Dimakopoulos et al. propose a prospective multicentre study to validate whether high-frequency oscillations in intracranial EEG recorded during sleep may predict seizure outcomes following epilepsy surgery. @DimakopoulosVas@SarntheinJ https://t.co/wVaQZDatU0
Measuring the flow of signals between different brain areas during a memory test reveals hidden secrets about our working memory.https://t.co/VUYoM2hGan
While epilepsy patients activated their phonological working memory, incoming information flowed from sensory cortex to hippocampus. During memory maintenance, information flow from hippocampus to auditory cortex indicated replay of the memory items. https://t.co/oud4PtxuxK
Dimakopoulos et al. applied automated HFO detection on iEEG from patients that underwent epilepsy surgery. The analysis is blind to clinical outcome and achieves good prediction of seizure outcome. https://t.co/acBrjoE86L @Unispital_USZ@UZH_en@DimakopoulosVas@SarntheinJ
Have you seen our study in @braincomms?
Our prospective definion of HFO (@Unispital_USZ,
@SarntheinJ) predicts seizure outcome in epilepsy patients who underwent resective surgery in
@Hopitaux_unige
https://t.co/QGXoH2sjQS
Cserpan et al. report that children with epilepsy aged < 7 years have higher rates of high-frequency oscillations when compared with older children. https://t.co/UyXv2YW6c2 @UZH_en