Literature DB >> 26035673

Conundrums of high-frequency oscillations (80-800 Hz) in the epileptic brain.

Liset Menendez de la Prida1, Richard J Staba, Joshua A Dian.   

Abstract

Pathological high-frequency oscillations (HFOs) (80-800 Hz) are considered biomarkers of epileptogenic tissue, but the underlying complex neuronal events are not well understood. Here, we identify and discuss several outstanding issues or conundrums in regards to the recording, analysis, and interpretation of HFOs in the epileptic brain to critically highlight what is known and what is not about these enigmatic events. High-frequency oscillations reflect a range of neuronal processes contributing to overlapping frequencies from the lower 80 Hz to the very fast spectral frequency bands. Given their complex neuronal nature, HFOs are extremely sensitive to recording conditions and analytical approaches. We provide a list of recommendations that could help to obtain comparable HFO signals in clinical and basic epilepsy research. Adopting basic standards will facilitate data sharing and interpretation that collectively will aid in understanding the role of HFOs in health and disease for translational purpose.

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Year:  2015        PMID: 26035673      PMCID: PMC4455041          DOI: 10.1097/WNP.0000000000000150

Source DB:  PubMed          Journal:  J Clin Neurophysiol        ISSN: 0736-0258            Impact factor:   2.177


  149 in total

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2.  Interictal scalp fast oscillations as a marker of the seizure onset zone.

Authors:  L P Andrade-Valenca; F Dubeau; F Mari; R Zelmann; J Gotman
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3.  A comparison of methods for separation of transient and oscillatory signals in EEG.

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Journal:  J Neurosci Methods       Date:  2011-05-10       Impact factor: 2.390

Review 4.  High frequency oscillations in the intact brain.

Authors:  György Buzsáki; Fernando Lopes da Silva
Journal:  Prog Neurobiol       Date:  2012-03-17       Impact factor: 11.685

5.  Structured timing patterns within bursts from epileptic neurons in undrugged monkey cortex.

Authors:  W H Calvin; G W Sypert; A A Ward
Journal:  Exp Neurol       Date:  1968-08       Impact factor: 5.330

6.  Dendritic but not somatic GABAergic inhibition is decreased in experimental epilepsy.

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8.  Multivariate phase-amplitude cross-frequency coupling in neurophysiological signals.

Authors:  Ryan T Canolty; Charles F Cadieu; Kilian Koepsell; Robert T Knight; Jose M Carmena
Journal:  IEEE Trans Biomed Eng       Date:  2011-10-18       Impact factor: 4.538

9.  An approach for reliably investigating hippocampal sharp wave-ripples in vitro.

Authors:  Nikolaus Maier; Genela Morris; Friedrich W Johenning; Dietmar Schmitz
Journal:  PLoS One       Date:  2009-09-07       Impact factor: 3.240

10.  Role of EPSPs in initiation of spontaneous synchronized burst firing in rat hippocampal neurons bathed in high potassium.

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  19 in total

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Authors:  Bruce J Gluckman; Catherine A Schevon
Journal:  J Clin Neurophysiol       Date:  2015-06       Impact factor: 2.177

2.  A semi-automated method for rapid detection of ripple events on interictal voltage discharges in the scalp electroencephalogram.

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Journal:  J Neurosci Methods       Date:  2016-12-14       Impact factor: 2.390

3.  Progress and Remaining Challenges in the Application of High Frequency Oscillations as Biomarkers of Epileptic Brain.

Authors:  Fatemeh Khadjevand; Jan Cimbalnik; Gregory A Worrell
Journal:  Curr Opin Biomed Eng       Date:  2017-09-22

4.  Harmonization of pipeline for detection of HFOs in a rat model of post-traumatic epilepsy in preclinical multicenter study on post-traumatic epileptogenesis.

Authors:  Cesar Santana-Gomez; Pedro Andrade; Matthew R Hudson; Tomi Paananen; Robert Ciszek; Gregory Smith; Idrish Ali; Brian K Rundle; Xavier Ekolle Ndode-Ekane; Pablo M Casillas-Espinosa; Riikka Immonen; Noora Puhakka; Nigel Jones; Rhys D Brady; Piero Perucca; Sandy R Shultz; Asla Pitkänen; Terence J O'Brien; Richard Staba
Journal:  Epilepsy Res       Date:  2019-03-15       Impact factor: 3.045

Review 5.  Interictal high-frequency oscillations in focal human epilepsy.

Authors:  Jan Cimbalnik; Michal T Kucewicz; Greg Worrell
Journal:  Curr Opin Neurol       Date:  2016-04       Impact factor: 5.710

6.  Electrophysiological Evidence for the Development of a Self-Sustained Large-Scale Epileptic Network in the Kainate Mouse Model of Temporal Lobe Epilepsy.

Authors:  Laurent Sheybani; Gwenaël Birot; Alessandro Contestabile; Margitta Seeck; Jozsef Zoltan Kiss; Karl Schaller; Christoph M Michel; Charles Quairiaux
Journal:  J Neurosci       Date:  2018-03-19       Impact factor: 6.167

7.  Learning-enhanced coupling between ripple oscillations in association cortices and hippocampus.

Authors:  Dion Khodagholy; Jennifer N Gelinas; György Buzsáki
Journal:  Science       Date:  2017-10-20       Impact factor: 47.728

Review 8.  Identification of clinically relevant biomarkers of epileptogenesis - a strategic roadmap.

Authors:  Michele Simonato; Denes V Agoston; Amy Brooks-Kayal; Chris Dulla; Brandy Fureman; David C Henshall; Asla Pitkänen; William H Theodore; Roy E Twyman; Firas H Kobeissy; Kevin K Wang; Vicky Whittemore; Karen S Wilcox
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9.  Laminar distribution of electrically evoked hippocampal short latency ripple activity highlights the importance of the subiculum in vivo in human epilepsy, an intraoperative study.

Authors:  Emília Tóth; Virág Bokodi; Zoltán Somogyvári; Zsófia Maglóczky; Lucia Wittner; István Ulbert; Loránd Erőss; Dániel Fabó
Journal:  Epilepsy Res       Date:  2020-11-24       Impact factor: 3.045

10.  Utilization of independent component analysis for accurate pathological ripple detection in intracranial EEG recordings recorded extra- and intra-operatively.

Authors:  Shoichi Shimamoto; Zachary J Waldman; Iren Orosz; Inkyung Song; Anatol Bragin; Itzhak Fried; Jerome Engel; Richard Staba; Ashwini Sharan; Chengyuan Wu; Michael R Sperling; Shennan A Weiss
Journal:  Clin Neurophysiol       Date:  2017-10-25       Impact factor: 3.708
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