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Browse 3,705 clinical trials for asthma. Find studies that match your criteria and connect with research centers.
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NCT04652141
Guidelines suggests that asthma should not be treated prior to a reversibility test and/or an assessment with peak expiratory flow (PEF) unless there is a clinical urgency for the patient to be treated. Approximately one third of patients with diagnosed asthma can safely step-wise withdraw their asthma medication and diagnosis based on repeated objective lung function measurements. AsthmaTuner is CE-marked and provides doctors and nurses with information on patient spirometry incl. reversibility test and diurnal or weekly variability of PEF in relation perceived symptoms. Thereby, digital supported asthma care with AsthmaTuner can improve objective diagnosis of asthma. The objectives of this study are to evaluate the sensitivity and specificity to establish objective asthma diagnosis with spirometry including reversibility test and PEF-monitoring with AsthmaTuner, and secondary, assess the number of asthma patients with objective verified asthma diagnosis with use of spirometry including reversibility test and/or periodic variability with PEF/FEV1 between traditional trial treatment and treatment with AsthmaTuner. At least 146 patients will be included who are at least six years old, with respiratory symptoms that can be signed to asthma last month or with physician-diagnosed asthma last five years without intake of anti-inflammatory treatment in the last three months. This is a randomised controlled trial evaluating a diagnostic two step algorithm that firstly includes dynamic spirometry with a reversibility test and PEF/FEV1 monitoring with AsthmaTuner during 2-4 weeks, and secondly randomization to traditional trial treatment with dynamic spirometry with a reversibility test, or AsthmaTuner incl. PEF/FEV1 monitoring during trial treatment. We plan to include in total 146 patients in primary care with either undiagnosed asthma having respiratory symptoms that can be signed to asthma last month, or patients with a asthma diagnosis last 5 years but no intake of regular anti-inflammatory asthma medication last 3 months. The study start in early 2021 and finish in 2023.
NCT06919757
During intrauterine life, some babies are smaller or grow less than expected. This fetal growth abnormality, called fetal growth restriction (FGR), can be diagnosed by ultrasound. Since there are currently no curative treatments for this condition, nor methods to optimize the growth of babies in the womb, the only effective strategy is intensive monitoring of fetal conditions, accompanied by early planning of delivery. The diagnosis of early FGR (i.e. diagnosed before 32 weeks of gestation) confers a greater risk of short- and long-term respiratory problems. The study aims to examine the association between parameters that can be assessed during pregnancy by ultrasound, such as the estimate of lung volumes, the thickness and contractility of the diaphragm, and cardiac kinetics, and any perinatal complications and respiratory function in the first years of life of premature infants, both with and without evidence of fetal growth pathology. Therefore, the study is divided into two phases: a prenatal and a postnatal phase. The study includes two groups of patients: 1. Study group: Fetuses and preterm infants with a prenatal history of FGR; 2. Control group: Preterm infants without a prenatal history of FGR followed during neonatal follow-up. Pregnant women with fetuses with FGR are followed at the Ultrasound clinics dedicated to Growth Pathology. These pregnancies usually receive weekly ultrasound monitoring, which includes a Doppler study of the maternal and fetal circulation and an estimate of fetal weight every two weeks. Cardiotocographic monitoring is also planned once or twice a week, depending on fetal well-being. The child will be assessed from a respiratory point of view during hospitalization and subsequently in the outpatient clinic, as required by clinical practice. He/she will undergo respiratory function tests. Visits are scheduled at 3, 6, 12 and 24 months of corrected age, during which at least two respiratory function tests will be performed. In addition, routine clinical data (personal data, medical history, blood tests, biological and instrumental tests) present in the medical record of the child will be collected. Data from preterm infants without fetal growth restriction will be collected after informed consent. These infants are routinely followed at our Institution and undergo clinical assessment and lung function tests in the first two years of life as previously indicated.
