Theta-burst direct electrical stimulation remodels human brain networks

Huang, Yuhao; Zelmann, Rina; Hadar, Peter; Dezha-Peralta, Jaquelin; Richardson, R. Mark; Williams, Ziv M.; Cash, Sydney S.; Keller, Corey J.; Paulk, Angelique C.

doi:10.1038/s41467-024-51443-1

Nat Commun

2024

DOI: 10.1038/s41467-024-51443-1

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Theta-burst direct electrical stimulation remodels human brain networks

Yuhao Huang,

Rina Zelmann,

Peter Hadar

et al.

Abstract: Theta-burst stimulation (TBS), a patterned brain stimulation technique that mimics rhythmic bursts of 3–8 Hz endogenous brain rhythms, has emerged as a promising therapeutic approach for treating a wide range of brain disorders, though the neural mechanism of TBS action remains poorly understood. We investigated the neural effects of TBS using intracranial EEG (iEEG) in 10 pre-surgical epilepsy participants undergoing intracranial monitoring. Here we show that individual bursts of direct electrical TBS at 29 f… Show more

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2024

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Cited by 2 publications

References 114 publications

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Electroconvulsive therapy generates a hidden wave after seizure

Rosenthal,

Majeski,

Somarowthu

et al. 2024

Preprint

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Electroconvulsive therapy (ECT) is a fast-acting, highly effective, and safe treatment for medication-resistant depression. Historically, the clinical benefits of ECT have been attributed to generating a controlled seizure; however, the underlying neurobiology is understudied and remains largely unresolved. Using optical neuroimaging to probe neural activity and hemodynamics in a mouse model of ECT, we demonstrated that a second brain event follows seizure: cortical spreading depolarization (CSD). We further found that ECT stimulation pulse parameters and electrode configuration directly shaped the wave dynamics of seizure and subsequent CSD. To translate these findings to human patients, we tested for the presence of hemodynamic signatures of post-ictal CSD using non-invasive diffuse optical monitoring of cerebral blood flow and oxygenation during routine ECT treatments. We found evidence that humans generate hyperemic waves after ECT seizure which are highly consistent with CSD. These results challenge a long-held assumption that seizure is the primary outcome of ECT and point to new opportunities for optimizing ECT stimulation parameters to precisely modulate brain activity and treatment outcomes.

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Electroconvulsive therapy generates a hidden wave after seizure

Rosenthal,

Majeski,

Somarowthu

et al. 2024

Preprint

View full text Add to dashboard Cite

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Human single-neuron activity is modulated by intracranial theta burst stimulation of the basolateral amygdala

Campbell,

Cowan,

Wahlstrom

et al. 2024

Preprint

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The amygdala is a highly connected cluster of nuclei with input from multiple sensory modalities, particularly the ventral visual stream, and vast projections to distributed cortical and subcortical regions involved in autonomic regulation and cognition. Numerous studies have described the amygdala's capacity to facilitate the encoding of long-lasting emotional memories. Recently, direct electrical stimulation of the basolateral complex of the amygdala (BLA) in humans revealed a more generalized ability to enhance declarative memory irrespective of the emotional valence, likely by promoting synaptic plasticity-related processes underlying memory consolidation in the hippocampus and medial temporal lobe. These effects were achieved with rhythmic theta-burst stimulation (TBS), which is known to induce long-term potentiation (LTP), a key mechanism in memory formation. Emerging evidence suggests that intracranial TBS may also enhance memory specificity, evoke theta-frequency oscillations, and facilitate short-term plasticity in local field potential recordings. However, how amygdalar TBS modulates activity at the single-cell level and to what extent this modulation is associated with memory performance remains poorly understood. Here, we address this knowledge gap by conducting simultaneous microelectrode recordings from prefrontal and medial temporal structures during a memory task in which intracranial TBS was applied to the BLA. We observed a subset of neurons whose firing rate was modulated by TBS and exhibited highly heterogeneous responses with respect to onset latency, duration, and direction of effect. Notably, location and baseline activity predicted which neurons were most susceptible to modulation. These findings provide direct empirical support for stimulation-evoked modulation of single-neuron activity in humans, which has implications for the development and refinement of neuromodulatory therapies.

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Theta-burst direct electrical stimulation remodels human brain networks

Cited by 2 publications

References 114 publications

Electroconvulsive therapy generates a hidden wave after seizure

Electroconvulsive therapy generates a hidden wave after seizure

Human single-neuron activity is modulated by intracranial theta burst stimulation of the basolateral amygdala

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