TY - JOUR
T1 - Established severe BPD
T2 - is there a way out? Change of ventilatory paradigms
AU - Bronchopulmonary Dysplasia Collaborative
AU - Sindelar, Richard
AU - Shepherd, Edward G.
AU - Ågren, Johan
AU - Panitch, Howard B.
AU - Abman, Steven H.
AU - Nelin, Leif D.
AU - Cuevas, Milenka
AU - Truog, William
AU - Collaco, Michael
AU - Keszler, Martin
AU - Moore, Paul
AU - Schulman, Bruce
AU - Sood, Beena
AU - Hayden, Lystra
AU - Cristea, Ioana
AU - Lai, Khana
AU - Rhein, Lawrence
AU - Courtney, Sherry
AU - Cornfield, David
AU - DiGeronimo, Robert
AU - Bansal, Manvi
AU - Gage, Susan
AU - Bhatia, Rajeev
AU - Siddaiah, Roopa
AU - Popova, Antonia
AU - Lagoski, Megan
AU - Lagatta, Joanne
N1 - Publisher Copyright:
© 2021, The Author(s), under exclusive licence to the International Pediatric Research Foundation, Inc.
PY - 2021/12
Y1 - 2021/12
N2 - Abstract: Improved survival of extremely preterm newborn infants has increased the number of infants at risk for developing bronchopulmonary dysplasia (BPD). Despite efforts to prevent BPD, many of these infants still develop severe BPD (sBPD) and require long-term invasive mechanical ventilation. The focus of research and clinical management has been on the prevention of BPD, which has had only modest success. On the other hand, research on the management of the established sBPD patient has received minimal attention even though this condition poses large economic and health problems with extensive morbidities and late mortality. Patients with sBPD, however, have been shown to respond to treatments focused not only on ventilatory strategies but also on multidisciplinary approaches where neurodevelopmental support, growth promoting strategies, and aggressive treatment of pulmonary hypertension improve their long-term outcomes. In this review we will try to present a physiology-based ventilatory strategy for established sBPD, emphasizing a possible paradigm shift from acute efforts to wean infants at all costs to a more chronic approach of stabilizing the infant. This chronic approach, herein referred to as chronic phase ventilation, aims at allowing active patient engagement, reducing air trapping, and improving ventilation-perfusion matching, while providing sufficient support to optimize late outcomes. Impact: Based on pathophysiological aspects of evolving and established severe BPD in premature infants, this review presents some lung mechanical properties of the most severe phenotype and proposes a chronic phase ventilatory strategy that aims at reducing air trapping, improving ventilation-perfusion matching and optimizing late outcomes.
AB - Abstract: Improved survival of extremely preterm newborn infants has increased the number of infants at risk for developing bronchopulmonary dysplasia (BPD). Despite efforts to prevent BPD, many of these infants still develop severe BPD (sBPD) and require long-term invasive mechanical ventilation. The focus of research and clinical management has been on the prevention of BPD, which has had only modest success. On the other hand, research on the management of the established sBPD patient has received minimal attention even though this condition poses large economic and health problems with extensive morbidities and late mortality. Patients with sBPD, however, have been shown to respond to treatments focused not only on ventilatory strategies but also on multidisciplinary approaches where neurodevelopmental support, growth promoting strategies, and aggressive treatment of pulmonary hypertension improve their long-term outcomes. In this review we will try to present a physiology-based ventilatory strategy for established sBPD, emphasizing a possible paradigm shift from acute efforts to wean infants at all costs to a more chronic approach of stabilizing the infant. This chronic approach, herein referred to as chronic phase ventilation, aims at allowing active patient engagement, reducing air trapping, and improving ventilation-perfusion matching, while providing sufficient support to optimize late outcomes. Impact: Based on pathophysiological aspects of evolving and established severe BPD in premature infants, this review presents some lung mechanical properties of the most severe phenotype and proposes a chronic phase ventilatory strategy that aims at reducing air trapping, improving ventilation-perfusion matching and optimizing late outcomes.
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U2 - 10.1038/s41390-021-01558-8
DO - 10.1038/s41390-021-01558-8
M3 - Review article
C2 - 34012026
AN - SCOPUS:85106226910
SN - 0031-3998
VL - 90
SP - 1139
EP - 1146
JO - Pediatric research
JF - Pediatric research
IS - 6
ER -