Newly Published
Correspondence  |   May 2020
Perioperative Neurocognitive Disorder: Comment
Author Notes
  • Sapienza Università di Roma, Roma, Italy (G.G.).
  • Accepted for publication April 17, 2020.
    Accepted for publication April 17, 2020.×
Article Information
Correspondence   |   May 2020
Perioperative Neurocognitive Disorder: Comment
Anesthesiology Newly Published on May 20, 2020. doi:
Anesthesiology Newly Published on May 20, 2020. doi:
We read with great interest the review article by Eckenhoff et al. on the different approaches used in preclinical perioperative neurocognitive disorder research.1  In this review, the authors provided data on the various preclinical models used in scientific literature to study perioperative neurocognitive disorder that include molecular, cell culture, brain slices, and animal models. Surprisingly, the possible role of mechanical ventilation as cause of perioperative neurocognitive disorder is not mentioned.
There is growing preclinical and clinical evidence on the relevance of mechanical ventilation–induced neurocognitive damage.2–5  Various mechanisms have been described to explain how mechanical ventilation–induced alveolar stretching might trigger neuroinflammation: local brain action of systemic lung-derived inflammatory cytokines, afferent neuronal signaling by vagal-mediated dopaminergic lung–brain axis, and histopathologic changes in blood–brain barrier and brain deposition of β-amyloid.2  These are also known as “brain–lung” cross-talk.2  Despite the ample preclinical evidence on mechanical ventilation–induced neurocognitive damage, there are no clinical studies designed to evaluate the effect of mechanical ventilation on neuroinflammation and perioperative neurocognitive disorder, but there is evidence that mechanical ventilation duration is a risk factor for neurocognitive impairment in critically ill patients and that, in neurocritical care patients, mechanical ventilation setting is associated with functional outcome.3,4  Furthermore, a retrospective study in patients resuscitated after out-of-hospital cardiac arrest proved that lower tidal volume associates with better neurocognitive outcome.5