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9701 - 9710 of 52804 results
  • Journal Article
    Encoding of Partially Occluded and Occluding Objects in Primate Inferior Temporal Cortex | Journal of Neuroscience
    Object segmentation—the process of parsing visual scenes—is essential for object recognition and scene understanding. We investigated how responses of neurons in macaque inferior temporal (IT) cortex contribute to object segmentation under partial occlusion. Specifically, we asked whether IT responses to occluding and occluded objects are bound together as in the visual image or linearly separable reflecting their segmentation. We recorded the activity of 121 IT neurons while two male animals performed a shape discrimination task under partial occlusion. We found that for a majority (60%) of neurons, responses were enhanced by partial occlusion, but they were only weakly shape selective for the discriminanda at all levels of occlusion. Enhancement of IT responses in these neurons depended largely on the area of occlusion but only minimally on the color and shape of the occluding dots. In contrast to the above group of neurons, a sizable minority responded best to the unoccluded stimulus and showed strong s...
    Jun 30, 2021 Tomoyuki Namima
  • Journal Article
    REM Sleep Microstates in the Human Anterior Thalamus | Journal of Neuroscience
    Rapid eye movement (REM) sleep is an elusive neural state that is associated with a variety of functions from physiological regulatory mechanisms to complex cognitive processing. REM periods consist of the alternation of phasic and tonic REM microstates that differ in spontaneous and evoked neural activity. Although previous studies indicate, that cortical and thalamocortical activity differs across phasic and tonic microstates, the characterization of neural activity, particularly in subcortical structures that are critical in the initiation and maintenance of REM sleep is still limited in humans. Here, we examined electric activity patterns of the anterior nuclei of the thalamus as well as their functional connectivity with scalp EEG recordings during REM microstates and wakefulness in a group of epilepsy patients ( N = 12, 7 females). Anterothalamic local field potentials (LFPs) showed increased high-α and β frequency power in tonic compared with phasic REM, emerging as an intermediate state between pha...
    Jun 30, 2021 Péter Simor
  • Journal Article
    Accounting for Biases in the Estimation of Neuronal Signal Correlation | Journal of Neuroscience
    Signal correlation ( r s) is commonly defined as the correlation between the tuning curves of two neurons and is widely used as a metric of tuning similarity. It is fundamental to how populations of neurons represent stimuli and has been central to many studies of neural coding. Yet the classic estimate, Pearson's correlation coefficient, <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:msub><mml:mover accent="true"><mml:mi>r</mml:mi><mml:mo>̂</mml:mo></mml:mover><mml:mi mathvariant="normal">s</mml:mi></mml:msub></mml:mrow></mml:math>, between the average responses of two neurons to a set of stimuli suffers from confounding biases. The estimate <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:msub><mml:mover accent="true"><mml:mi>r</mml:mi><mml:mo>̂</mml:mo></mml:mover><mml:mi mathvariant="normal">s</mml:mi></mml:msub></mml:mrow></mml:math> can be downwardly biased by trial-to-trial variability and also upwardly biased by trial...
    Jun 30, 2021 Dean A. Pospisil
  • Journal Article
    Aversive Conditioning of Spatial Position Sharpens Neural Population-Level Tuning in Visual Cortex and Selectively Alters Alpha-Band Activity | Journal of Neuroscience
    Processing capabilities for many low-level visual features are experientially malleable, aiding sighted organisms in adapting to dynamic environments. Explicit instructions to attend a specific visual field location influence retinotopic visuocortical activity, amplifying responses to stimuli appearing at cued spatial positions. It remains undetermined both how such prioritization affects surrounding nonprioritized locations, and if a given retinotopic spatial position can attain enhanced cortical representation through experience rather than instruction. The current report examined visuocortical response changes as human observers ( N = 51, 19 male) learned, through differential classical conditioning, to associate specific screen locations with aversive outcomes. Using dense-array EEG and pupillometry, we tested the preregistered hypotheses of either sharpening or generalization around an aversively associated location following a single conditioning session. Competing hypotheses tested whether mean resp...
    Jun 30, 2021 Wendel M. Friedl
  • Journal Article
    Neural Substrates of Muscle Co-contraction during Dynamic Motor Adaptation | Journal of Neuroscience
    As we learn to perform a motor task with novel dynamics, the central nervous system must adapt motor commands and modify sensorimotor transformations. The objective of the current research is to identify the neural mechanisms underlying the adaptive process. It has been shown previously that an increase in muscle co-contraction is frequently associated with the initial phase of adaptation and that co-contraction is gradually reduced as performance improves. Our investigation focused on the neural substrates of muscle co-contraction during the course of motor adaptation using a resting-state fMRI approach in healthy human subjects of both genders. We analyzed the functional connectivity in resting-state networks during three phases of adaptation, corresponding to different muscle co-contraction levels and found that change in the strength of functional connectivity in one brain network was correlated with a metric of co-contraction, and in another with a metric of motor learning. We identified the cerebellu...
