53 Clinical Trials for Various Conditions
This is a Phase 2, randomized, multicenter study in adult and adolescent participants with asthma and type 2 inflammation
The primary goal of this proposal is to use an in-home, smartphone-enabled, hand-held spirometer to determine the FEV1% predicted ranges that predict the Yellow Zone threshold.
Asthma is a disease resulting in mucus hypersecretion and airways obstruction. This causes difficulty breathing. The High Frequency Chest Compressor (HFCC) is a device that has been shown to decrease respiratory complications in individuals with severe disability who are unable to clear airway secretions. There is a lack of studies using this device in children with asthma. The device has been shown in a study to be safe in children with asthma. The investigators propose that using this device in our pediatric patients hospitalized in the pediatric ICU with asthma will result in decreased pediatric ICU stay. The investigators will also look at asthma severity, total days of hospital stay and chest discomfort while on therapy.
Objective: To determine the extent to which high-dose (30mg) oral montelukast, added to standard treatment in children with moderate and severe acute exacerbations improves outcomes. Central Hypothesis: High-dose oral montelukast, added to standard treatment in children aged 5 to 17 years with moderate and severe acute asthma exacerbations, rapidly improves lung function, clinical severity, hospitalization rate and 72-hour symptom burden. Secondary Hypotheses: 1. There are greater effects of high-dose oral montelukast on lung function and on the secondary outcomes in the presence of respiratory viral detection or leukotriene-mediated inflammation; and 2. There is an interaction between viral detection and urinary leukotriene 4 level with treatment-response. Design: A two-arm, parallel randomized controlled trial of high-dose oral montelukast versus identical placebo, as add-on to standard treatment, in children aged 5 to 17 years with moderate and severe acute asthma exacerbations. Intervention: High-dose oral montelukast added to standard treatment in comparison with standard treatment as the 2nd treatment-allocation arm. Primary and Important Secondary Endpoints: For the Primary Aim, the primary outcome measure to be compared between arms will be change of %-predicted airway resistance by impulse oscillometry (IOS) at 5Hz (%R5) at 2 hours after treatment initiation. Secondary outcomes will include improvement of %-predicted FEV1 (%FEV1), clinical severity measured using the validated Acute Asthma Intensity Research Score (AAIRS), hospitalization rate, and 72 hour symptom burden using the Pediatric Asthma Caregiver Diary (PACD). For the Secondary Aim, the investigators will determine (1) The effects of high-dose oral montelukast on lung function and on our secondary outcomes in the presence of nasal viruses and of greater leukotriene-mediated inflammation; and (2) The degree of interaction between viral detection and urinary leukotriene E4 (LTE4) level with treatment-response. Laboratory evaluations: The primary outcome (change of %R5) and select secondary outcomes (%FEV1, AAIRS, LTE4) will be measured before and again at 2 hours after treatment initiation. The other secondary outcomes will be measured at the time of hospitalization decision-making by the clinical team (hospitalization rate) or at 72-hours after treatment initiation (PACD).
There are different inhalers used for the treatment of asthma and they work differently and require different technique for the optimal drug delivery to the lungs. One of the inhalers is the Dry Powder Inhaler (DPI). The minimal amount of Negative Inspiratory Flow (NIF) required to use this medication is 30ml/min. Studies have shown that children find it difficult to generate this NIF and studies have also shown that children generate lesser NIF during an Asthma exacerbation. The investigators will measure the NIF using an InCheck Dial on children with asthma during an exacerbation and when they are seen in clinic for a hospital follow up visit. This will be done on asthmatic children regardless of the inhaler that they use. The investigator hypothesize that children with asthma age 4-8 years cannot generate the required NIF during an Asthma exacerbation hence proving that a DPI cannot be prescribed to children at this age. This study will examine this hypothesis.
To study the change from baseline in IL-1β (interleukin 1 beta) concentrations in the nasal airway during acute asthma exacerbation, specifically to measure the degree of change and identify the timing of peak IL-1β concentration. This information will allow the investigators to estimate effect size and guide decisions about the optimal timing of anakinra administration for the future study.
