Getting Drowsy? Alert/Nonalert Transitions and Visual Thalamocortical Network Dynamics

Bereshpolova, Yulia; Stoelzel, Carl R.; Zhuang, Jun; Amitai, Yael; Alonso, José‐Manuel; Swadlow, Harvey A.

doi:10.1523/jneurosci.2262-11.2011

Cited by 48 publications

(39 citation statements)

References 60 publications

(79 reference statements)

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“…In awake rabbits, frequent shifts between alert and nonalert brain states are associated with significant changes in spontaneous activity, burst firing (Guido and Weyand 1995;Sherman and Guillery 1996;Weyand et al 2001), and visually driven responses of LGN concentric neurons Cano et al 2006), and some such changes are conveyed to V1 layer 4 simple cells (Bereshpolova et al 2011;Zhuang et al 2014). Our results in LGN DS neurons are consistent with the results for LGN concentric cells, in showing higher spontaneous firing rates, lower burst rates, and stronger responses to visual stimulation in the preferred direction when alert.…”

Section: Discussionsupporting

confidence: 88%

“…The general surgical procedures have been reported previously (Bereshpolova et al 2007(Bereshpolova et al , 2011Stoelzel et al 2008;Swadlow et al 1998;Zhuang et al 2013) and are briefly described here. All experiments were conducted under the approval of the University of Connecticut Animal Care and Use Committee in accordance with National Institutes of Health Guidelines.…”

Section: Methodsmentioning

confidence: 99%

“…Multiunit recordings from superficial layers of superior colliculus (SC) were obtained using a threechannel system similar to the LGN system but with low impedance (Ͻ1.5 M⍀) electrodes. Hippocampal EEG and cortical EEG were simultaneously recorded with platinum-iridium microwires for monitoring brain states (Bereshpolova et al 2007(Bereshpolova et al , 2011Bezdudnaya et al 2006;Zhuang et al 2013).…”

Section: Methodsmentioning

confidence: 99%

“…Notably, this shift in brain state is associated with profound changes in LGN and V1 responses. We have previously shown that LGN concentric cells have higher spontaneous firing rate, lower burst rate, and higher response gain in the alert state than in the nonalert state (Bereshpolova et al 2011;Bezdudnaya et al 2006;Cano et al 2006). Like LGN concentric cells, here we show that DS cells also have significantly higher spontaneous firing rates and lower burst rate in the alert state (mean spontaneous firing rate: alert vs. nonalert: 15.36 Ϯ 1 vs. 9.95 Ϯ 0.95 spikes/s, paired t-test, P Ͻ 0.001, Fig.…”

Section: D E and F)mentioning

confidence: 98%

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Directional selective neurons in the awake LGN: response properties and modulation by brain state

Hei

Stoelzel

Zhuang

et al. 2014

Journal of Neurophysiology

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Directionally selective (DS) neurons are found in the retina and lateral geniculate nucleus (LGN) of rabbits and rodents, and in rabbits, LGN DS cells project to primary visual cortex. Here, we compare visual response properties of LGN DS neurons with those of layer 4 simple cells, most of which show strong direction/orientation selectivity. These populations differed dramatically, suggesting that DS cells may not contribute significantly to the synthesis of simple receptive fields: 1) whereas the first harmonic component (F1)-to-mean firing rate (F0) ratios of LGN DS cells are strongly nonlinear, those of simple cells are strongly linear; 2) whereas LGN DS cells have overlapped ON/OFF subfields, simple cells have either a single ON or OFF subfield or two spatially separate subfields; and 3) whereas the preferred directions of LGN DS cells are closely tied to the four cardinal directions, the directional preferences of simple cells are more evenly distributed. We further show that directional selectivity in LGN DS neurons is strongly enhanced by alertness via two mechanisms, 1) an increase in responses to stimulation in the preferred direction, and 2) an enhanced suppression of responses to stimuli moving in the null direction. Finally, our simulations show that these two consequences of alertness could each serve, in a vector-based population code, to hasten the computation of stimulus direction when rabbits become alert.

