121 Clinical Trials for Various Conditions
Bronchiolitis is the leading cause of pediatric morbidity and healthcare costs. Despite the commonplace use of bronchodilator treatments, like albuterol, in conditions like asthma, their efficacy in bronchiolitis remains controversial due to the heterogeneity in patient response. Although studies indicate that bronchodilators do not enhance outcomes in bronchiolitis, meta-analyses can obscure the heterogeneity of treatment effects. While bronchodilator response genetics have not been explored in bronchiolitis, treatment effectiveness variations often depend on genomic factors. Genome-wide association studies (GWAS) have linked genetic variants with bronchodilator response and outcomes in childhood asthma, suggesting a bronchodilator-responsive genotype. This proposal aims to extend this paradigm to bronchiolitis, addressing the gap in knowledge where GWAS and clinical characteristics intersect. The proposed study's objective is to characterize phenotypic and genotypic variations of children with bronchiolitis and their association with bronchodilator response. We hypothesize that children with bronchiolitis who exhibit clinical and historical characteristics associated with atopy and specific physical findings have genetic variants linked to bronchodilator response. To achieve this, we propose to (Aim 1) define airway responsiveness to bronchodilator treatment in children with bronchiolitis using the change in respiratory score, (Aim 2a) identify the associations between candidate genetic variants and bronchodilator response among children with bronchiolitis, and (Aim 2b) determine the associations between candidate genetic variants and clinical patient data to identify bronchodilator-responsive children with bronchiolitis. A prospective, double-blind, randomized, placebo-controlled trial of a single albuterol dose in children aged 3 to 24 months presenting with bronchiolitis to the emergency department will be conducted to achieve these aims. Patient information and respiratory assessment outcomes will be collected before and after intervention. Blood, urine, DNA buccal swabs, and nasopharyngeal swabs will also be collected. Completion of these aims will result in a novel clinical prediction model for bronchodilator response determination in bronchiolitis, integrating clinical, physical, and genetic data. Furthermore, this research supports the candidates' career development goals of advancing training in clinical trial research design and execution and becoming an expert in clinical and translational methods to enhance pediatric emergency department health and outcomes. Ultimately, this work will inform an R01 application to validate an evidence-based prediction rule for identifying bronchodilator-responsive children with bronchiolitis through a multi-center emergency medicine research network, optimizing therapeutic approaches, and reducing resource use in those with a low likelihood of bronchodilator response.
The goal of this experimental study is to learn whether different types of best practice advisories (BPAs) that direct clinicians to reference clinical guidelines embedded in the electronic health record (EHR) increase the delivery of evidence-based care in children presenting to the hospital with bronchiolitis. The main questions it aims to answer are: * Do BPAs improve clinicians' delivery of guideline-concordant care in bronchiolitis? * Do interruptive BPAs improve guideline-concordant care of bronchiolitis more than non-interruptive BPAs? Researchers will compare the treatment and outcomes of patients whose clinicians did not receive a BPA, to those whose clinicians received a non-interruptive BPA, to those whose clinicians received an interruptive BPA. Patients will continue to receive standard hospital care for bronchiolitis. Clinicians will: * retain access to an EHR-embedded clinical guideline for bronchiolitis care * be exposed to either no BPA, a non-interruptive BPA, or an interruptive BPA promoting the EHR-embedded clinical guideline (randomized per patient encounter)
This project aims to answer whether the use of a Neurally-Adjusted Ventilatory Assistance mode for non-invasive ventilation in pediatric patients with bronchiolitis results in improved comfort and reduced escalations in therapy (including intubation) when compared to using a standard mode of non-invasive ventilation. Neurally-Adjusted Ventilatory Assistance (NAVA) has been shown to result in greater synchrony then the standard mode of non-invasive ventilation. The study team hypothesizes that this improved synchrony can result in important clinical improvements when NAVA is used to treat children with bronchiolitis.
The goal of this clinical trial is to determine whether it is possible to identify, enroll, and deliver the study intervention (the corticosteroid dexamethasone) in hospitalized infants with bronchiolitis. Participants in this study will be given two doses of dexamethasone within 72 hours of enrollment, followed by 30 days of safety monitoring. Results of this feasibility pilot study may be used to inform the design of a future randomized controlled trial, whose results in turn could induce a paradigm shift in acute management of bronchiolitis.
This is a multi-center, parallel, double-blind, randomized controlled clinical trial. Children \<12 months of age hospitalized with bronchiolitis are randomized 1:1 to receive a 24-week home intervention with filtration units containing HEPA and carbon filters (in the child's sleep space and a common room) to improve indoor air quality (IAQ) or to a control group with filtration units without HEPA and carbon filters. The HEPA intervention units and control units will be used for 24 weeks after pre-intervention IAQ measurements. Children are followed for respiratory outcomes over the pre-intervention and intervention periods.