    Jun 30, 2021 Saeed Babadi
  • Journal Article
    Getting to Know You: Emerging Neural Representations during Face Familiarization | Journal of Neuroscience
    The successful recognition of familiar persons is critical for social interactions. Despite extensive research on the neural representations of familiar faces, we know little about how such representations unfold as someone becomes familiar. In three EEG experiments on human participants of both sexes, we elucidated how representations of face familiarity and identity emerge from different qualities of familiarization: brief perceptual exposure (Experiment 1), extensive media familiarization (Experiment 2), and real-life personal familiarization (Experiment 3). Time-resolved representational similarity analysis revealed that familiarization quality has a profound impact on representations of face familiarity: they were strongly visible after personal familiarization, weaker after media familiarization, and absent after perceptual familiarization. Across all experiments, we found no enhancement of face identity representation, suggesting that familiarity and identity representations emerge independently dur...
    Jun 30, 2021 Géza Gergely Ambrus
  • Journal Article
    This Week in The Journal | Journal of Neuroscience
    Zhanmin Lin, Bin Wu, Maarten W. Paul, Ka Wan Li, Yao Yao, et al. (see pages [5579–5594][1]) Synaptic strength is regulated partly by kinases and phosphatases that determine the phosphorylation state of various synaptic proteins. In the cerebellum, for example, protein kinase C and CaMKII
    Jun 30, 2021
  • Journal Article
    Effects of severe sleep disruption on the synaptic ultrastructure of young mice | eNeuro
    There is molecular, electrophysiological and ultrastructural evidence that a net increase in synaptic strength occurs in many brain circuits during spontaneous wake or short sleep deprivation, reflecting ongoing learning. Sleep leads instead to a broad but selective weakening of many forebrain synapses, thus preventing synaptic saturation and decreasing the energy cost of synaptic activity. Whether synaptic potentiation can persist or further increase after long sleep deprivation is unknown. Whether synaptic renormalization can occur during chronic sleep restriction is also unknown. Here we addressed these questions by measuring an established ultrastructural measure of synaptic strength, the axon-spine interface (ASI), in the primary motor cortex of 1) one-month-old adolescent mice chronically sleep restricted (CSR) using a paradigm that decreases NREM and REM sleep by two/thirds; 2) in two-week-old mouse pups sleep deprived for 15 hours, or allowed afterwards to recover for 16 hours. Both groups were com...
    Jun 28, 2021 Hirotaka Nagai
  • Journal Article
    Watching movies unfold – a frame-by-frame analysis of the associated neural dynamics | eNeuro
    Our lives unfold as sequences of events. We experience these events as seamless, even though they are composed of individual images captured in between the interruptions imposed by eye blinks and saccades. Events typically involve visual imagery from the real world (scenes), and the hippocampus is frequently engaged in this context. It is unclear, however, whether the hippocampus would be similarly responsive to unfolding events that involve abstract imagery. Addressing this issue could provide insights into the nature of its contribution to event processing, with relevance for theories of hippocampal function. Consequently, during magnetoencephalography we had female and male humans watch highly matched unfolding movie events composed of either scene image frames that reflected the real world, or frames depicting abstract patterns. We examined the evoked neuronal responses to each image frame along the time course of the movie events. Only one difference between the two conditions was evident, and that wa...
    Jun 28, 2021 Anna M. Monk
  • Journal Article
    Human hippocampal neurons track moments in a sequence of events | Journal of Neuroscience
    An indispensable feature of episodic memory is our ability to temporally piece together different elements of an experience into a coherent memory. Hippocampal “time cells” – neurons that represent temporal information – may play a critical role in this process. While these cells have been repeatedly found in rodents, it is still unclear to what extent similar temporal selectivity exists in the human hippocampus. Here we show that temporal context modulates the firing activity of human hippocampal neurons during structured temporal experiences. We recorded neuronal activity in the human brain while patients of either sex learned predictable sequences of pictures. We report that human time cells fire at successive moments in this task. Furthermore, time cells also signaled inherently changing temporal contexts during empty 10-second gap periods between trials, while participants waited for the task to resume. Finally, population activity allowed for decoding temporal epoch identity, both during sequence lea...
    Jun 28, 2021 Leila Reddy
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