Abstract
BackgroundHigh levels of arterial oxygen pressures (PaO2) have been associated with increased mortality in extracorporeal cardiopulmonary resuscitation (ECPR), but there is limited information regarding possible mechanisms linking hyperoxia and death in this setting, notably with respect to its hemodynamic consequences. We aimed therefore at evaluating a possible association between PaO2, circulatory failure and death during ECPR.MethodsWe retrospectively analyzed 44 consecutive cardiac arrest (CA) patients treated with ECPR to determine the association between the mean PaO2 over the first 24 h, arterial blood pressure, vasopressor and intravenous fluid therapies, mortality, and cause of deaths.ResultsEleven patients (25%) survived to hospital discharge. The main causes of death were refractory circulatory shock (46%) and neurological damage (24%). Compared to survivors, non survivors had significantly higher mean 24 h PaO2 (306 ± 121 mmHg vs 164 ± 53 mmHg, p < 0.001), lower mean blood pressure and higher requirements in vasopressors and fluids, but displayed similar pulse pressure during the first 24 h (an index of native cardiac recovery). The mean 24 h PaO2 was significantly and positively correlated with the severity of hypotension and the intensity of vasoactive therapies. Patients dying from circulatory failure died after a median of 17 h, compared to a median of 58 h for patients dying from a neurological cause. Patients dying from neurological cause had better preserved blood pressure and lower vasopressor requirements.ConclusionIn conclusion, hyperoxia is associated with increased mortality during ECPR, possibly by promoting circulatory collapse or delayed neurological damage.
Highlights
High levels of arterial oxygen pressures (PaO2) have been associated with increased mortality in extracorporeal cardiopulmonary resuscitation (ECPR), but there is limited information regarding possible mechanisms linking hyperoxia and death in this setting, notably with respect to its hemodynamic consequences
In conventional CPR, an association between hyperoxia after return of spontaneous circulation (ROSC) and outcome has been reported in large observational studies [10, 11]
Patients undergoing Extracorporeal cardiopulmonary resuscitation (ECPR) may be exposed to significant hyperoxia, given the ease to oxygenate blood through the oxygenator [12], and recent retrospective analyses indicated that hyperoxia during the first 24 h of ECPR was associated with reduced survival [13, 14]
Summary
High levels of arterial oxygen pressures (PaO2) have been associated with increased mortality in extracorporeal cardiopulmonary resuscitation (ECPR), but there is limited information regarding possible mechanisms linking hyperoxia and death in this setting, notably with respect to its hemodynamic consequences. Patients undergoing ECPR may be exposed to significant hyperoxia, given the ease to oxygenate blood through the oxygenator [12], and recent retrospective analyses indicated that hyperoxia during the first 24 h of ECPR was associated with reduced survival [13, 14] One of these studies reported a significant association between circulatory shock during the first 24 h and mortality [14], whereas another study showed that most deaths (88%) occurred during the first 48 h and were related to multiple organ failure [13]. We evaluated a possible association between PaO2 levels, circulatory failure and death during ECPR
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