Electroencephalographic Effects of Spinal Anaesthesia During Caesarean Delivery in Preeclampsia

Overview

Neuraxial anesthesia has been associated with delayed brainstem conduction and decreasing afferent sensory transmission, thereby modifying reticulo-thalamo-cortical mechanisms regulating arousal. The state of entropy measured by EEG-monitors has detected sedative effects associated with neuraxial anaesthesia in healthy volunteers, as well as during caesarean delivery. Entropy is a measure of the irregularity or disorder of a brains activity - sedation leading to a decrease of irregularity or disorder in the EEG.The aim of this pilot study is to prospectively assess the effect of spinal anaesthesia in healthy and preeclamptic parturients on brain activity. Decreased epileptiform activity in patients with preeclampsia would suggest that early neuraxial analgesia in labouring preeclamptic patients is beneficial, and may protect against neurological complications.

Neuraxial anesthesia has been associated with delayed brainstem conduction and decreasing afferent sensory transmission, thereby modifying reticulo-thalamo-cortical mechanisms regulating arousal. The state of entropy measured by EEG-monitors has detected sedative effects associated with neuraxial anaesthesia in healthy volunteers, as well as during caesarean delivery. Entropy is a measure of the irregularity or disorder of a brains activity - sedation leading to a decrease of irregularity or disorder in the EEG. The EEG activity in general can be separated into background activity, focal abnormalities, and intermittent and paroxysmal activity.8 Background electrical activity measured with the EEG by surface electrodes, are characterized by their corresponding frequency wave bands, ranging from slow waves (\< 1 Hz), Delta (1 - 4 Hz), Theta (4 - 8 Hz), Alpha (8 - 12 Hz), Beta (12 - 30 Hz) and Gamma (\> 30 Hz). In healthy volunteers, neuraxial anaesthesia was linked to increased activity - the so-called state of paradoxical excitation. This pattern is similar to the sedative low-dose GABAergic effects known to occur in response to the benzodiazepine midazolam. Epileptic potentials as paroxysmal EEG activity are typically seen with seizures, but they can be a sign of other changes of brain state as well (e.g. (pre)eclampsia or high doses of opioids). Preeclampsia constitutes a heterogeneous multisystemic disorder defined by the new onset of hypertension and proteinuria after 20 weeks of gestation, affecting 2-8 % of all pregnancies world-wide. In this condition the nervous system is commonly affected, being the cause of significant morbidity and mortality, when seizures occur resembling an epileptic grand-mal convulsion. Significantly, cerebral white matter lesions are described several years after eclamptic episodes. Posterior reversible encephalopathy syndrome (PRES) is also suggested to be a core component of eclampsia. In this condition is associated extensive white matter changes have been detected, using advanced neuroimaging techniques. EEG changes can be detected before clinical signs of PRES are present, and before ischemia leads to irreversible brain damage.14 In preeclampsia EEG changes are also common, consisting of slow waves in the occipital lobe, as well as spike discharges. These EEG changes have been reported in eclampsia and in severe preeclampsia, with some differences between the two conditions. The prevention of eclampsia, which can occur pre-, intra-, or postpartum, is thus a critical management goal. Current literature only describes the use of EEG entropy - reflecting the state of arousal - during neuraxial anaesthesia in parturients. So far no study has assessed the quantitative (qEEG) or paroxysmal EEG changes induced by neuraxial anaesthesia in parturients undergoing caesarean delivery, and such monitoring has particular relevance in a high-risk patient population with preeclampsia. Aims The aim of this pilot study is to prospectively assess the effect of spinal anaesthesia in healthy and preeclamptic parturients on brain activity. Decreased epileptiform activity in patients with preeclampsia would suggest that early neuraxial analgesia in labouring preeclamptic patients is beneficial, and may protect against neurological complications.