Thalamic deep brain stimulation as a paradigm to reduce consciousness: implications for cortico-striatal dynamics, absence epilepsy and consciousness studies

Redinbaugh, Michelle J.; Afrasiabi, Mohsen; Phillips, Jessica M.; Kambi, Niranjan A.; Mohanta, Sounak; Saalmann, Yuri B.

doi:10.1101/2021.07.27.453855

Cited by 4 publications

(1 citation statement)

References 78 publications

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“…It is characterized by complex partial seizures, and secondary generalizations resulting from abnormal electrical activity in the temporal lobe, presenting as epileptic foci ( 3 , 4 ). The recurring seizures in most people with TLE, result in cognitive dysfunction in areas such as learning, language, memory, emotion, perception, attention, consciousness, and behavior, which has a serious impact on their cognitive abilities and their lives ( 5 – 7 ). Existing studies have shown that the pathogenesis of epilepsy can be further understood through the study of the brain network properties, and interactions between different brain regions.…”

Section: Introductionmentioning

confidence: 99%

The Bilateral Precuneus as a Potential Neuroimaging Biomarker for Right Temporal Lobe Epilepsy: A Support Vector Machine Analysis

Huang

Zhou²,

Zhong

et al. 2022

Front. Psychiatry

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Background and ObjectiveWhile evidence has demonstrated that the default-mode network (DMN) plays a key role in the broad-scale cognitive problems that occur in right temporal lobe epilepsy (rTLE), little is known about alterations in the network homogeneity (NH) of the DMN in TLE. In this study, we used the NH method to investigate the NH of the DMN in TLE at rest, and an support vector machine (SVM) method for the diagnosis of rTLE.MethodsA total of 43 rTLE cases and 42 healthy controls (HCs) underwent resting-state functional magnetic resonance imaging (rs-fMRI). Imaging data were analyzed with the NH and SVM methods.ResultsrTLE patients have a decreased NH in the right inferior temporal gyrus (ITG) and left middle temporal gyrus (MTG), but increased NH in the bilateral precuneus (PCu) and right inferior parietal lobe (IPL), compared with HCs. We found that rTLE had a longer performance reaction time (RT). No significant correlation was found between abnormal NH values and clinical variables of the patients. The SVM results showed that increased NH in the bilateral PCu as a diagnostic biomarker distinguished rTLE from HCs with an accuracy of 74.12% (63/85), a sensitivity 72.01% (31/43), and a specificity 72.81% (31/42).ConclusionThese findings suggest that abnormal NH of the DMN exists in rTLE, and highlights the significance of the DMN in the pathophysiology of cognitive problems occurring in rTLE, and the bilateral PCu as a neuroimaging diagnostic biomarker for rTLE.

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Section: Introductionmentioning

confidence: 99%

The Bilateral Precuneus as a Potential Neuroimaging Biomarker for Right Temporal Lobe Epilepsy: A Support Vector Machine Analysis

Huang

Zhou²,

Zhong

et al. 2022

Front. Psychiatry

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Propofol anesthesia alters cortical traveling waves

Bhattacharya

Donoghue

Mahnke

et al. 2022

Preprint

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Oscillatory dynamics in cortex seem to organize into traveling waves that serve a variety of functions. Recent studies show that propofol, a widely used anesthetic, dramatically alters cortical oscillations by increasing slow-delta oscillatory power and coherence. It is not known how this affects traveling waves. We compared traveling waves across the cortex of non-human primates (NHPs) before, during, and after propofol-induced loss-of-consciousness (LOC). After LOC, traveling waves in the slow-delta (~ 1Hz) range increased, grew more organized, and travelled in different directions relative to the awake state. Higher frequency (8-30 Hz) traveling waves, by contrast, decreased, lost structure, and switched to directions where the slow-delta waves were less frequent. The results suggest that LOC may be due, in part, to changes in slow-delta traveling waves that, in turn, alter and disrupt traveling waves in the higher frequencies associated with cognition.

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Thalamic Control Over Laminar Cortical Dynamics Across Conscious States

Müller,

Munn,

Baracchini

et al. 2024

Preprint

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The human brain must support both stable and flexible neural dynamics in order to adapt to changing contexts. This paper investigates the role of the thalamus, a crucial subcortical structure, in orchestrating these opposing dynamics in the cerebral cortex. Through two distinct classes of cortical projections, the thalamus is able to support distinct dynamics modes: some cells relay precise information between cortical regions, whereas others diffusely modulate ongoing cortical dynamics. Traditional approaches to analysing neural data struggle to capture the moment-to-moment intricacies of brain dynamics, akin to mapping a rivers topography without understanding its flow, or laminarity. Inspired by the field of fluid dynamics, we show that spontaneous fMRI data exhibits non-trivial fluctuations in laminarity. Propofol-induced anesthesia selectively disrupts the non-laminar aspects of cortical dynamics while preserving laminar flow, which we validate with a large-scale biophysical model of the thalamocortical system. Finally, we confirmed theoretical predictions from the biophysical model using multielectrode electrophysiological recordings from the cerebral cortex of an anesthetized macaque – direct stimulation of the diffusely-projecting thalamus restored non-laminar cortical fluctuations and the waking state. We conclude that the thalamus provides versatile control over the cortical laminar and non-laminar flows that characterize conscious states.

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Thalamic deep brain stimulation as a paradigm to reduce consciousness: implications for cortico-striatal dynamics, absence epilepsy and consciousness studies

Cited by 4 publications

References 78 publications

The Bilateral Precuneus as a Potential Neuroimaging Biomarker for Right Temporal Lobe Epilepsy: A Support Vector Machine Analysis

The Bilateral Precuneus as a Potential Neuroimaging Biomarker for Right Temporal Lobe Epilepsy: A Support Vector Machine Analysis

Propofol anesthesia alters cortical traveling waves

Thalamic Control Over Laminar Cortical Dynamics Across Conscious States

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