NCT04307667
The goal of this clinical trail is to learn about how asthma influences brain function. The main questions it aims to answer are: * How airway inflammation in asthma affects the brain; and, * Whether airway inflammation in asthma is related to symptoms of depression and anxiety Over the course of 6 visits, participants will: * Complete questionnaires * Complete computer tasks * Undergo allergy skin test * Undergo breathing tests including two whole lung allergen challenges * Give four blood samples * Complete brain imaging scans
NCT06612294
Asthma affects 8% of the United States population ages \>60 years and causes considerable harm: older adults are 4 times more likely to die from asthma and have twice the risk of hospitalization. The burden of asthma is notably greater among minoritized older adults. Research suggests that perception of expiratory airflow limitation may be a major determinant of asthma outcomes in older adults, and that older adults are substantially less aware of airway obstruction than younger adults. These observations suggest that perception of airflow limitation is a potential target for improving outcomes of older patients with asthma. The research team completed a pilot randomized controlled trial (RCT) of an intervention that trains older adults with asthma to better perceive expiratory airway obstruction through feedback via peak expiratory flow (PEF) prediction and couples this feedback with motivational interviewing (MI) to promote change in asthma self-management behaviors. Compared to an attention control, the intervention improved PEF, perception of airflow limitation and asthma control. In this project, the research team will conduct a fully powered RCT to test the intervention's efficacy among 300 adults ages ≥60 years with uncontrolled asthma who are on controller medications (daily maintenance or as needed) recruited from underserved inner-city medical practices in New York City. Patients will be randomized to the intervention or a time and attention matched educational control. The intervention and control will be delivered in 3 sessions over 6 weeks. The study will test the impact of the intervention on perception of expiratory airflow limitation in older adults with asthma, examine the efficacy of the intervention for improvements in lung function (PEF), self-reported asthma control (Asthma Control Questionnaire \[ACQ\] scores), quality of life (Asthma Quality of Life Questionnaire \[AQLQ\] scores), and emergency department and hospital use, and test the intervention's impact on mean daily ICS dose used (daily maintenance and as needed). Data will be collected at baseline, 1-month, 6-months (primary analyses of effectiveness) and 12-months post-intervention. In secondary analyses, the research team will test the sustainability of treatment effects with vs. without the booster treatment session (active booster vs. attention control booster) delivered immediately after the 6-month assessment on outcomes at 12-months.
NCT04132778
Asthma self-management is dependent on support and education. To facilitate self-management have we developed and CE-mark a novel digital self-management system called Asthmatuner (Medituner AB, Sweden).The primary aim of this program is to evaluate if self-management with Asthmatuner improves asthma control more than traditional self-management. RCT with two arms, Asthmatuner or traditional asthma management, during at least 6 months. Thereafter, the study continues to be observational from 6- 12 months. Eligible patients with doctor's diagnosed asthma that are managed within the municipality of Tiohundra and Astrid Lindgren Children's Hospital will be invited to participate. Approximately 800 patients, adults and schoolchildren of the age of 6 years will be recruited.Outcomes: Asthma Control Test, number of exacerbations, unplanned healthcare visits, Medicine Adherence Report Scale and lung function.
NCT04596735
Prospectively evaluate the predictive value of individual pre-specified clinical extubation criteria for extubation success
NCT06702462
The purpose of the study is to assess the propellants,1 - Difluoroethane \[HFA-152a\] (Test) and 1,1,1,2-Tetrafluoroethane \[HFA-134a\] (Reference) for their potential to cause the airways to tighten when delivered through pressurized metered dose inhalers (pMDI). The rationale for this study is to develop a low carbon footprint alternative propellant, HFA-152a, which will have a lower impact on global warming.
NCT03799874
This study will be a multi-center, prospective, randomized, partially double-blind, placebo-controlled Phase II clinical trial of inhaled CO (iCO) for the treatment of ARDS. The trial will be conducted at 7 tertiary care medical centers including Weill Cornell Medicine/NewYork-Presbyterian Hospital, Brigham and Women's Hospital (BWH), Massachusetts General Hospital (MGH), Duke University Hospital, Durham Veterans Administration Medical Center, New York-Presbyterian Brooklyn Methodist Hospital, and Duke Regional Hospital. The purpose of this study is to evaluate the safety, tolerability, and efficacy of inhaled carbon monoxide (iCO) for the treatment of ARDS and to examine the biologic readouts of low dose iCO therapy in patients with ARDS
NCT07103512
To determine the additional effects of scalene hold relax technique with conventional exercises on pulmonary function in asthma patients
NCT05608668
This is a single-center, randomized, SHAM-controlled, parallel assignment, double-masked,8-week interventional study among children aged 8-17 years (not yet 18 years old) of age with obesity and asthma. (n=60), recruited from Duke Health Center Creekstone, to test the effectiveness of inspiratory muscle rehabilitation (IMR) as an acceptable add-on intervention to reduce dyspnea (feeling short-of-breath or breathless) and to promote greater activity in children with obesity and asthma. Clinic to test the effectiveness of inspiratory muscle rehabilitation (IMR) as an acceptable add-on intervention to reduce dyspnea (feeling short-of-breath or breathless) and to promote greater activity in children with obesity
NCT03870009
This study aims to validate a semi-automatized method to quantify cyclic hyperinflation on CT-scan of ARDS patients. The gold standard will be cyclic hyperinflation assessed on the same CT scan, using manual segmentation of the lung.
NCT05304039
An observational study in patients between 12 and 70 years old with an acute asthma exacerbation, to determine the relation between phenotypical characteristics and the treatment response.