Asthma affects 1 in every 12 persons in the U.S., resulting in 1.9 million ED visits annually; however, the impact of ED care on patient-reported outcomes after acute exacerbations is unknown. The proposed research will train a physician-scientist to develop a novel instrument to assess patient-reported outcomes after adult ED asthma visits, evaluate the association between ED clinical processes and patient-reported outcomes, and test the association between patient-reported outcomes and subsequent acute care utilization. The candidate will acquire skills in patient-centered research, instrument development and validation, and risk adjusted outcome measurement that will enable her transition to independence.
Patients presenting to the emergency department with acute asthma exacerbation will be assigned to peak-expiratory flow rate (PEFR) guided management and non-PEFR guided management.
Study Summary: Title: A Randomized Controlled Trial of Noninvasive Positive Airway Pressure in the Pediatric Emergency Department for the Treatment of Acute Asthma Exacerbations Principal Investigator: Thomas J. Abramo, MD Hypothesis: For acute moderate to severe pediatric asthma exacerbations the use of NIPPV/BiPAP, in conjunction with current standard of care therapies, will lead to a more rapid improvement in patient ventilation, faster resolution of respiratory distress and result in improved ventilatory parameters, secondary outcomes and pediatric asthma scores. Study Design: Prospective, randomized controlled trial Study Duration: This study will be conducted over a 36 month period. Sample Size: 240 subjects Population: Children ages 2-17 years of age presenting to the ED with Acute asthma exacerbation and a Pediatric Asthma Score (PAS) ≥ 8. Synopsis: Eligible subjects will be randomized to either a control group or study groups. The study groups will be either a NIPPV/BiPAP group. The subjects in the study groups will continue to receive all standard of care therapies per the asthma severity protocols. All nebulized therapies will be given through the NIPPV circuit. Patients will be assessed by the pediatric asthma score (PAS), measured respiratory parameters, volumetric end tidal carbon dioxide monitoring and measured cardiac parameters. Objectives: A. Evaluate if the use of NIPPV/BiPAP in conjunction with traditional inhaled beta-agonists improves the outcome in pediatric patients with acute moderate to severe asthma in the acute setting. B. Describe the physiology of NIPPV/BiPAP by measuring cardiac parameters in children randomized to a NIPPV group. C. Monitor safety of NIPPV/BiPAP use for acute asthma exacerbations in children. Safety A.: The study must be IRB approved. B.: Appropriate consent and assent documents will be obtained prior to enrolling the subject in the study. C.: A clear safety plan including DSMB will be established to monitor for adverse events. D.: Confidentiality will be ensured for all subjects enrolled in the study.
This is a blinded observer randomized controlled trial comparing two nebulizer devices. The objective of this study is to evaluate the efficacy of two different nebulizers.
Asthma is a leading cause of emergency department (ED) visits for children. A novel way of treating asthma is the use of positive expiratory pressure (PEP). Positive expiratory pressure works by creating pressure in the lungs to keep airways open and to clear mucus from the lungs. PEP is already used in the treatment of asthma at the investigators institution, but studies evaluating the efficacy of PEP therapy in asthma exacerbations do not exist. This study plans to learn more about the use of PEP therapy in the treatment of asthma exacerbations in children in the emergency department. Specifically, the study aims to evaluate if PEP therapy reduces the severity of asthma exacerbations in children and if it reduces the need for additional therapies and admission to the hospital. This study will be a randomized control trial comparing children who receive standard therapy to those who receive standard therapy plus PEP therapy in the treatment of asthma exacerbations. Children age 2 to 18 years presenting to the ED with moderate to severe asthma exacerbations will be included in the study. Reduction in clinical asthma severity will be measured by change in the Pulmonary Asthma Score (the respiratory severity score used at the investigators institution). The need for additional therapies and hospitalization will also be evaluated.
The objective of this randomized control trial is to investigate the efficacy of an adjunct positive airway pressure (PAP) nebulizer device known as "AccuPAP" in the treatment of moderate-severity acute asthma exacerbations in children ages 6 - 17 years in comparison with an institutional standard continuous dual-therapy nebulizer treatment. The investigators main goal, more specifically, is to determine if the additional positive airway pressure provided by the AccuPAP device when used in treating children with moderate-severity asthma exacerbations provides a more optimal delivery of bronchodilator therapy when compared to institutional standard protocol nebulizer delivery mask which does not employ the use of positive airway pressure in medication delivery. The investigators have determined that the change in a study-validated Acute Asthma Intensity Research Score (AAIRS) which will be considered statistically significant for a patient is 2 points or greater after the first treatment has been completed.
