Authors: David F Gaieski Marie E Beylin Benjamin S Abella Anne V Grossestreuer Sarah M Perman
Publish Date: 2014/01/14
Volume: 40, Issue: 3, Pages: 466-466
Abstract
Thank you for the opportunity to reply to Drs Dell’Anna and Taccone’s letter 1 commenting on our recent article entitled “Higher mean arterial pressure with or without vasoactive agents is associated with better survival and neurological outcomes in comatose survivors of cardiac arrest” 2 The fundamental insight of our research was that higher mean arterial pressure MAP during the first day postarrest was associated with better survival and neurological outcomes than lower MAPOverall we agree with Drs Dell’Anna and Taccone’s thoughtful analysis They correctly point out that we combined agents with very different mechanisms of action into a general category of “vasoactive” agents However a subgroup analysis not reported in the manuscript limited to traditional vasopressors and inotropes yielded similar results Further we agree that prospective analyses of vasopressor burden ie the dose and duration a patient requires and vasopressor timing ie early vs late administration are needed to gain better insight into the contributions shock myocardial stunning and the sepsislike syndrome make to postarrest outcomesBetter yet would be a trial of postarrest care with patients randomized to varying MAP goals with adequate cardiac and cerebral monitoring insights into the fine balance between cerebral perfusion and myocardial stress may emerge The authors point out Bouzat et al’s recent research demonstrating that increasing MAP from 70 to 90 mmHg in comatose postarrest patients treated with therapeutic hypothermia TH did not improve cerebral perfusion However blood pressure manipulation was performed on average 17 ± 5 h after arrest during the stable maintenance phase of TH In contrast our most important findings were at hours 1 and 6 when postarrest hemodynamics are rapidly changing and have not reached a “stable maintenance phase”In our opinion informed by the work of Rittenberger et al there are several categories of postarrest patients roughly categorized by the combined degree of cerebral and cardiac dysfunction Optimal postarrest management will only occur when realtime quantification of the degree of organ injury becomes available and therapy can be “personalized” to the individual patient’s injury pattern with optimal hemodynamics augmented by surrogates of tissue perfusion including central venous oxygen saturation lactate clearance urine output cerebral oxygenation cardiac output and echocardiography Indeed in the Bouzat et al study some patients had increased and others had decreased cerebral tissue oxygenation in response to induced hypertension These patients are demonstrating different injury patterns requiring different therapeutic interventionsFinally we agree that granular information about multiorgan system dysfunction and cause of death would provide further insight into the relationship between MAP and outcomes In prior studies we have demonstrated large clinicianlevel variability in withdrawal of care and patientlevel variability in time to awakening after cardiac arrest These data were not available in our retrospective analysis and should be collected in future prospective observational studies We encourage other researchers to perform these difficult but worthwhile studies Despite marked improvements in postarrest outcomes over the past decade there remains much room for improvement and a key to further improvement is hemodynamic optimization
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