NCT07133022
This study aimed to evaluate the effectiveness of early prone positioning in improving clinical outcomes among non-intubated patients with Acute Respiratory Distress Syndrome (ARDS). Prone positioning, which involves placing patients on their stomachs, has been shown to improve outcomes in patients on mechanical ventilation. However, limited evidence exists for its use in non-intubated patients. The researchers conducted a quasi-experimental study at Jenin Governmental Hospital in Palestine, involving two groups: one received early prone positioning in addition to standard care, and the other received standard care alone. Key clinical outcomes included respiratory rate, oxygen saturation, need for intubation, length of Intensive Care Unit (ICU) stay, and mortality. This study adds to the growing evidence supporting non-invasive interventions for managing ARDS and may help inform future clinical guidelines in low-resource settings.
NCT06931938
Prone positioning has shown beneficial effects in intubated patients with severe respiratory failure and positive effects in awake patients with COVID-19 pneumonia. Conclusive evidence for patients with AHRF without COVID-19 is still missing. The investigators hypothesis that awake prone position in patients with AHRF is superior to standard supine/semi-recumbent position in terms of reducing the rate of tracheal intubation and/or all-cause death within 28 days after randomization.
NCT06606444
Surfactant administration via a supraglottic airway device or laryngeal mask airway (SALSA) is a minimally invasive method of instilling surfactant in the trachea during spontaneous breathing and after applying nasal continuous positive airway pressure (nCPAP). However, the procedure has been limited from use in very low birth weight neonates, due to lack of preterm size LMAs, which are now emerging on the market. The goal of this study is to see if investigators can successfully use a new, smaller laryngeal mask airway (LMA) to place and give surfactant to premature babies with respiratory distress syndrome (RDS) who weigh between 750g and 1500g at birth. The main objectives of the study are to: * Check the placement of the new, smaller LMA: This includes evaluating the airway, how long it takes to place the LMA, how many attempts are needed, and the baby's stability during the process. * Evaluate the administration of surfactant using the new LMA: Investigators will look at how the baby responds clinically, any changes in oxygen needs, how many doses of surfactant are required, the level of respiratory support needed, and whether intubation or mechanical ventilation is necessary. * Ensure the safety of using the new LMA and administering surfactant: Investigators will monitor the baby's stability during the procedure and watch for any adverse events. * Assess pain during the procedure: Investigators will evaluate pain levels using a pain scale based on video reviews. Above objectives of feasibility are to be assessed before proceeding to a large randomize clinical trial assessing effectiveness and safety.
NCT07129330
Acute respiratory distress syndrome (ARDS) is a serious lung condition in which fluid builds up in the air sacs, making it hard to breathe and often requiring intensive care. Older adults fare worse because their lung-lining cells lose the ability to heal properly after injury This study will explore two key molecules-RSPO3 and Syndecan-1 (SDC-1)-that normally help alveolar (air-sac) cells regenerate. We will collect small blood samples from ARDS patients and, when patients undergo elective lung surgery, tiny pieces of healthy lung tissue. In the lab, we will also grow three-dimensional "lung organoids" from these samples to see how boosting or blocking RSPO3/SDC-1 affects cell repair Our goals are to: Measure RSPO3/SDC-1 activity alongside inflammatory markers (e.g., IL-6, TNF-α) to understand their roles in age-related repair failure. Build an integrated platform for early diagnosis, disease monitoring, and treatment evaluation in older ARDS patients. Identify molecular targets that could lead to new therapies, helping older adults recover lung function more effectively.
NCT06836375
The objective of this study is to detect the acoustic signals generated by the respiratory system on asthma patients using an acoustic sensor and retrospectively use these signals to identify the characteristics that differentiate patients with asthma and healthy subjects.
NCT05945355
This is single-center cross-sectional mechanistic study in lean and obese children with moderate-severe asthma, followed by a randomized, SHAM-controlled trial of Inspiratory Training (IT). The primary outcome is to describe the contributions of inspiratory muscle dysfunction (IMD) and Small Airway Dysfunction (SAD) to obesity-related versus non-obesity-related asthma. The study will involve training (IT) for 8 weeks at three intensity levels (SHAM, low and high). Target dose: 150 inspirations three times weekly. The population includes 6 to 17-year-old children with moderate to severe asthma and with a body mass index qualifying as normal habitus (BMI 5th to 84th CDC percentile) or obese habitus (≥95th percentile BMI and less than 170% of the 95th CDC percentile). Participants will be involved for 10 weeks. The investigators will use analysis of covariance (ANCOVA) to estimate and test the difference in mean values of baseline measures between obese and non-obese cohorts. Covariates will include age, sex (male/female), race/ethnicity, baseline asthma severity (NAEPP step 2 vs ≥3), and atopy status
NCT06062433
The main purpose of this study is to look at whether clinicians and their patients with asthma can satisfactorily perform remote asthma management at home (not visiting clinic) by using an artificial intelligence tool called Asthma-Guidance and Prediction System combined with a home monitoring device called AsthmaTuner.
NCT04193878
This research study seeks to establish the effectiveness of a combination of an inhaled corticosteroid and a beta agonist compared to placebo for the prevention of acute respiratory failure (ARF) in hospitalized patients with pneumonia and hypoxemia.