This study's objective is to identify and test pragmatic and sustainable strategies for implementing a multi-condition clinical pathway intervention for children hospitalized with asthma, pneumonia, or bronchiolitis in community hospitals. The hypothesis is that the multi-condition pathway intervention will be associated with significantly greater increases in clinicians' adoption of evidence-based practices compared to control. The study is a pragmatic, cluster-randomized trial in US community hospitals. The primary outcome will be adoption of evidence-based practices over a sustained period of 2 years. Secondary outcomes include length of hospital stay, intensive care unit transfer, and hospital readmission/emergency department revisit.
This research study will evaluate the difference in effectiveness of nasal suction between two different suction devices (NoseFrida and bulb syringe) in infants that have bronchiolitis. Bronchiolitis (a virus infection that goes into the lungs, which subsequently causes difficulty breathing, difficulty sleeping, and difficulty eating and drinking in children) is a common infection in young children. The caregiver-participants will be supplied with a suction devices (either NoseFrida and bulb syringe suction). The device should be used to clear nasal secretions as needed following discharge from the Emergency Center. The participants will be asked to use either a NoseFrida device or a bulb syringe. Caregivers will monitor how well their baby is breathing, eating/drinking, sleeping and how many times the baby has been seen by a medical provider in the 5 days post discharge from the Emergency Center. Post discharge, caregivers will complete a REDCAP survey asking questions about how their baby has been doing over the first 5 days following hospital discharge. REDCAP survey will be sent day 5 and again on day 7 if not completed. This completes study involvement.
This study aims to evaluate whether placing nasogastric tubes for gastric decompression improves respiratory distress for patients with bronchiolitis who are receiving oxygen via high-flow nasal cannula.
Over-testing and over-treatment costs the US healthcare system hundreds of billions of dollars a year, and has measurable negative impacts on patients' physical, emotional, and financial health making it a significant public health concern. The proposed research will advance "de-implementation" science by identifying processes and strategies to stop or reduce over-testing and over-treatment that can be broadly adapted to varied contexts and disease processes to improve the delivery of guideline concordant, evidence-based care and improve patient outcomes.
The proposed study is a pilot randomized control trial to determine the efficacy of dexamethasone use in hospitalized children who are less than 2 years of age with non-respiratory syncytial virus (RSV) bronchiolitis admitted to the University of Pittsburgh Medical Center (UPMC) Children's Hospital of Pittsburgh from February 1 to May 31, 2022. It is hypothesized that the use of standard airway-dose steroids (0.6mg/kg dexamethasone) will improve the clinical outcome of children hospitalized for non-RSV bronchiolitis, which will be evident by decreased length of stay.
Delivery of aerosolized Infasurf to bronchiolitis patients with who are not on assisted ventilation can provide sufficient delivery of Infasurf to small airways to improve ventilation and thereby shorten the duration of the respiratory illness.
Bronchiolitis is a respiratory illness characterized by acute inflammation of the airways, typically caused by a virus. By definition, it impacts children between 2 months and 2 years of age and is the most common cause of hospitalization among infants in the first year of life (American Academy of Pediatrics). Children with this illness may exhibit respiratory distress, as well as symptoms of viral respiratory illness, such as sneezing, nasal congestion, and cough. Often, hospitalization is required for respiratory distress and to support hydration needs. Evidence based guidelines for the treatment of acute viral bronchiolitis primarily involve supportive care, which most often includes supplemental oxygen, hydration, and suctioning of secretions. However, in practice, bronchiolitis care is highly variable, often involving therapies such as inhaled bronchodilators, systemic corticosteroids, inhaled hypertonic saline, continuous pulse oximetry, chest physiotherapy, antibacterial medications, and use of intravenous fluids, all of which have been shown to be unnecessary and costly. Unnecessary care remains although multiple published quality improvement studies centered on acute bronchiolitis have proven successful. Quality improvement interventions have shown reduced use of unnecessary treatments and reduced resource allocation. Therefore, the investigators will conduct a quality improvement process to improve adherence to bronchiolitis treatment guidelines for children with bronchiolitis treated at University of California Davis Children's Hospital.
This is a pilot study comparing a weight-based high-flow nasal cannula (HFNC) protocol with the current standard HFNC protocol for children \<2yo admitted to South Shore Hospital with bronchiolitis. We currently use a flat limit of 8 liters of HFNC to support work of breathing and hypoxia in these patients. We will compare that to a weight-based protocol, which will provide 2L/kg/min of flow (flows generally between 6 and 20L/minute) to this patient population. The goal of this pilot study is to assess the feasibility of our study design. We will evaluate the functionality of a new weight-based flow protocol. We will also evaluate the functionality of a new bronchiolitis scoring tool, the Bronchiolitis Assessment Severity Score (BASS), and it's ability to guide care through the new protocol. We are also testing the feasibility of recruitment, randomization and retention. We are ultimately interested in whether a weight-based flow protocol reduces need for escalation to ICU-level care for children with moderate-severe bronchiolitis on HFNC.
