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8621 - 8630 of 52802 results
  • Journal Article
    Transcranial Random Noise Stimulation modulates neural processing of sensory and motor circuits – from potential cellular mechanisms to behaviour: a scoping review | eNeuro
    Background : Noise introduced in the human nervous system from cellular to systems levels can have a major impact on signal processing. Using transcranial stimulation, electrical noise can be added to cortical circuits to modulate neuronal activity and enhance function in the healthy brain and in neurological patients. Transcranial random noise stimulation (tRNS) is a promising technique that is less well understood than other non-invasive neuromodulatory methods. Objective: The aim of the present scoping review is to collate published evidence on the effects of electrical noise at the cellular, systems, and behavioural levels, and discuss how this emerging method might be harnessed to augment perceptual and motor functioning of the human nervous system. Design: Online databases were used to identify papers published 2008–2021 using tRNS in humans, from which we identified 70 publications focusing on sensory and motor function. Additionally, we interpret the existing evidence by referring to articles inv...
    Dec 16, 2021 Weronika Potok
  • Journal Article
    L-Type Calcium Channels Contribute to Ethanol-Induced Aberrant Tangential Migration of Primordial Cortical GABAergic Interneurons in the Embryonic Medial Prefrontal Cortex | eNeuro
    Exposure of the fetus to alcohol (ethanol) via maternal consumption during pregnancy can result in fetal alcohol spectrum disorders (FASD), hallmarked by long-term physical, behavioral, and intellectual abnormalities. In our preclinical mouse model of FASD, prenatal ethanol exposure disrupts tangential migration of corticopetal GABAergic interneurons in the embryonic medial prefrontal cortex (mPFC). We postulated that ethanol perturbed the normal pattern of tangential migration via enhancing GABAA receptor-mediated membrane depolarization that prevails during embryonic development in GABAergic cortical interneurons. However, beyond this, our understanding of the underlying mechanisms is incomplete. Here, we tested the hypothesis that the ethanol-enhanced depolarization triggers downstream an increase in high-voltage activated nifedipine-sensitive L-type calcium channel (LTCC) activity, and provide evidence implicating calcium dynamics in the signaling scheme underlying the migration of embryonic GABAergic ...
    Dec 16, 2021 Stephanie M. Lee
  • Journal Article
    Distinct progressions of neuronal activity changes underlie the formation and consolidation of a gustatory associative memory | Journal of Neuroscience
    Acquiring new memories is a multi-stage process. Numerous studies have convincingly demonstrated that initially acquired memories are labile, and only stabilized by later consolidation processes. These multiple phases of memory formation are known to involve modification of both cellular excitability and synaptic connectivity, which in turn change neuronal activity at both the single neuron and ensemble levels. However, the specific mapping between the known phases of memory and the changes in neuronal activity at different organizational levels – the single-neuron, population representations, and ensemble state dynamics – remains unknown. Here we address this issue in the context of conditioned taste aversion learning by continuously tracking gustatory cortex (GC) neuronal taste responses in alert male and female rats during the 24 hours following a taste-malaise pairing. We found that the progression of activity changes depends on the neuronal organizational level: whereas the population response changed...
    Dec 16, 2021 Elor Arieli
  • Journal Article
    Neural mechanism for coding depth from motion parallax in area MT: gain modulation or tuning shifts? | Journal of Neuroscience
    There are two distinct sources of retinal image motion: objects moving in the world and observer movement. When the eyes move to track a target of interest, the retinal velocity of some object in the scene will depend on both eye velocity and that object’s motion in the world. Thus, to compute the object’s velocity relative to the head, a coordinate transformation must be performed by vectorially adding eye velocity and retinal velocity. In contrast, a very different interaction between retinal and eye velocity signals has been proposed to underlie estimation of depth from motion parallax (MP), which involves computing the ratio of retinal and eye velocities. We examined how neurons in the middle temporal (MT) area of male macaques combine eye velocity and retinal velocity, to test whether this interaction is more consistent with a partial coordinate transformation (for computing head-centered object motion) or a multiplicative gain interaction (for computing depth from MP). We find that some MT neurons sh...
    Dec 15, 2021 Zhe-Xin Xu
  • Journal Article
    Lateral entorhinal cortex suppresses drift in cortical memory representations | Journal of Neuroscience
    Memory retrieval is thought to depend on the reinstatement of cortical memory representations guided by pattern completion processes in the hippocampus. The lateral entorhinal cortex (LEC) is one of the intermediary regions supporting hippocampal-cortical interactions and houses neurons that prospectively signal past events in a familiar environment. To investigate the functional relevance of the LEC’s activity for cortical reinstatement, we pharmacologically inhibited the LEC and examined its impact on the stability of ensemble firing patterns in one of the LEC’s efferent targets, the medial prefrontal cortex (mPFC). When male rats underwent multiple epochs of identical stimulus sequences in the same environment, the mPFC maintained a stable ensemble firing pattern across repetitions, particularly when the sequence included pairings of neutral and aversive stimuli. With LEC inhibition, the mPFC still formed an ensemble pattern that accurately captured stimuli and their associations within each epoch. Howe...
