Signal quality and power spectrum analysis of remote ultra long‐term subcutaneous EEG

Abstract: Objective Ultra long‐term subcutaneous electroencephalography (sqEEG) monitoring is a new modality with great potential for both health and disease, including epileptic seizure detection and forecasting. However, little is known about the long‐term quality and consistency of the sqEEG signal, which is the objective of this study. Methods The largest multicenter cohort of sqEEG was analyzed, including 14 patients with epilepsy and 12 healthy subjects, implanted with a sqEEG device (24/7 EEG™ SubQ), and recorded… Show more

“…In the recent years, subgaleal EEG (sgEEG) has emerged as a possible candidate for long-term EEG monitoring. 7,18–28 High correlation between scalp and subgaleal EEG recordings have also been reported. 25,29 It has also been reported that a single extracranial electrode could maintain coherence with an intracranial EEG over a cortical field of view as significant as 150 cm 2 .…”

“…Beyond the challenges associated with manufacturing the leads and their placement, the presence of lead wires introduces electrical interference noise and motion artifacts. 20…”

Novel electrode architecture for subgaleal electroencephalography: a feasibility study

“…In the recent years, subgaleal EEG (sgEEG) has emerged as a possible candidate for long-term EEG monitoring. 7,18–28 High correlation between scalp and subgaleal EEG recordings have also been reported. 25,29 It has also been reported that a single extracranial electrode could maintain coherence with an intracranial EEG over a cortical field of view as significant as 150 cm 2 .…”

“…Beyond the challenges associated with manufacturing the leads and their placement, the presence of lead wires introduces electrical interference noise and motion artifacts. 20…”

Novel electrode architecture for subgaleal electroencephalography: a feasibility study

“…The SubQ device was used to record EEG in healthy human subjects ( 40 ) as well as to detect clinically relevant EEG seizures in people with epilepsy (PWE), and demonstrates high reliability and good patient tolerance ( 41 – 44 ). Visual confirmation of the accuracy of the sub-scalp system's seizure identification was provided by periods of concurrent conventional scalp EEG data ( 45 ).…”

“…The implant is approved for a lifetime of ~1.5 years, thus allowing ultra long-term EEG monitoring in canines and humans living in their natural environments. The data acquired by this system also allowed seizure forecasting to be successfully undertaken ( 44 , 45 , 47 ). The area under the receiver operating characteristic curve (ROC AUC score) achieved 0.88, which is comparable to the performance of state-of-the-art forecasting work using iEEG ( 27 , 45 ).…”

Novel subscalp and intracranial devices to wirelessly record and analyze continuous EEG in unsedated, behaving dogs in their natural environments: A new paradigm in canine epilepsy research

“…Different electrode designs (i.e., bipolar electrodes, multichannel strips), and placement underneath the scalp (i.e., from focal to covering both hemispheres) determine the type of seizures that can be recorded (37,47). Subcutaneous solutions are quasi invisible and existing studies show that patients are willing to undergo the operation and insertion of the material for long periods of time (37,47,53). However, additional data involving larger patient samples are required to confirm overall acceptance of these devices.…”

The Challenging Path to Developing a Mobile Health Device for Epilepsy: The Current Landscape and Where We Go From Here