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75 active trials for Bronchopulmonary Dysplasia

Enteral Zinc to Improve Growth in Infants at Risk for Bronchopulmonary Dysplasia

Multiple factors contribute to growth failure in infants with BPD, including poor nutrient stores, inadequate intake, increased losses, and increased needs. Furthermore, compared to infants without BPD, those with BPD have increased resting metabolic rates and energy expenditure. Growth deficits manifest as lower weight, length, and head circumference, as well as changes in body composition. These deficits precede the development of BPD and persist post-discharge. While similar rates of growth are observed in very low birth weight infants with and without BPD once receiving equal calories, catch up growth does not occur in the BPD group. Thus, early growth deficits remained uncompensated. After iron, zinc is the most metabolically active trace element in the human body. It has a critical role in growth, through its actions on growth hormone, IGF-1, IGFBP-3, and bone metabolism. Prematurity is a risk factor for zinc deficiency, as 60% of zinc accretion occurs in the third trimester. Impaired intake and absorption or excess excretion can further increase this risk. Finally, periods of rapid growth, as seen in preterm infants, increase the need for zinc. Biochemically, zinc deficiency is defined by a serum zinc level less than 55mcg/dl. However, while zinc depletion is associated with deficiency, the opposite may not be true. For example, in starving patients, clinical symptoms of zinc deficiency occur during re-feeding, suggesting overall requirements are related to needs, regardless of overall zinc status. This may be the case in preterm infants, who may have a subclinical deficiency despite serum zinc level. Thus, zinc deficiency should be considered in infants with poor growth despite receiving adequate protein and calories. The objective of this study is to determine whether enteral zinc supplementation leads to improved growth in infants at risk for bronchopulmonary dysplasia (BPD). The investigator's hypothesis is that enteral zinc supplementation in very preterm infants at high risk for BPD will significantly improve growth compared to standard of care.

Start: March 2018

High Frequency Oscillatory Ventilation Combined With Intermittent Sigh Breaths: Effects on Lung Volume Monitored by Electric Tomography Impedance.

Background Ventilator induced lung injury (VILI) remains a problem in neonatology. High frequency oscillatory ventilation (HFOV) provides effective gas exchange with minimal pressure fluctuation around a continuous distending pressure and therefore small tidal volume. Animal studies showed that recruitment and maintenance of functional residual capacity (FRC) during HFOV ("open lung concept") could reduce lung injury. "Open lung HFOV" is achieved by delivering a moderate high mean airway pressure (MAP) using oxygenation as a guide of lung recruitment. Some neonatologists suggest combining HFOV with recurrent sigh-breaths (HFOV-sigh) delivered as modified conventional ventilator-breaths at a rate of 3/min. The clinical observation is that HFOV-sigh leads to more stable oxygenation, quicker weaning and shorter ventilation. This may be related to improved lung recruitment. Electric Impedance Tomography (EIT) enables measurement and mapping of regional ventilation distribution and end-expiratory lung volume (EELV). EIT generates cross-sectional images of the subject based on measurement of surface electrical potentials resulting from an excitation with small electrical currents and has been shown to be a valid and safe tool in neonates. Purpose, aims: To compare HFOV-sigh with HFOV-only and determine if there is a difference in global and regional EELV (primary endpoints) and spatial distribution of ventilation measured by EIT To provide information on feasibility and treatment effect of HFOV-sigh to assist planning larger studies. We hypothesize that EELV during HFOV-sigh is higher, and that regional ventilation distribution is more homogenous. Methods: Infants at 24-36 weeks corrected gestational age already on HFOV are eligible. Patients will be randomly assigned to HFOV-sigh (3 breaths/min) followed by HFOV-only or vice versa for 4 alternating 1-hours periods (2-treatment, double crossover design, each patient being its own control). During HFOV-sigh set-pressure will be reduced to keep MAP constant, otherwise HFOV will remain at pretrial settings. 16 ECG-electrodes for EIT recording will be placed around the chest at study start. Each recording will last 180s, and will be done at baseline and at 30 and 50 minutes after each change in ventilator modus. Feasibility No information of EIT-measured EELV in babies on HFOV-sigh exists. This study is a pilot-trial. In a similar study-protocol of lung recruitment during HFOV-sigh using "a/A-ratio" as outcome, 16 patients was estimated to be sufficient to show an improvement by 25%. This assumption was based on clinical experience in a unit using HFOV-sigh routinely. As the present study examines the same intervention we assume that N=16 patients will be a sufficient sample size. We estimate to include this number in 6 months.

