Marcus J Schultz1, Ary Serpa-Neto2. 1. Laboratório de Terapia Intensiva e Anestesiologia Experimental (L.E.I.C.A), Centro Médico Acadêmico, University of Amsterdam, Amsterdam, Holanda. 2. Departamento de Medicina Intensiva, Centro Médico Acadêmico, University of Amsterdam, Amsterdam, Holanda.
The occurrence of postoperative pulmonary complications is strongly associated with
increased hospital mortality and prolonged postoperative hospital stay.(
Postoperative pulmonary complications could, at least in part be prevented by using
so-called lung protective mechanical ventilation strategies, which may include use of
low tidal volume (VT), positive end-expiratory pressure (PEEP) and low oxygen
fractions (FiO2).(
TIDAL VOLUMES
Anesthesiologists commonly used ventilation strategies with high VT during
general anesthesia for surgery because this strategy has the potential to re-open those
lung regions that collapse at end-expiration. This could reduce the need for high
FiO2, as it reduces ventilation-perfusion mismatch, and as such prevent
oxygentoxicity.( Moreover, use of
high VT was considered to be safe since intraoperative ventilation usually
only last hours. Animal research, though, convincingly demonstrated that high
VT ventilation in animals with healthy lungs has a strong potential to
cause lung injury, even when short-lasting.( Furthermore, one randomized controlled trial (RCT) comparing
ventilation with low VT (6mL/kg predicted body weight - PBW) with ventilation
with high VT (10mL/kg PBW) in critically illpatients with uninjured lungs
confirmed that ventilation with high VT induces lung injury,( and metaanalyses of observational
studies showed an association between VT size and duration of
ventilation.( Several small clinical trials of intraoperative
ventilation further improved our understanding of the harmful effects of high
VT,( and recently
three randomized controlled trials convincingly showed that a ventilation strategy that
uses low VT prevents development of postoperative pulmonary
complications.( Low VT ventilation is becoming standard of
care in the operation room, as suggested by a report on intraoperative ventilation
practices in a large number of university hospitals in the USA showing that
VT nearly halved over the last decade, to 7 to 8mL/kg PBW.( It is possible, but certainly not
proven, that a further reduction of VT during intraoperative ventilation
could even further reduce development of postoperative pulmonary complications.
POSITIVE END-EXPIRATORY PRESSURE
Induction of anesthesia, especially when using high FiO2, has the potential
to induce atelectasis. Ventilation with low VT could further increase
alveolar instability.( PEEP has the
potential to open collapsed lung regions, and could maintain the alveoli open during the
whole breath cycle.( However,
anesthesiologists have been reluctant to use PEEP since it could lead to cardiac
compromise, mandating volume expansion and perhaps even vasoactive drugs.( Notably, in the randomized controlled
trial mentioned above comparing ventilation with a low VT (6mL/kg predicted
PBW) with ventilation with high VT (10mL/kg PBW) in critically illpatients
with uninjured lungs,( an
independent association between use of higher levels of PEEP and the development of the
acute respiratory distress syndrome was observed. The three RCTs of intraoperative
ventilation mentioned above actually compared bundles of lung-protection: low
VT with high levels of PEEP, and high VT without
PEEP.( It is not possible to conclude from these trials
whether benefit was due to use of low VT or higher levels of PEEP or both,
but one recently published RCT in non-obesepatients undergoing planned abdominal
surgery comparing intraoperative ventilation with low levels of PEEP (0 -
2cmH2O) with high levels of PEEP (12cmH2O), showed no
differences between the two randomization arms with respect to the occurrence of
postoperative pulmonary complications.( In that RCT, use of the higher PEEP levels was associated with
intraoperative hypotension and higher need for vasoactive drugs.( A recent metaanalysis including data
from the larger RCTs mentioned above and several other investigations of ventilation in
the operating room confirm that high levels of PEEP do not prevent postoperative
pulmonary complications when low VT are used.( It could very well be that a minimum of
2cmH2O of PEEP is sufficient in most patients, and that further increases
should be individualized, e.g., based on oxygenation. We cannot exclude, though, that
obesepatients or patients undergoing laparoscopic abdominal surgery during which
insufflation of gas in the abdominal cavity could induce more atelectasis, do benefit
from higher levels of PEEP, but randomized controlled trial evidence is lacking.
