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9811 - 9820 of 52804 results
  • Journal Article
    Multiple adjoining word- and face-selective regions in ventral temporal cortex exhibit distinct dynamics | Journal of Neuroscience
    The map of category-selectivity in human ventral temporal cortex (VTC) provides organizational constraints to models of object recognition. One important principle is lateral-medial response biases to stimuli that are typically viewed in the center or periphery of the visual field. However, little is known about the relative temporal dynamics and location of regions that respond preferentially to stimulus classes that are centrally viewed, like the face- and word-processing networks. Here, word- and face-selective regions within VTC were mapped using intracranial recordings from 36 patients. Partially overlapping, but also anatomically dissociable patches of face- and word-selectivity were found in VTC. In addition to canonical word-selective regions along the left posterior occipitotemporal sulcus, selectivity was also located medial and anterior to face-selective regions on the fusiform gyrus at the group level and within individual male and female subjects. These regions were replicated using 7 Tesla fM...
    Jun 7, 2021 Matthew J. Boring
  • Journal Article
    On the necessity of recurrent processing during object recognition: it depends on the need for scene segmentation | Journal of Neuroscience
    While feed-forward activity may suffice for recognizing objects in isolation, additional visual operations that aid object recognition might be needed for real-world scenes. One such additional operation is figure-ground segmentation; extracting the relevant features and locations of the target object while ignoring irrelevant features. In this study of 60 human participants (female and male), we show objects on backgrounds of increasing complexity to investigate whether recurrent computations are increasingly important for segmenting objects from more complex backgrounds. Three lines of evidence show that recurrent processing is critical for recognition of objects embedded in complex scenes. First, behavioral results indicated a greater reduction in performance after masking objects presented on more complex backgrounds; with the degree of impairment increasing with increasing background complexity. Second, electroencephalography (EEG) measurements showed clear differences in the evoked response potential...
    Jun 4, 2021 Noor Seijdel
  • Journal Article
    Reading-related brain changes in audiovisual processing: cross-sectional and longitudinal MEG evidence | Journal of Neuroscience
    The ability to establish associations between visual objects and speech sounds is essential for human reading. Understanding the neural adjustments required for acquisition of these arbitrary audiovisual associations can shed light on fundamental reading mechanisms and help reveal how literacy builds on pre-existing brain circuits. To address these questions, the present longitudinal and cross-sectional MEG studies characterize the temporal and spatial neural correlates of audiovisual syllable congruency in children (4-9 years old, 22 males and 20 females) learning to read. Both studies showed that during the first years of reading instruction children gradually set up audiovisual correspondences between letters and speech sounds, which can be detected within the first 400 ms of a bimodal presentation and recruit the superior portions of the left temporal cortex. These findings suggest that children progressively change the way they treat audiovisual syllables as a function of their reading experience. Thi...
    Jun 4, 2021 Sendy Caffarra
  • Journal Article
    Gamma oscillations in the basolateral amygdala: localization, microcircuitry, and behavioral correlates | Journal of Neuroscience
    The lateral (LA) and basolateral (BL) nuclei of the amygdala regulate emotional behaviors. Despite their dissimilar extrinsic connectivity, they are often combined, perhaps because their cellular composition is similar to that of the cerebral cortex, including excitatory principal cells reciprocally connected with fast-spiking interneurons (FSIs). In the cortex, this microcircuitry produces gamma oscillations that support information processing and behavior. We tested whether this was similarly the case in the rat (males) LA and BL using extracellular recordings, biophysical modeling, and behavioral conditioning. During periods of environmental assessment, both nuclei exhibited gamma oscillations that stopped upon initiation of active behaviors. Yet, BL exhibited more robust spontaneous gamma oscillations than LA. The greater propensity of BL to generate gamma resulted from several microcircuit differences, especially the proportion of FSIs and their interconnections with principal cells. Furthermore, gamm...
    Jun 4, 2021 Drew B. Headley
  • Journal Article
    Distinct neural representations of content and ordinal structure in auditory sequence memory | Journal of Neuroscience
    Two forms of information – frequency (content) and ordinal position (structure) – have to be stored when retaining a sequence of auditory tones in working memory (WM). However, the neural representations and coding characteristics of content and structure, particularly during WM maintenance, remain elusive. Here, in two electroencephalography (EEG) studies in human participants (both sexes), by transiently perturbing the ‘activity-silent’ WM retention state and decoding the reactivated WM information, we demonstrate that content and structure are stored in a dissociative manner with distinct characteristics throughout WM process. First, each tone in the sequence is associated with two codes in parallel, characterizing its frequency and ordinal position, respectively. Second, during retention, a structural retrocue successfully reactivates structure but not content, whereas a following white noise triggers content but not structure. Third, structure representation remains stable whereas content code undergo...
