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Intensive Care Medicine
Published in: Intensive Care Medicine 4/2017

01-04-2017 | Understanding the Disease

Lung–brain cross talk in the critically ill

Authors: Lluis Blanch, Michael Quintel

Published in: Intensive Care Medicine | Issue 4/2017

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Excerpt

Severe acute brain injury predisposes to other organ dysfunctions, especially lung impairment. Neurological patients, despite being younger and having fewer comorbidities than other patients, develop intensive care unit (ICU)-acquired sepsis and respiratory failure more frequently [1]. Patients with traumatic brain injury and subarachnoid hemorrhage develop acute respiratory distress syndrome (ARDS) at rates similar to patients with sepsis, trauma, or aspiration [2]. Among several risk factors for ARDS in these patients including hypoxemia, acidosis, or vasopressor dependency, the single greatest risk factor for ARDS is high tidal volume, which is also an independent risk factor for mortality [2]. Using a lung-protective strategy in potential organ donors results in a higher number of eligible lung donors and harvested lungs compared with a conventional strategy, but had no effect on the number of harvested hearts, livers, and kidneys [3]. Brain injury increases pulmonary vascular hydrostatic pressure and endothelial permeability and triggers biological mechanisms that either directly render the lung more susceptible to mechanical injury (mechanical ventilation) or act to prime the lung so that additional non-mechanical insults could be relatively more deleterious [1]. …
Literature
1.
Mazzeo AT, Fanelli V, Mascia L (2013) Brain-lung crosstalk in critical care: how protective mechanical ventilation can affect the brain homeostasis. Minerva Anestesiol 79:299–309PubMed
2.
Elmer J, Hou P, Wilcox SR, Chang Y, Schreiber H, Okechukwu I, Pontes-Neto O, Bajwa E, Hess DR, Avery L, Duran-Mendicuti MA, Camargo CA Jr, Greenberg SM, Rosand J, Pallin DJ, Goldstein JN (2013) Acute respiratory distress syndrome after spontaneous intracerebral hemorrhage. Crit Care Med 41:1992–2001CrossRefPubMedPubMedCentral
3.
Mascia L, Pasero D, Slutsky AS, Arguis MJ, Berardino M, Grasso S, Munari M, Boifava S, Cornara G, Della Corte F, Vivaldi N, Malacarne P, Del Gaudio P, Livigni S, Zavala E, Filippini C, Martin EL, Donadio PP, Mastromauro I, Ranieri VM (2010) Effect of a lung protective strategy for organ donors on eligibility and availability of lungs for transplantation: a randomized controlled trial. JAMA 304:2620–2627CrossRefPubMed
4.
5.
Chen T, Chen C, Zhang Z, Zou Y, Peng M, Wang Y (2016) Toll-like receptor 4 knockout ameliorates neuroinflammation due to lung-brain interaction in mechanically ventilated mice. Brain Behav Immun 56:42–55CrossRefPubMed
6.
7.
Fries M, Bickenbach J, Henzler D, Beckers S, Dembinski R, Sellhaus B, Rossaint R, Kuhlen R (2005) S-100 protein and neurohistopathologic changes in a porcine model of acute lung injury. Anesthesiology 102:761–767CrossRefPubMed
8.
Heuer JF, Pelosi P, Hermann P, Perske C, Crozier TA, Brück W, Quintel M (2011) Acute effects of intracranial hypertension and ARDS on pulmonary and neuronal damage: a randomized experimental study in pigs. Intensive Care Med 37:1182–1191CrossRefPubMedPubMedCentral
9.
Dos Santos CC, Shan Y, Akram A, Slutsky AS, Haitsma JJ (2011) Neuroimmune regulation of ventilator-induced lung injury. Am J Respir Crit Care Med 183:471–482CrossRefPubMed
10.
Quilez ME, Fuster G, Villar J, Flores C, Martí-Sistac O, Blanch L, López-Aguilar J (2011) Injurious mechanical ventilation affects neuronal activation in ventilated rats. Crit Care 15(3):R124CrossRefPubMedPubMedCentral
11.
Quilez ME, Rodríguez-González R, Turon M, Fernandez-Gonzalo S, Villar J, Kacmarek RM, Gómez MN, Oliva JC, Blanch L, López-Aguilar J (2015) Moderate PEEP after tracheal lipopolysaccharide instillation prevents inflammation and modifies the pattern of brain neuronal activation. Shock 44:601–608CrossRefPubMedPubMedCentral
12.
González-López A, López-Alonso I, Aguirre A, Amado-Rodríguez L, Batalla-Solís E, Astudillo A, Tomás-Zapico C, Fueyo A, dos Santos CC, Talbot K, Albaiceta GM (2013) Mechanical ventilation triggers hippocampal apoptosis by vagal and dopaminergic pathways. Am J Respir Crit Care Med 188:693–702CrossRefPubMed
13.
Schmidt M, Banzett RB, Raux M, Morélot-Panzini C, Dangers L, Similowski T, Demoule A (2014) Unrecognized suffering in the ICU: addressing dyspnea in mechanically ventilated patients. Intensive Care Med 40:1–10CrossRefPubMed
14.
Akoumianaki E, Lyazidi A, Rey N, Matamis D, Perez-Martinez N, Giraud R, Mancebo J, Brochard L, Marie Richard JC (2013) Mechanical ventilation-induced reverse-triggered breaths: a frequently unrecognized form of neuromechanical coupling. Chest 143:927–938CrossRefPubMed
15.
Blanch L, Villagra A, Sales B, Montanya J, Lucangelo U, Luján M, García-Esquirol O, Chacón E, Estruga A, Oliva JC, Hernández-Abadia A, Albaiceta GM, Fernández-Mondejar E, Fernández R, Lopez-Aguilar J, Villar J, Murias G, Kacmarek RM (2015) Asynchronies during mechanical ventilation are associated with mortality. Intensive Care Med 41:633–641CrossRefPubMed
Metadata
Title
Lung–brain cross talk in the critically ill
Authors
Lluis Blanch
Michael Quintel
Publication date
01-04-2017
Publisher
Springer Berlin Heidelberg
Published in
Intensive Care Medicine / Issue 4/2017
Print ISSN: 0342-4642
Electronic ISSN: 1432-1238
DOI
https://doi.org/10.1007/s00134-016-4583-1

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