Start: January 2014

High Frequency Oscillatory Ventilation Combined With Intermittent Sigh Breaths: Effects on Blood Oxygenation and Stability of Oxygenation

Background: Ventilator induced lung injury (VILI) remains a problem in neonatology. High frequency oscillatory ventilation (HFOV) provides effective gas exchange with minimal pressure fluctuation around a continuous distending pressure and therefore small tidal volume. Animal studies showed that recruitment and maintenance of functional residual capacity (FRC) during HFOV ("open lung concept") could reduce lung injury. "Open lung HFOV" is achieved by delivering a moderate high mean airway pressure (MAP) using oxygenation as a guide of lung recruitment. Some neonatologists suggest combining HFOV with recurrent sigh-breaths (HFOV-sigh) delivered as modified conventional ventilator-breaths at a rate of 3/min. The clinical observation is that HFOV-sigh leads to more stable oxygenation, quicker weaning and shorter ventilation. This may be related to improved lung recruitment. This has however to our knowledge not been tested in a clinical trial using modern ventilators. Purpose, aims: To compare HFOV-sigh with HFOV-only and determine if there is a difference in oxygenation expressed as a/A-ratio and/or stability of oxygenation expressed as percentage time with oxygen saturation outside the reference range. To provide information on feasibility and treatment effect of HFOV-sigh to assist planning larger studies. We hypothesize that oxygenation is better during HFOV-sigh. Methods: Infants at 24-36 weeks corrected gestational age already on HFOV are eligible. Patients will be randomly assigned to HFOV-sigh (3 breaths/min) followed by HFOV-only or vice versa for 4 alternating 1-hours periods (2-treatment, double crossover design, each patient being its own control). During HFOV-sigh set-pressure will be reduced to keep MAP constant, otherwise HFOV will remain at pretrial settings. Outcome will be calculated from normal clinical parameters including pulx-oximetry and transcutaneous monitoring of oxygen and carbon-dioxide partial pressures.

Start: August 2014

Pharmacokinetics, Pharmacodynamics, and Safety Profile of Understudied Drugs Administered to Children Per Standard of Care (POPS)

The study investigators are interested in learning more about how drugs, that are given to children by their health care provider, act in the bodies of children and young adults in hopes to find the most safe and effective dose for children. The primary objective of this study is to evaluate the PK of understudied drugs currently being administered to children per SOC as prescribed by their treating provider.

Start: March 2020

Non-invasive Respiratory Support in Preterm Infants

Lungs of babies born early are not fully developed and they often need a machine to help them breathe. The traditional approach to provide this support is with a breathing tube passed into the windpipe. However, we know that breathing tubes can cause injury to the fragile lungs of premature babies. Providing breathing support through nose-masks instead of breathing tubes (called nasal breathing support) is becoming popular, as it is gentler on developing lungs. Doctors, in trying to limit the use of support with a breathing tube, are using many different forms of nasal breathing support. The most common form is nasal continuous positive airway pressure (CPAP) which delivers a constant pressure and the baby breathes on his on her own. However, when this strategy is no longer able to support a premature baby's breathing, the best way to provide breathing support is not known. Some doctors use a strategy called "nasal intermittent positive airway pressure" (NIPPV) which gives the baby artificial breaths through the nose-mask. Others simply increase the pressure on nasal CPAP to higher than traditional levels. In the first study of its kind, we will compare these two strategies of nasal breathing support given to premature babies.

Start: May 2018

Safety and Efficacy Outcomes Following Previously Administered Short-Term Treatment With SHP607 in Extremely Premature Infants

The purpose of this study is to evaluate long-term safety and efficacy outcomes following previously administered short-term exposure to SHP607, as compared to a standard neonatal care group.

Start: September 2020

Hypercapnia and Its Association With Long-term Respiratory Morbidities in Premature Infants With Chronic Lung Disease

This is a prospective, longitudinal observational study to provide data regarding the natural course of hypercapnia in premature infants with bronchopulmonary dysplasia using both available blood pCO2 and measured capnography, as well as relate the degree and trend of hypercapnia to later respiratory outcomes.

Start: December 2020

Mid and Standard Frequency Ventilation in Infants With Respiratory Distress Syndrome

The purpose of this study is to determine, in preterm infants less than 37 weeks gestation with respiratory distress who are ventilated in the first 48 hours after birth, if mid frequency ventilation strategy using ventilator rate of ? 60 to ? 150 per minute compared with standard frequency ventilation strategy using ventilator rates of ? 20 to < 60 per minute will increase the number of alive ventilator-free days after randomization and reduce the risk of ventilator induced lung injury.