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Section: Discussionsupporting

confidence: 88%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: D E and F)mentioning

confidence: 98%

See 2 more Smart Citations

Directional selective neurons in the awake LGN: response properties and modulation by brain state

Hei

Stoelzel

Zhuang

et al. 2014

Journal of Neurophysiology

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“…Hippocampal activity in the rabbit can generally be separated into theta activity (4 -8 Hz) and high-voltage, irregular (HVIR) activity. Hippocampal theta activity is associated with cortical desynchronization and an aroused, alert state, whereas HVIR activity is associated with cortical synchronization and a nonaroused, nonalert state (Bereshpolova et al 2011;Green and Arduini 1954;Swadlow and Gusev 2001). During our recordings, rabbits often alternated spontaneously between theta and HVIR activity.…”

Section: Methodsmentioning

confidence: 89%

Hour-long adaptation in the awake early visual system

Stoelzel

Huff

Bereshpolova

et al. 2015

Journal of Neurophysiology

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Sensory adaptation serves to adjust awake brains to changing environments on different time scales. However, adaptation has been studied traditionally under anesthesia and for short time periods. Here, we demonstrate in awake rabbits a novel type of sensory adaptation that persists for Ͼ1 h and acts on visual thalamocortical neurons and their synapses in the input layers of the visual cortex. Following prolonged visual stimulation (10 -30 min), cells in the dorsal lateral geniculate nucleus (LGN) show a severe and prolonged reduction in spontaneous firing rate. This effect is bidirectional, and prolonged visually induced response suppression is followed by a prolonged increase in spontaneous activity. The reduction in thalamic spontaneous activity following prolonged visual activation is accompanied by increases in 1) response reliability, 2) signal detectability, and 3) the ratio of visual signal/spontaneous activity. In addition, following such prolonged activation of an LGN neuron, the monosynaptic currents generated by thalamic impulses in layer 4 of the primary visual cortex are enhanced. These results demonstrate that in awake brains, prolonged sensory stimulation can have a profound, long-lasting effect on the information conveyed by thalamocortical inputs to the visual cortex. lateral geniculate nucleus; thalamocortical; sensory adaptation THE VISUAL SYSTEM IS HIGHLY dynamic, able to scale neuronal responses across several orders of magnitude of mean luminance and to alter tuning specificity based on recent visual experience. Adaptations of neural responses, lasting from seconds (Baccus and Meister 2002;Brown and Masland 2001;Rieke 2001) to minutes (Dragoi et al. 2000;Giaschi et al. 1993;Hammond et al. 1988;McLelland et al. 2009;Ohzawa et al. 1985;Vautin and Berkley 1977), have been described, with the longest lasting adaption ϳ10 min (Dragoi et al. 2000). Yet, the perceptual effects of long-duration adapting stimuli can last considerably longer [see, for example, Dong et al. (2014) Here, we describe a novel form of adaptation, following prolonged visual stimulation, in which the spontaneous activity of neurons in the lateral geniculate nucleus (LGN) of awake rabbits is reduced to as little as 10% of pre-adaptation baseline activity levels and slowly recovers over a period of Ͼ1 h. We demonstrate that this adaptation, which is cell specific and retinotopically precise, is accompanied by an increase in the reliability (reduced Fano factor) and detectability [increased area of receiver operator characteristic (ROC) functions] of visual responses and by an increase in the ratio of evoked-tospontaneous firing rates. We also show that during the adapted period, monosynaptic currents, generated in layer 4 by thalamic impulses, are greatly increased, providing a mechanism for further enhancing the saliency of visual stimuli. Finally, we show that visual stimuli that suppress cell responses for a prolonged period of time can have the opposite effect and generate a prolonged increase in thalamic spontaneous activ...

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An Experimental Paradigm for Evaluation of Entropy and Pace Based Ocular Parameters for Detection of Fatigue and Drowsiness

Das

Kumar

Halder

et al. 2020

Learning and Analytics in Intelligent Systems

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Getting Drowsy? Alert/Nonalert Transitions and Visual Thalamocortical Network Dynamics

Cited by 48 publications

References 60 publications

Directional selective neurons in the awake LGN: response properties and modulation by brain state

Directional selective neurons in the awake LGN: response properties and modulation by brain state

Hour-long adaptation in the awake early visual system

An Experimental Paradigm for Evaluation of Entropy and Pace Based Ocular Parameters for Detection of Fatigue and Drowsiness

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