    Dec 15, 2021 Maryna Pilkiw
  • Journal Article
    Acoustic Context Modulates Natural Sound Discrimination in Auditory Cortex through Frequency-Specific Adaptation | Journal of Neuroscience
    Sound discrimination is essential in many species for communicating and foraging. Bats, for example, use sounds for echolocation and communication. In the bat auditory cortex there are neurons that process both sound categories, but how these neurons respond to acoustic transitions, that is, echolocation streams followed by a communication sound, remains unknown. Here, we show that the acoustic context, a leading sound sequence followed by a target sound, changes neuronal discriminability of echolocation versus communication calls in the cortex of awake bats of both sexes. Nonselective neurons that fire equally well to both echolocation and communication calls in the absence of context become category selective when leading context is present. On the contrary, neurons that prefer communication sounds in the absence of context turn into nonselective ones when context is added. The presence of context leads to an overall response suppression, but the strength of this suppression is stimulus specific. Suppres...
    Dec 15, 2021 Luciana López-Jury
  • Journal Article
    Voxelwise Encoding Models Show That Cerebellar Language Representations Are Highly Conceptual | Journal of Neuroscience
    There is a growing body of research demonstrating that the cerebellum is involved in language understanding. Early theories assumed that the cerebellum is involved in low-level language processing. However, those theories are at odds with recent work demonstrating cerebellar activation during cognitive tasks. Using natural language stimuli and an encoding model framework, we performed an fMRI experiment on 3 men and 2 women, where subjects passively listened to 5 h of natural language stimuli, which allowed us to analyze language processing in the cerebellum with higher precision than previous work. We used these data to fit voxelwise encoding models with five different feature spaces that span the hierarchy of language processing from acoustic input to high-level conceptual processing. Examining the prediction performance of these models on separate BOLD data shows that cerebellar responses to language are almost entirely explained by high-level conceptual language features rather than low-level acoustic ...
    Dec 15, 2021 Amanda LeBel
  • Journal Article
    TMS Reveals Dynamic Interaction between Inferior Frontal Gyrus and Posterior Middle Temporal Gyrus in Gesture-Speech Semantic Integration | Journal of Neuroscience
    Semantic processing is an amodal process with modality-specific information integrated in supramodal “convergence zones” or “semantic hub” with executive mechanisms that tailor semantic representation in a task-appropriate way. One unsolved question is how frontal control region dynamically interacts with temporal representation region in semantic integration. The present study addressed this issue by using inhibitory double-pulse transcranial magnetic stimulation over the left inferior frontal gyrus (IFG) or left posterior middle temporal gyrus (pMTG) in one of eight 40 ms time windows (TWs) (3 TWs before and 5 TWs after the identification point of speech), when human participants (12 females, 14 males) were presented with semantically congruent or incongruent gesture-speech pairs but merely identified the gender of speech. We found a TW-selective disruption of gesture-speech integration, indexed by the semantic congruency effect (i.e., a cost of reaction time because of semantic conflict), when stimulati...
    Dec 15, 2021 Wanying Zhao
  • Journal Article
    This Week in The Journal | Journal of Neuroscience
    Kelly C. Harris, Jayne B. Ahlstrom, James W. Dias, Lilyana B. Kerouac, Carolyn M. McClaskey, et al. (see pages [10293–10304][1]) Difficulty understanding conversation is a common complaint in older people. Sometimes hearing loss stems from loss of cochlear hair cells, as indicated by elevated
    Dec 15, 2021
  • Journal Article
    Modulation of Both Intrinsic and Extrinsic Factors Additively Promotes Rewiring of Corticospinal Circuits after Spinal Cord Injury | Journal of Neuroscience
    Axon regeneration after spinal cord injury (SCI) is limited by both a decreased intrinsic ability of neurons to grow axons and the growth-hindering effects of extrinsic inhibitory molecules expressed around the lesion. Deletion of phosphatase and tensin homolog ( Pten ) augments mechanistic target of rapamycin (mTOR) signaling and enhances the intrinsic regenerative response of injured corticospinal neurons after SCI. Because of the variety of growth-restrictive extrinsic molecules, it remains unclear how inhibition of conserved inhibitory signaling elements would affect axon regeneration and rewiring after SCI. Moreover, it remains unknown how a combinatorial approach to modulate both extrinsic and intrinsic mechanisms can enhance regeneration and rewiring after SCI. In the present study, we deleted RhoA and RhoC , which encode small GTPases that mediate growth inhibition signals of a variety of extrinsic molecules, to remove global extrinsic pathways. RhoA / RhoC double deletion in mice suppressed retrac...
    Dec 15, 2021 Yuka Nakamura
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