S. H. Abman scite author profile

Despite improvements in neonatal care, bronchopulmonary dysplasia (BPD) continues to occur in approximately one third of newborns who have birth weights of Ͻ1000 g and contributes to significant morbidity in this population. Gaps in knowledge about the prevention and treatment of BPD remain, resulting in unintended short-and long-term sequelae. In addition to chronic lung disease, preterm newborns with BPD are more likely to develop language delay, cerebral palsy, and cognitive impairments compared with preterm newborns without BPD. The pulmonary group identified 3 critical needs to enhance the design of clinical trials in neonates with BPD: (1) identify the stages of BPD; (2) define BPD more clearly; and (3) identify subtypes of BPD patients. The group determined that trials are needed for 3 areas of BPD: (1) prevention of BPD; (2) treatment of evolving BPD; and (3) treatment of established BPD. The severity of BPD is defined as mild, moderate, and severe, and subgroups among those with BPD are described. Here we identify gaps in basic science and pharmacologic knowledge that hamper investigators' ability to conduct effective BPD clinical trials and provide a list of drugs to be studied in BPD trials. Priorities for drug-class evaluation by stage of BPD are given. The pulmonary group proposes a BPD clinical-trials framework that varies according to the different stages of BPD and describes characteristics of the overall design for BPD clinical trials. Finally, we discuss trial-design issues that are common to all neonatal studies.

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Elevated immunoreactive endothelin-1 levels in newborn infants with persistent pulmonary hypertension

Rosenberg

Kennaugh

Koppenhafer

et al. 1993

The Journal of Pediatrics

205

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Medical Therapy For Pulmonary Arterial Hypertension

Badesch

Abman

Ahearn

et al. 2004

Chest

546

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Dipyridamole augmentation of response to nitric oxide

Kinsella¹,

Torielli²,

Ziegler³

et al. 1995

The Lancet

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Strategic Plan for Pediatric Respiratory Diseases Research: An NHLBI Working Group Report

Castro

Ramirez

Gern³

et al. 2009

Proceedings of the American Thoracic Society

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The Division of Lung Diseases of the National Heart, Lung, and Blood Institute (NHLBI) recently held a workshop to identify gaps in our understanding and treatment of childhood lung diseases and to define strategies to enhance translational research in this field. Leading experts with diverse experience in both laboratory and patient-oriented research reviewed selected areas of pediatric lung diseases, including perinatal programming and epigenetic influences; mechanisms of lung injury, repair, and regeneration; pulmonary vascular disease; sleep and control of breathing; and the application of novel translational methods to enhance personalized medicine. This report summarizes the proceedings of this workshop and provides recommendations for emphasis on targeted areas for future investigation. The priority areas identified for research in pediatric pulmonary diseases included: (1) epigenetic and environmental influences on lung development that program pediatric lung diseases; (2) injury, regeneration, and repair in the developing lung; (3) pulmonary vascular disease in children; (4) development and adaptation of ventilatory responses to postnatal life; (5) nonatopic wheezing: aberrant large airway development or injury?; (6) strategies to improve assessment, diagnosis, and treatment of pediatric respiratory diseases; and (7) predictive and personalized medicine for children.

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S. H. Abman

Summary Proceedings From the Bronchopulmonary Dysplasia Group

Elevated immunoreactive endothelin-1 levels in newborn infants with persistent pulmonary hypertension

Medical Therapy For Pulmonary Arterial Hypertension

Dipyridamole augmentation of response to nitric oxide

Strategic Plan for Pediatric Respiratory Diseases Research: An NHLBI Working Group Report

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