Start: August 2017

The Impact of Lung Recruitment Maneuver in 24-32 Weekers, and the Incidence of Bronchopulmonary Dysplasia

hypothesis : The incident of dysplasia bronchopulmonary and/or death in 24-32 weekers babies on assist-control volume guarantee ventilation are lower in lung recruitment maneuver (LRM) group compare to control. The serum levels of surfactant protein-D in 24-32 weekers babies on assist-control volume guarantee ventilation are lower in lung recruitment maneuver (LRM) group compare to control. The serum concentration of CD-31+ and CD-42b- in 24-32 weekers babies on assist-control volume guarantee ventilation are lower in lung recruitment maneuver (LRM) group compare to control. The right and left cardiac output in 24-32 weekers babies on assist-control volume guarantee mode are more higher in lung recruitment maneuver (LRM) group, than group that did not get LRM The incident Patent Ductus Arteriosus in 24-32 weekers babies on assist-control volume guarantee ventilation are lower in lung recruitment maneuver (LRM) group compare to control. The difference tc-pCO2 - PaCO2 , tcO2 index , and strong ion difference (SID) in 24-32 weekers babies on assist-control volume guarantee ventilation are lower in lung recruitment maneuver (LRM) group compare to control.

Start: October 2020

Exploring the Utility of Hyperpolarized 129Xe MRI in Healthy Volunteers and Patients With Lung Disease

This is a single centre exploratory study that aims to apply hyperpolarized xenon-129 (129Xe) magnetic resonance imaging (MRI) methods and measurements in individual patients with and without lung disease to better understand lung structure and function and evaluate response to therapy delivered as a part of clinical care.

Start: April 2018

Follow-up Study of Safety and Efficacy in Subjects Who Completed PNEUMOSTEM® Phase II (MP-CR-012) Clinical Trial

This is a follow-up study to investigate the long-term safety and efficacy of PNEUMOSTEM® versus placebo, for the treatment of BPD in premature infants. Subjects who participated in and completed the initial stage of the Phase II trial (NCT03392467) will be followed-up until 60 months of corrected age

Start: July 2019

Follow-up Results of Newborns With Tracheostomy

The chances of survival in premature babies, especially in babies born under 28 weeks, have increased in recent years, and comorbidities also increase. Bronchopulmonary dysplasia (BPD), one of the premature problems, is one of them. After a while, babies with heavy BPD are discharged with the support of a home-type mechanical ventilator by opening a tracheostomy. Tracheostomy procedure is performed by specialist doctors of otolaryngology under general anesthesia in the operating room conditions in newborns. Complications of this procedure such as bleeding, skin necrosis, decanulation, trachea laceration and infection in the early period can be seen. In the long term, in addition to complications such as formation of tracheal granulation tissue, ulceration, laceration due to the procedure, babies with tracheostomy may develop nutrition and speech problems and neurodevelopmental problems. In the literature, there is no comprehensive clinical follow-up study involving early and late clinical results related to newborns undergoing tracheostomy. In this study, early and late follow-up results (indications, anthropometric measurements, mechanical ventilation and oxygen deposition times, complications, tracheostomy closure times, tracheostomy closure times, neurodevelopmental patients in the Neonatal Intensive Care Unit of Hacettepe University Ihsan Dogramaci Children's Hospital. results, accompanying other comorbidities, etc.).

Start: August 2020

Glucocorticoids and Pulmonary Hypertension

Pediatric idiopathic pulmonary hypertension has significant morbidity and mortality. An ever expanding body of knowledge indicates the important contribution of inflammation to pathogenesis and successful treatment with glucocorticoids. Over the last several years we have utilized steroids in patients with severe pulmonary hypertension as part of a treatment regimen. These basic science studies possibly identifies a biochemical etiology for the development of disease and may also be impacted by the administration of steroids. Additionally, there is a commercially available assay which tests for all of the above molecules.

