RATIONALE: There are several adult studies using computed tomography (CT-scan) to examine lung aeration changes during or after a recruitment maneuver (RM) in ventilated patients with acute lung injury (ALI). However, there are no published data on the lung aeration changes during or after a RM in ventilated pediatric patients with ALI. OBJECTIVE: To describe CT-scan lung aeration changes and gas exchange after lung recruitment in pediatric ALI and assess the safety of transporting patients in the acute phase of ALI to the CT-scanner. METHODS: We present a case series completed in a subset of six patients enrolled in our previously published study of efficacy and safety of lung recruitment in pediatric patients with ALI. INTERVENTION: RM using incremental positive end-expiratory pressure. RESULTS: There was a variable increase in aerated and poorly aerated lung after the RM ranging from 3% to 72% (median 20%; interquartile range 6, 47; P = 0.03). All patients had improvement in the ratio of partial pressure of arterial oxygen over fraction of inspired oxygen (PaO(2) /FiO(2)) after the RM (median 14%; interquartile range: 8, 72; P = 0.03). There was a decrease in the partial pressure of arterial carbon dioxide (PaCO(2)) in four of six subjects after the RM (median -5%; interquartile range: -9, 2; P = 0.5). One subject had transient hypercapnia (41% increase in PaCO(2)) during the RM and this correlated with the smallest increase (3%) in aerated and poorly aerated lung. All patients tolerated the RM without hemodynamic compromise, barotrauma, hypoxemia, or dysrhythmias. CONCLUSIONS: Lung recruitment results in improved lung aeration as detected by lung tomography. This is accompanied by improvements in oxygenation and ventilation. However, the clinical significance of these findings is uncertain. Transporting patients in early ALI to the CT-scanner seems safe and feasible.
RATIONALE: There are several adult studies using computed tomography (CT-scan) to examine lung aeration changes during or after a recruitment maneuver (RM) in ventilated patients with acute lung injury (ALI). However, there are no published data on the lung aeration changes during or after a RM in ventilated pediatric patients with ALI. OBJECTIVE: To describe CT-scan lung aeration changes and gas exchange after lung recruitment in pediatric ALI and assess the safety of transporting patients in the acute phase of ALI to the CT-scanner. METHODS: We present a case series completed in a subset of six patients enrolled in our previously published study of efficacy and safety of lung recruitment in pediatric patients with ALI. INTERVENTION: RM using incremental positive end-expiratory pressure. RESULTS: There was a variable increase in aerated and poorly aerated lung after the RM ranging from 3% to 72% (median 20%; interquartile range 6, 47; P = 0.03). All patients had improvement in the ratio of partial pressure of arterial oxygen over fraction of inspired oxygen (PaO(2) /FiO(2)) after the RM (median 14%; interquartile range: 8, 72; P = 0.03). There was a decrease in the partial pressure of arterial carbon dioxide (PaCO(2)) in four of six subjects after the RM (median -5%; interquartile range: -9, 2; P = 0.5). One subject had transient hypercapnia (41% increase in PaCO(2)) during the RM and this correlated with the smallest increase (3%) in aerated and poorly aerated lung. All patients tolerated the RM without hemodynamic compromise, barotrauma, hypoxemia, or dysrhythmias. CONCLUSIONS: Lung recruitment results in improved lung aeration as detected by lung tomography. This is accompanied by improvements in oxygenation and ventilation. However, the clinical significance of these findings is uncertain. Transporting patients in early ALI to the CT-scanner seems safe and feasible.
Authors: S R Vieira; L Puybasset; J Richecoeur; Q Lu; P Cluzel; P B Gusman; P Coriat; J J Rouby Journal: Am J Respir Crit Care Med Date: 1998-11 Impact factor: 21.405
Authors: G R Bernard; A Artigas; K L Brigham; J Carlet; K Falke; L Hudson; M Lamy; J R LeGall; A Morris; R Spragg Journal: Intensive Care Med Date: 1994 Impact factor: 17.440
Authors: Guillermo Bugedo; Alejandro Bruhn; Glenn Hernández; Gonzalo Rojas; Cristián Varela; Juan Carlos Tapia; Luis Castillo Journal: Intensive Care Med Date: 2003-01-18 Impact factor: 17.440
Authors: Martin C J Kneyber; Daniele de Luca; Edoardo Calderini; Pierre-Henri Jarreau; Etienne Javouhey; Jesus Lopez-Herce; Jürg Hammer; Duncan Macrae; Dick G Markhorst; Alberto Medina; Marti Pons-Odena; Fabrizio Racca; Gerhard Wolf; Paolo Biban; Joe Brierley; Peter C Rimensberger Journal: Intensive Care Med Date: 2017-09-22 Impact factor: 17.440