This study evaluates the value of routine follow-up with a child's pediatrician after hospitalization for bronchiolitis. Parents of half of participants will be instructed to follow-up with the child's pediatrician regardless of symptom resolution, while the other half will be instructed to follow-up on an as-needed basis (only if the child worsens, doesn't improve, or other concerns develop).
The investigators aim to compare the standard bulb aspirator with that of a nasal oral aspirator. The hypothesis is that use of a nasal oral aspirator is more effective at removing nasal secretions in the treatment of bronchiolitis as measured by a predicted 50% decrease in the rate of unscheduled bronchiolitis return visits. The primary endpoint will be the number of unscheduled bronchiolitis return visits; secondary endpoints will include measurements of oral intake, respiratory relief, parental device preference and adverse events.
The purpose of this study is to assess if administration of an early single dose of a diuretic (furosemide) to children with moderate to severe bronchiolitis can reduce extravascular lung water in an effort to reduce respiratory rate, retractions, intubations, and length of stay.
The aim of this prospective pilot study is to determine the effect of heliox delivered via a proprietary calibrated heated and humidified high flow nasal cannula (HFNC) system (Vapotherm Precision Flow Heliox) in children ages 0-24 months with severe bronchiolitis.
The purpose of our study is to determine the safety, efficacy, length of stay and parental satisfaction of the NoseFrida in comparison to a suction device used in the hospital setting in patients with bronchiolitis admitted under observation status.
The purpose of this study is to compare heat and humidified oxygen with cold and dry oxygen in children with bronchiolitis. The hypotheses are that heating and humidifying inspired low flow supplemental oxygen will optimize mucociliary function thereby, 1) improve oxygenation, 2) decrease work of breathing, and 3) decrease length of hospital stay.
This is a randomized, double-blind, controlled trial in the Pediatric Emergency Department. The primary objective is to determine whether nebulized 3% hypertonic saline is more effective than nebulized 0.9% saline in the treatment of bronchiolitis in the emergency department.
Bronchiolitis is a common cold weather seasonal respiratory illness affecting infants and children. Multiple supportive therapies have been tried in infants with bronchiolitis including albuterol, racemic epinephrine, hypertonic saline nebulization, but to date supportive therapy with oxygen is the only proven therapy to decrease respiratory distress in infants with bronchiolitis, with hypertonic saline showing a borderline statistically significant improvement. This prospective, randomized study will compare CSS and PEWS scores on infants who receive oxygen by standard flow nasal cannula and to those who receive oxygen via Humidified High-Flow Nasal Cannula (HHFNC). The results will help determine if infants with viral bronchiolitis who receive humidified high flow nasal cannula oxygen therapy have improved Clinical Severity Score (CSS) and Pediatric Early Warning System (PEWS) scores and ultimately decreased lengths of admissions when compared to patients treated with nasal cannula oxygen therapy with/without bronchodilator therapy. Hypothesis Heated Humidified High-flow Nasal Cannula Delivery of Oxygen decreases respiratory distress as measured by pediatric CSS and PEWS when compared with routine nasal cannula oxygen delivery in infants with bronchiolitis.
The purpose of this study is to determine if nebulized hypertonic saline (or extra salty water mist) helps infants less than 12 months old hospitalized with bronchiolitis (or bad chest colds) get better enough to be discharged from the hospital sooner than those infants given nebulized normal saline (or regular salty water mist).
Bronchiolitis is a potentially severe infection of the airway in infants and children, and among the most frequent diagnoses leading to pediatric intensive care unit admission in infants. This acute infection is caused by an array of viruses, but respiratory syncytial virus (RSV) is the most frequently implicated. The majority of infants hospitalized with bronchiolitis are previously healthy, and half of infants intubated and mechanically ventilated for respiratory failure due to RSV bronchiolitis have no previously identified risk factors. It is likely, therefore, that other factors, particularly genetic heterogeneity of the host, contribute to disease severity. However, no previous study has investigated the association of genetic variants with respiratory failure in children with bronchiolitis. Several categories of candidate genes have emerged as potentially important in the pathogenesis of the disease. Specifically, genetic polymorphisms of surfactants, pattern recognition receptors, receptor adhesion molecules, and cytokines have been examined. The aim is to evaluate these polymorphisms to determine their association with respiratory failure in a cohort of more severely ill children with bronchiolitis.
The purpose of this study is to determine whether nebulized 3% hypertonic saline (HS) improves respiratory distress in children 2-23 months presenting to the emergency department (ED) with acute bronchiolitis with persistent respiratory distress after initial therapy with a trial of nebulized albuterol.
