View clinical trials related to Bronchopulmonary Dysplasia.
Filter by:Oxygen treatment is common in management of preterm babies requiring intensive care. Delivery of too much or too little oxygen increase the risk of damage to eyes and lungs, and contributes to death and disability. Oxygen control in preterm infants requires frequent adjustments in the amount of oxygen delivered to the baby. This is generally performed manually by a clinician attending the baby, and generally directed to maintaining a specific range of blood oxygen saturation. The manual control often results in only half of the time in the specified range, with the baby experiencing high and low blood oxygen saturations. The technology being studied is designed to assist the clinician in maintaining blood oxygen saturation within target range by measuring oxygen saturation and automatically adjusting the amount of oxygen delivered for babies receiving high velocity nasal insufflation (an advanced form of high flow oxygen therapy). The proposed study will evaluate the efficacy and safety of the automatic control of oxygen by the new technology, as compared to manual control, among babies receiving high velocity therapy in a neonatal intensive care unit.
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.
Patients will be randomized to begin the study with either NAVA-synchronized or continuous HFNC. Each patient will receive two 15-minute trials at different levels of continuous HFNC and two 15-minute trials at corresponding levels of synchronized HFNC. In synchronized HFNC, using the NIV NAVA mode on the ventilator each subject will receive a constant minimum flow, but with each neurally triggered breath (as measured with an Edi catheter), an additional flow will be given to the patient. This differs from continuous HFNC in which the subject receives a constant flow without variation. Subjects will be observed during the entirety of these trials. Values for the primary and secondary outcomes will be monitored, recorded, and calculated.
A multicenter, placebo-controlled, randomized, dose escalation, safety, and tolerability study of UNEX-42 in infants born at <27 weeks of gestational age (GA) at high risk for bronchopulmonary dysplasia (BPD).
The purpose of the present study is to determine whether treatment of hemodynamically significant patent ductus arteriosus with a combined therapy of intravenous Ibuprofen and oral acetaminophen has higher success rate in closing the ductus arteriosus than a standard treatment strategy of using intravenous ibuprofen alone among preterm infants.
Bronchopulmonary dysplasia (BPD) is a chronic lung disease that affects up to 35% of very low birth weight infants (VLBW < 1500 g). Based on the current numbers of VLBW infants born annually in the U.S., between 5,000-10,000 neonates will develop BPD each year. It is estimated that 8-42% of infants with BPD will develop pulmonary hypertension (PH). Moreover, it has been known since the 1980's that echocardiographic evidence of PH in infants with BPD is associated with up to 40% mortality. Treatment options to ameliorate PH in infants with BPD (BPD-PH) are limited. There have been no randomized clinical trials of any therapy in infants with BPD-PH. The standard care for the management of BPD-PH is to attempt to resolve the underlying lung disorder and the judicious use of oxygen as a potent pulmonary vasodilator. Using this management approach, which has not changed since the 1980's, the survival rates for infants with BPD-PH in the 2000's has been reported to be 64% at 6 months and 53% at 2 years after diagnosis of PH. The lack of improvement in outcomes for the past 3 decades has led to the widespread agreement that novel and effective therapies are desperately needed for infants with BPD-PH. The goal is to develop oral L-citrulline clinically for the treatment of pediatric pulmonary hypertension associated with bronchopulmonary dysplasia (BPD-PH); before pursuing a large scale treatment trial, pharmacokinetic (PK) dose-finding, tolerability studies in patients at high risk of developing BPD-PH are warranted. The hypothesis is that oral L-citrulline will be well tolerated, without significant adverse effects in infants at high risk of developing pulmonary hypertension (PH) associated with BPD. The investigators propose to first characterize the PK profile of oral L-citrulline in order to define an appropriate dose range and treatment interval for infants at high risk of developing BPD-PH. Then using the doses and intervals generated by the PK profile, with a maximum dose of 3 g/kg/d, the investigators propose to evaluate the tolerability and ability to achieve the target study drug level (100-150 micromolar) in babies treated for 72 hours with oral L-citrulline. These studies will provide the data needed to design a full-scale randomized multi-center trial to evaluate the efficacy of oral L-citrulline therapy to ameliorate BPD-PH in human infants, a patient population that has a desperate need of new therapies.
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.
The MRI tools developed by the investigators are well positioned for assessing regional changes in lung structure and function in preterm children with bronchopulmonary dysplasia (BPD), in which airway limitation similar to asthma, alveolar simplification similar to emphysema and pulmonary vascular stunting are expected. To the investigator's knowledge, the combination of ultra short echo time (UTE) proton, pulmonary vascular proton and hyperpolarized 129Xe MRI have not yet been explored in BPD, either clinically or preclinically. The investigators propose that a comprehensive MRI examination may be useful from a diagnostic perspective, MRI of preterm children without BPD may reveal changes which are otherwise clinically 'silent' yet still place children at risk for future chronic lung disease in later life.
Caffeine is routinely used in the management of apnea of prematurity. Extremely low birth weight (ELBW) infants are at higher risk of mortality and various neonatal morbidities such as bronchopulmonary dysplasia (BPD) for which caffeine has been shown to be beneficial in very low birth weight (VLBW) infants. The investigators' previous unpublished retrospective studies and recently published retrospective studies demonstrated that early caffeine given within 48 hours of age tended to decrease the incidence of death and BPD in ELBW newborns. Retrospective design can be biased as newborns with mild lung disease may have received caffeine early for extubation. There are several studies on pharmacodynamics and pharmacokinetics of caffeine. The data regarding cumulative dosage of caffeine, caffeine levels and BPD outcome is deficient. Primary objective of this study is to test the hypothesis that early caffeine given within 24 hours of life will decrease incidence of mortality and BPD in ventilated ELBW newborns. This study will also test an additional hypothesis that higher caffeine dosage and caffeine levels are associated with decreased mortality and postnatal morbidities in studied newborns.
The aim of this study is to determine if inhaled nitric oxide will improve short and long term respiratory outcomes in preterm infants. Infants born at a gestational age of 30-36 weeks and who require breathing support with high flow nasal cannula, nasal continuous positive airway pressure, or nasal intermittent positive pressure will be randomized to receive either inhaled nitric oxide or placebo. The dose will then be decreased per protocol until all respiratory support has been discontinued. Infants will be followed to evaluate safety and efficacy of non-invasive iNO delivery, up to 12 months corrected gestational age.