Previous investigations and anecdotal experience have shown safety and utility of Noninvasive Positive Pressure Ventilation/Bilevel Positive Airway Pressure (NIPPV/BiPAP) for the treatment of asthma in children. If NIPPV/BiPAP can be shown to have a beneficial effect in children with respiratory insufficiency, emergency department and ICU stays may be shortened, and the need for more invasive and dangerous airway procedures may be decreased. This would result in a change in the standard of care for asthma treatment in emergency departments. The investigators hypothesis is that the use of this new NIPPV, in conjunction with current standard of care therapies, in acute moderate to severe asthma exacerbations will lead to a more rapid improvement in patient ventilation, faster resolution of respiratory distress, and overall improved secondary outcomes.
The hypothesis to be tested is that acutely ill asthmatics who do not resolve their attacks following standard doses of albuterol and require admission to hospital have single nucleotide polymorphisms of their B2 adrenergic receptors that lower B2 agonist responsivity.
The purpose of this study is to determine the best dose of nebulized arformoterol, a quick onset but long acting beta agonist, for use in treating acute bronchospasm in asthmatics presenting to the the Emergency Department. Also this study will evaluate the side effect and safety profile of arformoterol when used in this situation.
The purpose of this study is to investigate mechanisms which cause acute asthma exacerbations by examining blood and airway secretions during an acute onset (sputum or tracheal aspirates). This pilot study is intended to uncover new mechanisms of asthma exacerbation and to generate hypotheses for future study. By collaborating with Genentech, we (scientists at UCSF) plan to incorporate the latest scientific findings into our work to discover and develop new treatments for asthma.
The purpose of this study is to determine in a large, double-blind, randomized, prospective pediatric clinical trial whether the use of continuous levalbuterol (Xopenex) in addition to standard emergency department treatment for acute asthma exacerbations will improve the Forced Expiratory Volume in 1 sec (FEV 1) compared to the use of continuous racemic albuterol. The secondary objective is to correlate clinical (hospitalization rates and clinical asthma scores) with plasma levels of (S)-albuterol.
This is a double blind, controlled clinical trail testing whether three doses of 1.25 mg of nebulized levalbuterol in combination with three doses of 0.5mg of nebulized ipratropium will lead to greater bronchodilation than that achieved by three doses of nebulized 1.25 mg of levalbuterol alone every 20 minutes. The primary hypothesis of this study is that three doses of 1.25 mg of nebulized levalbuterol in combination with three doses of 0.5mg of nebulized ipratropium will lead to greater bronchodilation than that achieved by three doses of nebulized 1.25 mg of levalbuterol alone every 20 minutes. The secondary hypothesis is that the treatment combination of levalbuterol and ipratropium will lead to fewer hospitalizations than levalbuterol alone in patients with acute asthma exacerbation. Other secondary objectives include (1) evaluating the relationship between baseline (S)- albuterol levels and (R)- albuterol levels on presentation and FEV1, (2) the relationship between baseline (S)- albuterol levels and (R)- albuterol levels on presentation and change in FEV1,(3) time to event analysis for an improvement of 15%, 20%, 30%, 40%, and 50% in FEV1 from initial presentation value, (4) analysis of FEV1 at discharge.
The purpose of this study is to investigate whether heliox-powered albuterol nebulizer therapy will result in reduced inpatient length of stay in children hospitalized with acute asthma exacerbations.
The purpose of this study is to determine whether the addition of budesonide inhalation suspension (BIS) to the standard therapy of albuterol, ipratropium bromide, and systemic corticosteroids (SCS) for moderate to severe asthma flares in children reduces asthma severity more rapidly than standard therapy alone.
Oral montelukast is helpful in chronic asthma. The purpose of this pediatric study was to investigate whether the addition of oral montelukast to standard therapy for acute asthma exacerbations results in further improvement in breathing function over three hours.
To examine the role of outdoor pollen grains and fungal spores in the exacerbation of asthma and to produce forecasting models to predict days of high concentration.