    Jun 4, 2021 Ying Fan
  • 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 4, 2021 Saeed Babadi
  • Journal Article
    A high-density narrow-field inhibitory retinal interneuron with direct coupling to Müller glia | Journal of Neuroscience
    Amacrine cells are interneurons composing the most diverse cell class in the mammalian retina. They help encode visual features such as edges or directed motion by mediating excitatory and inhibitory interactions between input (i.e. bipolar) and output (i.e. ganglion) neurons in the inner plexiform layer (IPL). Like other brain regions, the retina also contains glial cells that contribute to neurotransmitter uptake, metabolic regulation and neurovascular control. Here, we report that in mouse retina (of either sex), an abundant, though previously unstudied inhibitory amacrine cell is coupled directly to Müller glia. Electron microscopic reconstructions of this amacrine type revealed chemical synapses with known retinal cell types and extensive associations with Müller glia, the processes of which often completely ensheathe the neurites of this amacrine cell. Microinjecting small tracer molecules into the somas of these amacrine cells led to selective labelling of nearby Müller glia, leading us to suggest t...
    Jun 3, 2021 William N. Grimes
  • Journal Article
    Altered A-type potassium channel function impairs dendritic spike initiation and temporoammonic long-term potentiation in Fragile X syndrome | Journal of Neuroscience
    Fragile X syndrome (FXS) is the leading monogenetic cause of cognitive impairment and autism spectrum disorder. Area CA1 of the hippocampus receives current information about the external world from the entorhinal cortex via the temporoammonic (TA) pathway. Given its role in learning and memory, it is surprising that little is known about TA long-term potentiation (TA-LTP) in FXS. We found that TA-LTP was impaired in male fmr1 KO mice. Although there were no significant differences in basal synaptic transmission, synaptically evoked dendritic calcium signals were smaller in KO neurons. Using dendritic recording, we found no difference in complex spikes or pharmacologically isolated Ca2+ spikes; however, the threshold for fast, Na+ dependent dendritic spikes was depolarized in fmr1 KO mice. Cell-attached patch clamp recordings found no difference in Na+ channels between wild type and fmr1 KO CA1 dendrites. Dendritic spike threshold and TA-LTP were restored by block of A-type K+ channels with either 150 μM B...
    Jun 3, 2021 Gregory J. Ordemann
  • Journal Article
    A data-driven functional mapping of the anterior temporal lobes | Journal of Neuroscience
    Even though the anterior temporal lobe (ATL) comprises several anatomical and functional subdivisions, it is often reduced to a homogeneous theoretical entity, such as a domain-general convergence zone, or “hub”, for semantic information. Methodological limitations are largely to blame for the imprecise mapping of function to structure in the ATL. There are two major obstacles to using fMRI to identify the precise functional organization of the ATL: the difficult choice of stimuli and tasks to activate, and dissociate, specific regions within the ATL and poor signal quality due to magnetic field distortions near the sinuses. To circumvent these difficulties, we developed a data-driven parcellation routine using resting-state fMRI data (24 females, 64 males) acquired using a sequence that was optimized to enhance signal in the ATL. Focusing on patterns of functional connectivity between each ATL voxel and the rest of the brain, we found that the ATL comprises at least 34 distinct functional parcels that are...
    Jun 3, 2021 Andrew S. Persichetti
  • Journal Article
    Physiological diversity influences detection of stimulus envelope and fine structure in neurons of the medial superior olive | Journal of Neuroscience
    The neurons of the medial superior olive (MSO) of mammals extract azimuthal information from the delays between sounds reaching the two ears (interaural time differences, or ITDs). Traditionally, all models of sound localization have assumed that MSO neurons represent a single population of cells with specialized and homogeneous intrinsic and synaptic properties that enable detection of synaptic coincidence on a time scale of tens to hundreds of microseconds. Here, using patch-clamp recordings from large populations of anatomically labeled neurons in brainstem slices from male and female Mongolian gerbils ( Meriones unguiculatu s), we show that MSO neurons are far more physiologically diverse than previously appreciated, with properties that depend regionally on cell position along the topographic map of frequency. Despite exhibiting a similar morphology, neurons in the MSO exhibit sub-threshold oscillations of differing magnitudes that drive action potentials at rates between 100-800 Hz. These oscillation...
    Jun 3, 2021 Brian J. Bondy
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