Breakdown of spatial coding and neural synchronization in epilepsy

Shuman, Tristan; Aharoni, Daniel; Dj, Cai; Lee, Craig; Chavlis, Spyridon; Taxidis, Jiannis; Se, Flores; Cheng, Kewei; Javaherian, Milad; Cc, Kaba; Shtrahman, Matthew; Ki, Bakhurin; Masmanidis, Sotiris C.; Bs, Khakh; Poirazi, Panayiota; Aj, Silva; Golshani, Peyman

doi:10.1101/358580

Cited by 12 publications

(13 citation statements)

References 53 publications

(74 reference statements)

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“… 20 , 21 For example, place cells, which are thought to provide a cognitive map, are unstable in epileptic mice, which is associated with interneuron dysfunction and altered oscillations in the hippocampus. 22 , 23 In addition, pathological high-frequency oscillations have been observed during interictal periods and negatively impact memory processes. 24 These data demonstrate that network abnormalities in the hippocampus not only contribute to seizure generation but also lead to impairments in hippocampal function critical for cognitive processes.…”

Section: Aberrant Network Activity and Psychiatric Comorbidities In Ementioning

confidence: 99%

Network Dysfunction in Comorbid Psychiatric Illnesses and Epilepsy

Colmers

Maguire

2020

Epilepsy Curr

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The episodic nature of both epilepsy and psychiatric illnesses suggests that the brain switches between healthy and pathological states. The most obvious example of transitions between network states related to epilepsy is the manifestation of ictal events. In addition to seizures, there are more subtle changes in network communication within and between brain regions, which we propose may contribute to psychiatric illnesses associated with the epilepsies. This review will highlight evidence supporting aberrant network activity associated with epilepsy and the contribution to cognitive impairments and comorbid psychiatric illnesses. Further, we discuss potential mechanisms mediating the network dysfunction associated with comorbidities in epilepsy, including interneuron loss and hypothalamic–pituitary–adrenal axis dysfunction. Conceptually, it is necessary to think beyond ictal activity to appreciate the breadth of network dysfunction contributing to the spectrum of symptoms associated with epilepsy, including psychiatric comorbidities.

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Section: Aberrant Network Activity and Psychiatric Comorbidities In Ementioning

confidence: 99%

Network Dysfunction in Comorbid Psychiatric Illnesses and Epilepsy

Colmers

Maguire

2020

Epilepsy Curr

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“…The Golshani group is using these microscopes to understand the mechanisms underlying poor spatial memory in temporal lobe epilepsy. By recording place‐related activity in thousands of CA1 neurons over a week, results show dramatic reductions in the number, precision, and stability of place fields …”

Section: Animal Studiesmentioning

confidence: 99%

“…By recording place-related activity in thousands of CA1 neurons over a week, results show dramatic reductions in the number, precision, and stability of place fields. 35…”

Section: Calcium Imaging Of Seizure Activity From Freely Moving Rodmentioning

confidence: 99%

WONOEP appraisal: Network concept from an imaging perspective

et al. 2019

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Neuroimaging techniques applied to a variety of organisms—from zebrafish, to rodents to humans—can offer valuable insights into neuronal network properties and their dysfunction in epilepsy. A wide range of imaging methods used to monitor neuronal circuits and networks during evoked seizures in animal models and advances in functional magnetic resonance imaging (fMRI) applied to patients with epilepsy were discussed during the XIV Workshop on Neurobiology of Epilepsy (XIV WONOEP) organized in 2017 by the Neurobiology Commission of the International League Against Epilepsy (ILAE). We review the growing number of technological approaches developed, as well as the current state of knowledge gained from studies applying these advanced imaging approaches to epilepsy research.

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“…A Miniscope was used to image calcium events in the CA1 region of the hippocampus as previously described (Cai et al, 2016;Shuman et al, 2018). The analysis of calcium recordings was performed using an in-house written script based on existing algorithms (Pnevmatikakis et al, 2016;Lu et al, 2018).…”

Section: Miniscope Imagingmentioning

confidence: 99%

ezTrack: An open-source video analysis pipeline for the investigation of animal behavior

Pennington

Dong

Bowler

et al. 2019

Preprint

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words Main Text (excluding methods and figure legends): 2400Abstract Tracking small animal behavior by video is one of the most common tasks in the fields of neuroscience and psychology. Although commercial software exists for the execution of this task, commercial software often presents enormous cost to the researcher, and can also entail purchasing specific hardware setups that are not only expensive but lack adaptability. Moreover, the inaccessibility of the code underlying this software renders them inflexible. Alternatively, available open source options frequently require extensive model training and can be challenging for those inexperienced with programming. Here we present an open source and platform independent set of behavior analysis pipelines using interactive Python (iPython/Jupyter Notebook) that researchers with no prior programming experience can use. Two modules are described. One module can be used for the positional analysis of an individual animal across a session (i.e., location tracking), amenable to a wide range of behavioral tasks including conditioned place preference, water maze, light-dark box, open field, and elevated plus maze, to name but a few. A second module is described for the analysis of conditioned freezing behavior. For both modules, a range of interactive plots and visualizations are available to confirm that chosen parameters produce results that conform to the user's approval. In addition, batch processing tools for the fast analysis of multiple videos is provided, and frame-by-frame output makes aligning the data with neural recording data simple. Lastly, options for cropping video frames to mitigate the influence of fiberoptic/electrophysiology cables, analyzing specified portions of time in a video, and defining regions of interest, can be implemented with ease.

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Breakdown of spatial coding and neural synchronization in epilepsy

Cited by 12 publications

References 53 publications

Network Dysfunction in Comorbid Psychiatric Illnesses and Epilepsy

Network Dysfunction in Comorbid Psychiatric Illnesses and Epilepsy

WONOEP appraisal: Network concept from an imaging perspective

ezTrack: An open-source video analysis pipeline for the investigation of animal behavior

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