UNLABELLED: Positive intrathoracic pressure may cause hemodynamic changes, which can be transmitted to the cranial compartment, changing intracranial pressure and cerebral perfusion pressure. This can be increased when high positive end-expiratory pressure values are used. OBJECTIVE: To measure the impact of different positive end-expiratory pressure levels on intracranial pressure, cerebral perfusion pressure and mean blood pressure. METHOD: This study was conducted in a neurological intensive care unit and included 25 adult hemorrhagic stroke patients who were mechanically ventilated on airway pressure control mode. Patients were subjected to various positive end-expiratory values ranging between 0 and 14 cmH2O. The order of these values were randomized, and the variables were assessed five minutes after each new positive end-expiratory pressure level was initiated. RESULTS: Incremental positive end-expiratory pressures led to increased intracranial pressure (p < 0.001), however, no statistically significant changes were observed in mean blood pressure or cerebral perfusion pressure. CONCLUSION: In this population of patients with hemorrhagic stroke, positive end-expiratory pressure values up to 14 cmH2O did not alter cerebral perfusion pressure or mean blood pressure. Increased intracranial pressures were noted, although these elevations were not clinically significant.
UNLABELLED: Positive intrathoracic pressure may cause hemodynamic changes, which can be transmitted to the cranial compartment, changing intracranial pressure and cerebral perfusion pressure. This can be increased when high positive end-expiratory pressure values are used. OBJECTIVE: To measure the impact of different positive end-expiratory pressure levels on intracranial pressure, cerebral perfusion pressure and mean blood pressure. METHOD: This study was conducted in a neurological intensive care unit and included 25 adult hemorrhagic strokepatients who were mechanically ventilated on airway pressure control mode. Patients were subjected to various positive end-expiratory values ranging between 0 and 14 cmH2O. The order of these values were randomized, and the variables were assessed five minutes after each new positive end-expiratory pressure level was initiated. RESULTS: Incremental positive end-expiratory pressures led to increased intracranial pressure (p < 0.001), however, no statistically significant changes were observed in mean blood pressure or cerebral perfusion pressure. CONCLUSION: In this population of patients with hemorrhagic stroke, positive end-expiratory pressure values up to 14 cmH2O did not alter cerebral perfusion pressure or mean blood pressure. Increased intracranial pressures were noted, although these elevations were not clinically significant.
Authors: Antonia Koutsoukou; Maria Katsiari; Stylianos E Orfanos; Anastasia Kotanidou; Maria Daganou; Magdalini Kyriakopoulou; Nikolaos G Koulouris; Nikoletta Rovina Journal: World J Crit Care Med Date: 2016-02-04