Bronchiolitis is a significant cause of morbidity and hospitalizations in children, accounting for more than 125,000 hospitalized children per year in the United States. Although treatment is largely supportive, bronchodilator medications such as albuterol are frequently used due to increased pulmonary resistance in this population.2-4 However, despite four decades of clinical trials, the efficacy of albuterol in the treatment of bronchiolitis has yet to be proven. This inconsistency is due in part to the lack of sufficiently sensitive methods for the evaluation of lung function and thus the response to albuterol in infants. Because of the difficulties in evaluating the response to therapy, healthcare providers are forced to rely on their physical examination skills or a clinical scoring system, both of which are highly subjective in this population. The investigators propose to conduct a prospective observational study of healthcare providers to determine the accuracy of clinical assessment as compared to that of pulmonary mechanics in a population of children intubated and mechanically ventilated for bronchiolitis.
Hypothesis: That administration of nebulized therapy for bronchiolitis when using positive airway pressure is superior to standard mask ventilation in reducing hospital admissions. Bronchiolitis is a lower respiratory tract infection (LRTI) syndrome caused by a variety of different viruses. It is the most common LRTI in children under 24 months old. Multiple studies have documented variation in treatment, hospitalization rates, and length of hospital stay for bronchiolitis, suggesting a lack of consensus and an opportunity to improve care for this common disorder. Research to determine optimal delivery methods of respiratory medications that may augment oxygenation by decreasing atelectasis (Lung cell collapse) and increasing oxygen saturation have not been done. Currently bronchodilators are delivered through a passive process, inhaled as they are nebulized (made from liquid into gas) into a face mask. This study will evaluate whether using a newly developed positive pressure nebulization device that uses pressure to expand lung cells and, hypothetically, deliver the medication better, improves oxygenation by reducing atelectasis (lung cell collapse) to decrease hospitalization in infants with moderate to severe bronchiolitis. Positive pressure nebulization is a relatively new adaptation of a previously existing modality, and is already currently in use here at PCH.
The fraction of exhaled nitric oxide (feNO) in expired air is a reliable measure of airway inflammation. Some research experiments have demonstrated stimulation of nitric oxide production in respiratory epithelial cells infected with RSV. The principal aims are to determine if the fraction of exhaled nitric oxide (feNO) is elevated in hospitalized pediatric patients with viral lower respiratory illness and to determine if there is a difference in feNO level between RSV and non-RSV infection. NO may play a role in the association between RSV, airway reactivity, and airway inflammation. This is a prospective, pilot study that will noninvasively measure feNO in children 0-4 years of age admitted to Winthrop University Hospital, as well as controls (children in the same age range without respiratory conditions and who are well enough to perform the test). Hospitalized children will be tested for RSV (enzyme immunoassay (EIA) \& DFA) and via direct fluorescent antigen technique (DFA) for influenza A \& B, parainfluenza, human metapneumovirus and adenovirus. Method of feNO measurement will utilize the offline options for preschool children \& infants appropriate for age as described in the 2005 Joint Statement of the American Thoracic Society \& the European Respiratory Society when discussing tidal breathing techniques with uncontrolled flow rate Offline exhaled air can be collected via a mouthpiece or a face mask connected to a non-re-breathing valve that allows inspiration of NO-free air from an NO-inert reservoir to avoid contamination by ambient NO. Exhaled breath samples are collected into an NO-inert bag fitted with the expiratory port once a stable breathing pattern is present. The results of all 3 groups will be compared: control, RSV positive and RSV negative samples.
Bronchiolitis is a lower respiratory tract infection (LRTI) syndrome cause by different types of viruses and occurs in young children. Although bronchiolitis is a widespread and fairly common illness in children, pediatricians vary significantly in how it is treated. This includes how children are monitored for their oxygen status when not receiving supplemental oxygen. Studies suggest that continuous pulse oximetry measurement of children admitted to the hospital with bronchiolitis regardless of use of supplemental oxygen prolongs their hospital stay. This increases the cost of care for these patients and increases their risk of hospital-associated complications. This study is a randomized trial of continuous pulse oximeter use in patients admitted with bronchiolitis versus transitioning patients not requiring oxygen to intermittent pulse oximetry monitoring. The investigators hypothesize that this will decrease length of stay as well as associated costs of care and number of medical interventions performed in the hospital.
The primary rationale for this study is to evaluate the effect of once daily montelukast on duration of acute illness in infants with first-time bronchiolitis.
This study aims to examine the effect of nebulized 3% hypertonic saline in the treatment of viral bronchiolitis. The investigators hypothesize that nebulized 3% saline will decrease rate of hospital admission, decrease clinical severity scores, and decrease length of stay.