-4597 in healthy subjects and asthmatic patients. The study consists of two parts: Part 1 involves single ascending inhalation dose in healthy subjects; Part 2 involves multiple ascending inhalation dose in asthmatic patients, further divided into Part 2A: multiple ascending inhalation dose in mild to moderate asthmatic patients, and Part 2B: multiple ascending inhalation dose in moderate to severe asthmatic patients. Subsequent lung pharmacokinetic studies of SHR-4597 inhalation will be conducted based on patients' PKPD data.
In this study, a new method will be used to evaluate response to 2 approved biologic therapies, and assess how well each patient responds to each asthma treatment. This study will measure the response to these treatments using genomic and biologic measurements obtained from participants biosamples. By evaluating response to 2 different biologic therapies, this study has the potential to provide an in-depth understanding of the mechanisms underlying severe asthma that will inform and change treatment decisions, and may ultimately lead to a change in the way that asthma patients are evaluated for potential personalized therapies and maximize the probability that the subject will respond to treatment.
The goal of this trial is to learn if the addition of oscillometry with reversibility testing increases diagnostic accuracy in adult asthma diagnosis, when added to current standard of care tests: spirometry with reversibility testing and Fractional Exhaled Nitric Oxide (FeNO). The main question it aims to answer is: - Does oscillometry with reversibility testing increase diagnostic accuracy in detection of asthma in adults when added to spirometry with reversibility and FeNO? Researchers will evaluate the diagnostic accuracy of this approach with the reference standard, which is a clinically adjudicated diagnosis of asthma by two respiratory clinicians based on history and investigation results. Participants will - Undergo oscillometry testing alongside their routine asthma investigations within their scheduled clinic visit - Optionally participate in our sub-studies on new breath and nasal swab tests for asthma - Optionally participate in our qualitative substudy on patients views and attitudes to asthma testing and oscillometry
This is a randomized, open-label, 3-armed feasibility trial will examine conventional oxygen therapy (COT) vs high flow nasal cannula at 4L/min flow vs HFNC at 2L/kg/min flow (max 60L/min) in moderate to severe pediatric asthma exacerbations.
Aim: To evaluate the use of AeviceMD Monitoring System (AeviceMD) asthma in reducing acute exacerbation. Methodology: Using a randomized controlled trial design, this project aims evaluate the effectiveness of AeviceMD in improving patients' outcomes in terms of reducing exacerbation, healthcare utilization, improving quality of life, self-efficacy, and cost effectiveness. Paediatric patients above age 7 and adults will be recruited. The data follow-up period is 3 months. It will also evaluate the usability of the device from both patients' and clinicians' perspective. 180 patients (124 adults, 56 pediatrics) and 120 clinicians will be recruited. Importance of study: This study will evaluate if the AeviceMD can help improve disease management and reduce recurrence of asthma exacerbation. Potential benefits and risk: AeviceMD allows for remote monitoring and tracking of patients' lung sounds, which could be used by patients to monitor their lung condition and prevent an episode of exacerbation or worsening exacerbations culminating in an admission which who further utilize already limited healthcare resources. An exacerbation is an episode of severe shortness of breath, cough, and chest tightening which warrants a visit to a healthcare institution. Through self-monitoring, patients can be empowered to self-manage their asthma, with aid of the asthma action plan which is given to all patients with asthma. AeviceMD can also help provide clinicians with patients' objective lung data. In the primary care setting, care is also fragmented as patients are often followed-up by a different doctor or healthcare providers. Clinicians have no objective data to track patients, and is dependent on patients' self-report and possible recall bias. There is no expected risk with the use of the device.
This study is to assess the pattern of isolated fungi from the respiratory air way (bronchial tree) from bronchoalvealar lavage (BAL) in asthmatic patients with uncontrolled or difficult to treat asthma
The primary objective of this study is to describe the efficacy of rocatinlimab in reducing asthma exacerbations.