TY - JOUR
T1 - Gradual aeration at birth is more lung protective than a sustained inflation in preterm lambs
AU - Tingay, David G.
AU - Pereira-Fantini, Prue M.
AU - Oakley, Regina
AU - McCall, Karen E.
AU - Perkins, Elizabeth J.
AU - Miedema, Martijn
AU - Sourial, Magdy
AU - Thomson, Jessica
AU - Waldmann, Andreas
AU - Dellaca, Raffaele L.
AU - Davis, Peter G.
AU - Dargaville, Peter A.
PY - 2019
Y1 - 2019
N2 - Rationale: The preterm lung is susceptible to injury during transition to air breathing at birth. It remains unclear whether rapid or gradual lung aeration at birth causes less lung injury. Objectives: To examine the effect of gradual and rapid aeration at birth on: 1) the spatiotemporal volume conditions of the lung; and 2) resultant regional lung injury. Methods: Preterm lambs (125±1 d gestation) were randomized at birth to receive: 1) tidal ventilation without an intentional recruitment (no-recruitment maneuver [No-RM]; n = 19); 2) sustained inflation (SI) until full aeration (n = 26); or 3) tidal ventilation with an initial escalating/de-escalating (dynamic) positive end-expiratory pressure (DynPEEP; n = 26). Ventilation thereafter continued for 90 minutes at standardized settings, including PEEP of 8 cmH2O. Lung mechanics and regional aeration and ventilation (electrical impedance tomography) were measured throughout and correlated with histological and gene markers of early lung injury. Measurements and Main Results: DynPEEP significantly improved dynamic compliance (P<0.0001). An SI, but not DynPEEP or No-RM, resulted in preferential nondependent lung aeration that became less uniform with time (P = 0.0006). The nondependent lung was preferential ventilated by 5minutes in all groups, with ventilation only becoming uniform with time in the No-RM and DynPEEP groups. All strategies generated similar nondependent lung injury patterns. Only an SI caused greater upregulation of dependent lung gene markers compared with unventilated fetal controls (P<0.05). Conclusions: Rapidly aerating the preterm lung at birth creates heterogeneous volume states, producing distinct regional injury patterns that affect subsequent tidal ventilation. Gradual aeration with tidal ventilation and PEEP produced the least lung injury.
AB - Rationale: The preterm lung is susceptible to injury during transition to air breathing at birth. It remains unclear whether rapid or gradual lung aeration at birth causes less lung injury. Objectives: To examine the effect of gradual and rapid aeration at birth on: 1) the spatiotemporal volume conditions of the lung; and 2) resultant regional lung injury. Methods: Preterm lambs (125±1 d gestation) were randomized at birth to receive: 1) tidal ventilation without an intentional recruitment (no-recruitment maneuver [No-RM]; n = 19); 2) sustained inflation (SI) until full aeration (n = 26); or 3) tidal ventilation with an initial escalating/de-escalating (dynamic) positive end-expiratory pressure (DynPEEP; n = 26). Ventilation thereafter continued for 90 minutes at standardized settings, including PEEP of 8 cmH2O. Lung mechanics and regional aeration and ventilation (electrical impedance tomography) were measured throughout and correlated with histological and gene markers of early lung injury. Measurements and Main Results: DynPEEP significantly improved dynamic compliance (P<0.0001). An SI, but not DynPEEP or No-RM, resulted in preferential nondependent lung aeration that became less uniform with time (P = 0.0006). The nondependent lung was preferential ventilated by 5minutes in all groups, with ventilation only becoming uniform with time in the No-RM and DynPEEP groups. All strategies generated similar nondependent lung injury patterns. Only an SI caused greater upregulation of dependent lung gene markers compared with unventilated fetal controls (P<0.05). Conclusions: Rapidly aerating the preterm lung at birth creates heterogeneous volume states, producing distinct regional injury patterns that affect subsequent tidal ventilation. Gradual aeration with tidal ventilation and PEEP produced the least lung injury.
UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85068098981&origin=inward
UR - https://www.ncbi.nlm.nih.gov/pubmed/30730759
U2 - https://doi.org/10.1164/rccm.201807-1397OC
DO - https://doi.org/10.1164/rccm.201807-1397OC
M3 - Article
C2 - 30730759
SN - 1073-449X
VL - 200
SP - 608
EP - 616
JO - American journal of respiratory and critical care medicine
JF - American journal of respiratory and critical care medicine
IS - 5
ER -