Evaluating the Role of Pre-existing Resolvins in the Resolution of ICU Delirium

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As patient management is improving, more and more ICU survivors are being confronted with cognitive dysfunction and this well after their hospital stay. Delirium is characterized by an acute onset or fluctuating course, inattention and either disorganized thought (manifesting as memory, language and...

As patient management is improving, more and more ICU survivors are being confronted with cognitive dysfunction and this well after their hospital stay. Delirium is characterized by an acute onset or fluctuating course, inattention and either disorganized thought (manifesting as memory, language and orientation difficulties) or altered level of consciousness. Multiple forms exist: hyperactive versus hypoactive versus mixed. In the ICU, delirium rates have been reported to be as high at 81%. Delirium is associated with patient and family stress, increased hospital costs, increased duration of stay, escalation of care and increased mortality and morbidity. The physiopathology of ICU cognitive impairment is complex. One theory is that, during infection/trauma, the alarmin high molecular group box 1 (HMGB1) is released into the bloodstream by activated platelets. This damage-associated molecular pattern (DAMP) can bind to pattern recognition receptors on circulating bone marrow-derived monocytes (BM-DMs), causing a platelet-monocyte interaction but also triggering the nuclear translocation of the transcription factor NF-kappaB which activates gene expression and release of pro-inflammatory cytokines. The onset of this inflammatory state disrupts the blood brain barrier. Within the brain parenchyma the chemokine MCP-1 and, by signaling through its receptor, CCR2, attracts the BM-DMs. The influx of BM-DMs activates the resident quiescent microglia. Together, BM-DMs and activated microglia release HMGB1, IL-6, and IL-1? ; thereby disrupting long-term potentiation and the synaptic plasticity involved in cognitive functions of learning and memory. Inability to successfully resolve the inflammatory cascade promotes the development of cognitive impairment. Recently, the role of 'resolvins' derived from omega-3 fatty acids has been studied in the resolution of inflammation. In a mouse model of perioperative neurocognitive disorder, maresin 1 (a metabolite of omega-3) improved post-operative cognition and prevented surgery-induced glial activation and opening of the blood brain barrier. Similarly, in the same model, aspirine-triggered resolving D1 improved post-operative cognition, reduced systemic IL-6 levels and reserved surgery-induced astrogliosis. Mechanically ventilated ICU patients who benefitted from omega-3 supplements, had a lesser degree of ICU delirium. Therefore, the hypothesis of this study is that ICU patients with higher serum levels of resolvins at ICU admission, ICU day 2 and day 5 will have a lesser degree of cognitive impairment on day 5 of ICU stay.

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