2012
DOI: 10.1073/pnas.1109895109
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Spatiotemporal dynamics of neocortical excitation and inhibition during human sleep

Abstract: Intracranial recording is an important diagnostic method routinely used in a number of neurological monitoring scenarios. In recent years, advancements in such recordings have been extended to include unit activity of an ensemble of neurons. However, a detailed functional characterization of excitatory and inhibitory cells has not been attempted in human neocortex, particularly during the sleep state. Here, we report that such feature discrimination is possible from high-density recordings in the neocortex by … Show more

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Cited by 176 publications
(266 citation statements)
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References 40 publications
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“…Thalamocortical unit activity underlies the generation of slow oscillation, one of the most important brain processes participating in generation of sleep (Crunelli et al, 2015). Slow wave activity in humans showed alternating neuronal excitation and inhibition patterns identified previously in animal models as upstates and downstates Csercsa et al, 2010;Nobili et al, 2012;Peyrache et al, 2012;Staba, C. L. Wilson, Bragin, Fried and Engel, 2002a). …”
Section: Testing Normal Functions In Epileptic Patientsmentioning
confidence: 77%
“…Thalamocortical unit activity underlies the generation of slow oscillation, one of the most important brain processes participating in generation of sleep (Crunelli et al, 2015). Slow wave activity in humans showed alternating neuronal excitation and inhibition patterns identified previously in animal models as upstates and downstates Csercsa et al, 2010;Nobili et al, 2012;Peyrache et al, 2012;Staba, C. L. Wilson, Bragin, Fried and Engel, 2002a). …”
Section: Testing Normal Functions In Epileptic Patientsmentioning
confidence: 77%
“…The particularity of these recordings is double: First, they provide unit recordings of single neurons, which is a rare opportunity to access single neuron activity in humans and in different brain states. But the most original aspect of these data is the fact that we could separate excitatory from inhibitory neurons, and that this separation was confirmed by direct neuron-to-neuron interactions (Peyrache et al 2012). This type of data is very interesting and powerful to generate music, as it appears that inhibitory neurons are remarkably rhythmic and this rhythm is fundamental for this kind of musical composition.…”
Section: Discussionmentioning
confidence: 99%
“…Here, a dataset of 92 neurons was used-these neurons were simultaneously recorded in the temporal cortex of human subjects, and the main originality of these data is that excitatory and inhibitory neurons could be discriminated (Peyrache et al 2012;Dehghani et al 2016). This allowed us to create a musical sequence with two instruments, a woodblock for excitatory neurons and a xylophone for inhibitory cells.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…For the latter, the pairwise model misses relevant transients of high network activity, suggesting that additional constraints are necessary to accurately model the data. Keywords: Ising model, maximum entropy principle, natural gradient, human temporal cortex, multielectrode array recording, brain states Advances in experimental techniques have recently enabled the recording of the activity of tens to hundreds of neurons simultaneously [2] and has spurred the interest in modeling their collective behavior [3,4,5,6,7,8,9]. To this purpose, the pairwise Ising model has been introduced as the maximum entropy (most generic [10]) model able to reproduce the first and second empirical moments of the recorded neurons.…”
mentioning
confidence: 99%