OXYGEN FRACTIONS
Seen the uncertainties surrounding the use of PEEP in the operation room,
anesthesiologist may want to improve oxygenation with the use of higher FiO2,
despite the fact that this could induce reabsorption atelectasis( and increase the production of reactive
oxygen which could injure cellular structures.( There is increasing evidence that both ventilation with high
FiO2 and/or high arterial oxygen levels are associated with increased
mortality in critically illpatients, an effect that appears to be independent of other
factors than disease severity.( At
present, there are no sufficiently powered trials that investigated the effects of
higher FiO2 on occurrence of postoperative pulmonary complications. Despite
the evidence for harm of high FiO2 in non-surgical patients, higher levels of
FiO2 are increasingly used, as suggested by the report on intraoperative
ventilation practices in university hospitals in the USA mentioned above.(
FUTURE STUDIES
At present several RCTs of intra-operative ventilation are running, including the
international ‘Protective Ventilation With Higher Versus Lower PEEP During General
Anesthesia for Surgery in ObesePatients’ (PROBESE) trial,( the French trial comparing protective to conventional
ventilation (VT of 5mL/kg PBW plus PEEP vs. VT of 10mL/kg PBW
without PEEP) in surgery for lung cancer,( and the international ‘Protective Ventilation With Higher Versus
Lower PEEP During General Anesthesia for Thorax Surgery’ (PROTHOR).( The results of these trials all have
the potential to further improve safety of intra-operative ventilation.
CONCLUSIONS
We advise to use low tidal volume, low levels of positive end-expiratory pressure, and
low levels of low oxygen fractions during intra-operative ventilation.
Authors: Ary Serpa Neto; Sabrine N T Hemmes; Carmen S V Barbas; Martin Beiderlinden; Michelle Biehl; Jan M Binnekade; Jaume Canet; Ana Fernandez-Bustamante; Emmanuel Futier; Ognjen Gajic; Göran Hedenstierna; Markus W Hollmann; Samir Jaber; Alf Kozian; Marc Licker; Wen-Qian Lin; Andrew D Maslow; Stavros G Memtsoudis; Dinis Reis Miranda; Pierre Moine; Thomas Ng; Domenico Paparella; Christian Putensen; Marco Ranieri; Federica Scavonetto; Thomas Schilling; Werner Schmid; Gabriele Selmo; Paolo Severgnini; Juraj Sprung; Sugantha Sundar; Daniel Talmor; Tanja Treschan; Carmen Unzueta; Toby N Weingarten; Esther K Wolthuis; Hermann Wrigge; Marcelo Gama de Abreu; Paolo Pelosi; Marcus J Schultz Journal: Anesthesiology Date: 2015-07 Impact factor: 7.892
Authors: Ary Serpa Neto; Fabienne D Simonis; Carmen S V Barbas; Michelle Biehl; Rogier M Determann; Jonathan Elmer; Gilberto Friedman; Ognjen Gajic; Joshua N Goldstein; Janneke Horn; Nicole P Juffermans; Rita Linko; Roselaine Pinheiro de Oliveira; Sugantha Sundar; Daniel Talmor; Esther K Wolthuis; Marcelo Gama de Abreu; Paolo Pelosi; Marcus J Schultz Journal: Intensive Care Med Date: 2014-05-09 Impact factor: 17.440
Authors: Rogier M Determann; Annick Royakkers; Esther K Wolthuis; Alexander P Vlaar; Goda Choi; Frederique Paulus; Jorrit-Jan Hofstra; Mart J de Graaff; Johanna C Korevaar; Marcus J Schultz Journal: Crit Care Date: 2010-01-07 Impact factor: 9.097