Start: July 2020

Genes Associated With Bronchopulmonary Dysplasia and Retinopathy of Prematurity

Background: - Some premature babies develop bronchopulmonary dysplasia (BPD) and retinopathy of prematurity (ROP). BPD and ROP are long-term chronic diseases of the lungs and eyes, respectively. BPD is associated with receiving mechanical ventilation to treat respiratory distress syndrome, and causes lung inflammation and scarring. ROP is caused by poor development of blood vessels in the eyes, and may lead to blindness. Because not all premature babies develop BPD or ROP, researchers want to study the genes that could be associated with these diseases. They will look at both premature infants and their parents to see if there is a genetic component to BPD and ROP. Objectives: - To study genes that may be associated with BPD and ROP. Eligibility: Premature babies born with a weight less than or equal to 1,250 grams. Parents of the premature babies. Design: Parents will answer questions about the mother s health and pregnancy. Delivery and medical information will be collected during the baby s hospitalization for the first month after birth. Parents will provide a saliva sample from the inside of the cheek. A saliva sample will also be collected from the baby within 28 days of birth. If the baby needs tracheal aspiration (removal of fluid from the throat), tracheal fluid samples will also be collected. Parents will have followup interviews about their child s health 6 months, 12 months, and yearly for up to 6 years after birth. This is a genetic study only. Treatment will not be provided as part of this study.

Start: June 2013

p16Ink4a in Bronchopulmonary Dysplasia in Children

The bronchopulmonary dysplasia (BPD) is a respiratory disease of the premature child which lead to a reduction of gas exchange surface and to a prolonged respiratory failure. This disease has morphologic and functional consequences at adulthood and is today considered to be an early determinant of respiratory diseases at adulthood. The physiopathology of BPD is not well known. Several mechanisms could be involved especially a reparation failure favored by an increase of cellular senescence which is a permanent stop of cellular proliferation. The transcription factor 16 Ink4a, considered as a marker of aging, is one of the essential markers of senescence. Its increase during prematurity was shown at the blood cells of the cordon, but its involvement in BPD and its evolution in child are not yet studied.

Start: March 2018

Early Prediction of Spontaneous Patent Ductus Arteriosus (PDA) Closure and PDA-Associated Outcomes

Patent ductus arteriosus (PDA), very common in preterm infants, is the delayed closure of a fetal blood vessel that limits blood flow through the lungs. PDA is associated with mortality and harmful long term outcomes including chronic lung disease and neurodevelopmental delay. Although, treatments to close PDA likely benefit some infants, widespread routine treatment of all preterm infants with PDA may not improve important outcomes. Left untreated, most PDAs close spontaneously. Thus, PDA treatment is increasingly controversial and varies markedly between hospitals and individual providers. The relevant and still unanswered clinical question is not whether to treat all preterm infants with PDA, but whom to treat and when. Treatment detriments may outweigh benefits, since all forms of deliberate PDA closure have potential adverse effects, especially in infants destined for early, spontaneous PDA closure. Unfortunately, clinicians cannot currently predict in the 1st month which infants are at highest risk for persistent PDA, and which combination of clinical risk factors, echocardiographic (echo) measurements, and serum biomarkers may best predict PDA-associated harm. The American Academy of Pediatrics has acknowledged early identification of infants at high-risk from PDA as a key research goal for informing future PDA-treatment effectiveness trials. Our objective is to use a prospective cohort of untreated infants with PDA to predict spontaneous ductal closure timing and identify echo measurements and biomarkers that are present in the 1st postnatal month and associated with long-term impairment. Our central hypothesis is that these risk factors can be determined to inform appropriate clinical treatments when necessary. Clinical, serum and urine biomarkers (BNP, NTpBNP, NGAL, H-FABP), and echo variables sequentially collected during each of the first 4 postnatal weeks will be examined. In addition myocardial deformation imaging (MDI) and tissue Doppler imaging (TDI), innovative echo methods, will facilitate the quantitative evaluation of myocardial performance. Aim 1 will estimate the probability of spontaneous PDA closure and predict the timing of ductal closure using echo, biomarker, and clinical predictors. Aim 2 will specify which echo predictors and biomarkers are associated with mortality and severity of respiratory illness at 36-weeks PMA. Aim 3 will identify which echo predictors and biomarkers are associated with 22- to 26-month neurodevelopment. All models will be validated in a separate cohort. This project will significantly contribute to clinical outcomes and PDA management by reducing unnecessary and harmful overtreatment of infants with a high probability of early spontaneous PDA closure, and will permit the development of outcomes-focused trials to examine the effectiveness of PDA closure in those "high-risk" infants most likely to receive benefit.