The objective of this study is to determine the feasibility of conducting a randomized controlled trial to evaluate the effectiveness of an online, Emergency Department-initiated asthma management intervention designed to reduce asthma-related morbidity among urban teenagers aged 13-19 years with uncontrolled asthma. The study will examine issues around recruitment, participant compliance with the study protocol, Internet access, and attrition. Investigators will first develop a protocol for recruiting 13-19 year old patients with acute asthma into an ED-initiated pilot trial of an online asthma management program, describing recruitment and refusal rates. Investigators will measure participant compliance with the pilot study protocol including 4 online sessions and a 6 month survey. Investigators will also measure compliance of the participants parents at baseline and a six month follow up. Investigators will then use pilot study results to describe the intervention effect on selected outcomes including ED visits, asthma control as measured by Asthma Control Questionnaire, functional limitations, quality of life, and behavior change.
This is a study of levalbuterol tartrate HFA inhalation aerosol MDI in pediatric subjects birth to ≤ 48 months of age who go to the Emergency Department (ED) or their physician's office with an acute bronchospasm. Subjects presenting to the ED or physician's office with an acute bronchospasm must have a history of reactive airways disease, based on subjects' parent/guardian report.
The ProACT study is a 5 year, multicenter study that will test the effect of implementation of a novel procalcitonin guideline on antibiotic use and adverse outcomes in Emergency Department (ED) patients with Lower Respiratory Tract Infection (LRTI).
Asthma is a chronic lung condition in children, and often requires hospitalization for acute exacerbations. Azithromycin has been used successfully in other chronic lung diseases, including cystic fibrosis. Despite limited clinical evidence, some pediatricians use azithromycin in children hospitalized with asthma, citing either treatment of atypical pathogens or its proposed anti-inflammatory properties. This study proposes a clinical trial to determine if azithromycin will shorten length of stay in children hospitalized with acute asthma exacerbations.
The purpose of this study is to evaluate the Puff City web-based behavioral intervention of asthma management program in a clinical setting. This study also examines and evaluates the cost and efficiency of patient eligibility determination methods, patient recruitment, study monitoring (compliance with study regimen, participant retention and follow-up), and the collection of clinical endpoints.
The purpose of this study is to to compare the effects of high-dose Inhaled Corticosteroids (ICS) vs. placebo in adults with chronic stable asthma.
Background: The bronchodilator therapy is an essential component of the management of asthma exacerbation. The delivery of bronchodilators to the lungs in asthma exacerbations is usually achieved through nebulization (creating small particles to be inhaled). The commonly used nebulizer device is a small volume jet nebulizer which has not been consistently reliable in delivering bronchodilator therapy. The Aeroneb nebulizer device is a FDA approved device which produces consistently respirable sized particles which could potentially result in better bronchodilator effect than the standard jet nebulizer. Aim: To study whether the Aeroneb nebulizer is more effective than a small volume jet nebulizer in delivering bronchodilators during a severe asthma exacerbation. Experimental design: Patients will be randomized (like a flip of a coin) to receive bronchodilator therapy as per the emergency room protocol either via small volume jet nebulizer or Aeroneb nebulizer. Subjects: Adult patients between age of 18 and 55 years who present to the emergency room with severe asthma exacerbation with peak expiratory flow rate \<50% of predicted. Study procedure: When enrolled in the study and after randomization, we will then collect data that is standard for the hospital like heart rate, blood pressure and breathing indices and also some non-routine things like some scoring scales for shortness of breath and serial measurements of peak expiratory flow rate. We anticipate that the Aeroneb device will be more effective in delivering bronchodilator medication and thus more effective in managing asthma exacerbations.
The purpose of this pilot study is to collect preliminary clinical data related to the safety and preliminary clinical benefits of non-invasive vagal nerve stimulation with the AlphaCore™ device for the relief of acute bronchoconstriction due to asthma. Up to 30 subjects who meet all inclusion/exclusion criteria and consent to participate in the study may be enrolled at up to 5 investigational (study) sites. The study sites are clinic settings capable of treating any potential complications of bronchoconstriction, an acute exacerbation of asthma, and any emergencies associated with use of the investigational device.