Abstract
It remains uncertain whether neuromonitoring reliably predicts outcome in adult post-cardiac arrest patients in the early stage treated with therapeutic hypothermia. Recent reports demonstrated a regional cerebral oxygen saturation of cardiac arrest patients on hospital arrival could predict their neurological outcome. There has been little discussion about the significance of regional cerebral oxygen saturation in patients with post-cardiac arrest syndrome. Amplitude-integrated electroencephalography monitoring may also provide early prognostic information for post-cardiac arrest syndrome. However, even when the initial electroencephalography is flat after the return of spontaneous circulation, good neurological outcome may still be obtainable if the electroencephalography shifts to a continuous pattern. The electroencephalography varied from flat to various patterns, such as flat, epileptic, or continuous during the first 24 h, while regional cerebral oxygen saturation levels varied even when the electroencephalography was flat. It is therefore difficult to estimate whether regional cerebral oxygen saturation accurately indicates the coupling of cerebral blood flow and metabolism in the early stage after cardiac arrest. Careful assessment of prognosis is necessary when relying solely on regional cerebral oxygen saturation as a single monitoring modality.
Highlights
Recent reports demonstrate a relationship between regional cerebral oxygen saturation of cardiac arrest patients on hospital arrival and their neurological outcome [1, 2]
Data are insufficient to support the utility of neuromonitoring for the prediction of outcome of postcardiac arrest syndrome (PCAS) patients [3] treated with therapeutic hypothermia
Clinical issues of Regional cerebral oxygen saturation (rSO2) in patients with PCAS Theoretically, rSO2 can estimate the balance between the cerebral metabolic rate of oxygen (CMRO2) and cerebral blood flow (CBF), which linearly correlates with cerebral venous oxygen saturation and with CBF [7]
Summary
Recent reports demonstrate a relationship between regional cerebral oxygen saturation (rSO2) of cardiac arrest patients on hospital arrival and their neurological outcome [1, 2]. Background Recent reports demonstrate a relationship between regional cerebral oxygen saturation (rSO2) of cardiac arrest patients on hospital arrival and their neurological outcome [1, 2]. Monitoring with electroencephalography (EEG) may be able to provide early prognostic information after ROSC in patients with therapeutic hypothermia [4, 5].
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