Start: April 2019

OPTIMIST-A Trial: Minimally-invasive Surfactant Therapy in Preterm Infants 25-28 Weeks Gestation on CPAP

Trial question: Does administration of exogenous surfactant using a minimally-invasive technique improve outcome in preterm infants 25-28 weeks gestation treated with continuous positive airway pressure (CPAP)? Trial hypothesis: That early surfactant administration via a minimally-invasive technique to preterm infants on CPAP will result in a lesser duration of mechanical respiratory support, and a higher incidence of survival without bronchopulmonary dysplasia. Trial design: Multicentre, randomised, masked, controlled trial in inborn preterm infants 25-28 weeks gestation, aged less than 6 hours, requiring CPAP because of respiratory distress, with an FiO2 of >=0.3 and CPAP pressure 5-8. Infants randomised to surfactant treatment receive 200 mg/kg of poractant alfa (Curosurf) administered under direct laryngoscopy using a surfactant instillation catheter, followed by reinstitution of CPAP. Controls continue on CPAP. The intervention is masked from the clinical team. Care thereafter is as per usual in both groups, other than the requirement to adhere to intubation criteria. The primary outcome is incidence of death or BPD. Secondary outcomes include incidence of death, major neonatal morbidities (BPD, intraventricular haemorrhage, periventricular leukomalacia, retinopathy of prematurity, necrotising enterocolitis), pneumothorax and patent ductus arteriosus; need for intubation and surfactant therapy; durations of mechanical respiratory support, intubation, CPAP, intubation and CPAP, high flow nasal cannula (HFNC), oxygen therapy, intensive care stay and hospitalisation; hospitalisation cost; applicability and safety of the MIST procedure; and outcome at 2 years. The sample size is 303/group, allowing detection of a 33% difference in the primary outcome with 90% power. The trial commenced at Royal Hobart Hospital December 2011 and Royal Women's Hospital during 2012, and will ultimately be conducted over 5 years in multiple centres internationally.

Start: December 2011

Interest of Pulmonary Ultrasound to Predict Evolution Towards Bronchopulmonary Dysplasia in Premature Infants at Gestational Age Less Than or Equal to 34 Weeks of Gestation

Each year, between 50,000 and 60,000 children are born prematurely in France. Among them, 10% are born at 26 - 30 week's gestation and 5% are born before 26 week's gestation. Bronchopulmonary dysplasia (BPD) affects at least one-quarter of infants born with a birth weight less than 1500 grams. BPD is defined by the need for oxygen after 28 days of life in any children born prematurely. In addition, the severity of BPD can be categorized as mild (room air tolerated at 36 weeks), moderate (oxygen requirement between 22 and 29 %) and severe (oxygen requirement 30% or need for ventilation support). Bronchopulmonary dysplasia is responsible for significant respiratory morbidity and impaired neurological outcomes. Pulmonary imaging such as tomodensitometry, MRI or scintigraphy can be abnormal and therefore coud theorically be helpful for an early diagnosis. Unfortunatelly, theses examinations are irradiating, expensive or difficult to perform in an everyday practice. Therefore lung imaging for BPD diagnosis. Is not recommanded in current official guidelines. Pulmonary ultrasound has already been studied in premature newborns. A pilot study carried out on 21 patients showed that pulmonary ultrasonography at one and two weeks of life could predict the risk of bronchopulmonary dysplasia. The score used in this study was the LUS score previously validated by Brat et al. Advantages of this examination are to be non-invasive and easily performed at the patient's bedside. Nevertheless this study focused on a small population with a low number of moderate / severe dysplasia. In addition, Czernik et al. have highlighted that the index of myocardial performance of the right ventricle was increased at seven and ten days of life in children who subsequently developed BPD. The investigators propose in this study to evaluate a new prediction score for DBP, the modified LUS score, associating the LUS score with an echographic evaluation of the right heart (myocardial performance index).

Start: February 2020

Intratracheal Umbilical Cord-derived Mesenchymal Stem Cell for the Treatment of Bronchopulmonary Dysplasia (BPD)

Umbilical Cord-derived Mesenchymal stem cell has been proven effective in the experimental bronchopulmonary dysplasia (BPD).A multi-center study was designed to evaluate the safety and efficacy of the cellular therapy in extremely preterm infants at high risk for BPD.

Start: December 2019

Maternal Omega-3 Supplementation to Reduce Bronchopulmonary Dysplasia

The aim of this randomized controlled trial is to determine whether docosahexaenoic acid (or DHA, an omega-3 lipid) supplementation in lactating mothers providing breast-milk to their infant born below 29 0/7 weeks of gestational age (GA) improves BPD-free survival at 36 weeks post-menstrual age (PMA). Half of participants will receive docosahexaenoic acid (DHA), an omega-3 lipid, while the other half will receive a placebo.

Start: June 2015