Multisensory Research Lab

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We meet every Monday at 4pm, with the exception of holidays and academic off-cycles. This meeting is open to anyone interested in discussing current research in the multisensory field. If you would like to join our meeting, please contact one of our lab members to get a copy of the upcoming reading.

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2023

Spring 2023

-- Gori et al. (2023). Multisensory representations of space and time in sensory cortices. Human Brain Mapping, 44(2), 656-667

-- Tune et al. (2021). Neural attentional-filter mechanisms of listening success in middle-aged and older individuals. Nat Commun, 12(1), 4533

-- Shilling-Scrivo et al. (2022). Training enhances the ability of listeners to exploit visual information for auditory scene analysis. Cognition, 208, 104529

-- Chalas et al. (2023). Hierarchically nested networks optimize the analysis of audiovisual speech. iScience, 106257

-- Van der Stoep et al. (2023). The additive nature of the human multisensory evoked pupil response. Nat SciReports, 11(707)

-- Rowland et al. (2023). Ameliorating Hemianopia with Multisensory Training. JNeurosci, 43(6), 1018-1026.

-- Glennon, E et al. (2023). Locus coeruleus activity improves cochlear implant performance. Nature, 613(7943), 317-323.

-- Johnston, PR et al. (2022). Individual Differences in Multisensory Processing Are Related to Broad Differences in the Balance of Local versus Distributed Information. J Cogn Neurosci, 34(5), 846-863

-- Bean, NL et al. (2021). Stimulus value gates multisensory integration. Eur J Neurosci, 53(9), 3142-3159

2022

Fall 2022

-- Chen, L et al. (2015). Cross-Modal Functional Reorganization of Visual and Auditory Cortex in Adult Cochlear Implant Users Identified with fNIRS. Neural Plasticity, 2016

-- Chang, S et al. (2022). Combining visual information into the auditory cortex promotes sound discrimination through choice-related multisensory integration. J Neurosci

-- Ferrari, A & Noppeney, U (2021). Attention controls multisensory perception via two distinct mechanisms at different levels of the cortical hierarchy. PLOS Bio, 19(11)

-- Filipchuck, A et al. (2022). Awake perception is associated with dedicated neuronal assemblies in the cerebral cortex. Nat Neuro, 25, 1327-1338

-- Aller, M, Mihalif, A, & Noppeney, U (2022). Audiovisual adaptation is expressed in spatial and decisional codes. Nature Comm, 13

-- Meredith, MA, Nemitz, JW, & Stein, BE (1987). Determinants of multisensory integration in superior colliculus neurons. I. Temporal factors. J Neurosci, 7(10)

-- Meredith, MA & Stein, BE (1986). Visual, auditory, and somatosensory convergence on cells in superior colliculus results in multisensory integration. J Neurophys, 56(3)

Summer 2022

-- Barczak, A et al. (2022). Saccade-related modulation of oscillatory activity in primary auditory cortex. bioRxiv

-- Battal, C et al. (2022). Structural and Functional Network-Level Reorganization in the Coding of Auditory Motion Directions and Sound Source Locations in the Absence of Vision. J Neurosci, 42(23), 4652-4668

Spring 2022

-- Zurcher NR et al. (2021). A simultaneous [ 11C]raclopride positron emission tomography and functional magnetic resonance imaging investigation of striatal dopamine binding in autism. Translational Psychiatry, 11-33.

-- Oyama, K et al. (2022). Chronic Behavioral Manipulation via Orally Delivered Chemogenetic Actuator in Macaques. JNeurosci, 42(12), 2552-2561

-- Goltstein, PM et al. (2021). Mouse visual cortex areas represent perceptualand semantic features of learned visual categories. Nature Neuro 24, 1441-1451

-- Proix, T et al. (2022). Imagined speech can be decoded from low- and cross-frequency intracranial EEG features. Nature Comm 13(48)

-- Jun EJ et al. (2021). Correlations enhance the behavioral readout of neural population activity in association cortex. Nature Neuroscience, 24, 975-986

-- Hockley, A, Wu, C, & Shore, SE (2022). Olivocochlear projections contribute to superior intensity coding in cochlear nucleus small cells. J Physiol, 600(1), 61-73

-- O'Sullivan, A et al. (2021). Neurophysiological Indices of Audiovisual Speech Processing Reveal a Hierarchy of Multisensory Integration Effects. J Neurosci, 41(23), 4991-5003

2021

Fall 2021

-- Hu, F & Dan, Y (2021) An inferior-superior colliculus circuit controls auditory cue-directed visual spatial attention. Neuron, 10

-- Noel, JP et al. (2021) Flexible neural coding in sensory, parietal, and frontal cortices during goal-directed virtual navigation. bioRxiv

-- Amaro, D et al. (2021) Source identity shapes spatial preference in primary auditory cortex during active navigation. Curr Bio, 31(17), 3875-3883.e5

-- Rideaux, R et al. (2021) How multisensory neurons solve causal inference. PNAS, 118(32)

-- Park, H & Kayser, C (2021) The neurophysiological basis of the trial-wise and cumulative ventriloquism aftereffects. JNeurosci, 41(5), 1068-1078

-- Borjigin, A, Hustedt-Mai, AR, & Bharadwaj, HM (2021) Individualized Assays of Temporal Coding in the Ascending Human Auditory System. bioRx

-- Luo, TZ & Maunsell, HRJ (2019) Attention can be subdivided into neurobiological components corresponding to distinct behavioral effects. Prdngs Nat Am Sci, 116(52), 26187-26194

-- Downer, JD et al. (2021) Temporally precise population coding of dynamic sounds by auditory cortex. J. Neurophys, 126(1), 148-169

-- Hamilton, LS et al. (2021) Parallel and distributed encoding of speech across human auditory cortex. Cell, 184(18), 4626-4639

-- Corneil, BD et al. (2020) Auditory-visual interactions subserving goal-directed saccades in a complex scene. J. Neurophys, 88(1), 438-454.

Summer 2021

-- Tobyne, S et al. (2018) Prediction of individualized task activation in sensory modality-selective frontal fortex with 'connectome fingerprinting'. Neuroimag, 183: 173-185

-- An, WW et al. (2021) Decoding auditory attention from EEG using a convolutional neural network.

-- Weilnhammer, V et al. (2021) An active role of inferior frontal cortex in conscious experience. Current Bio, 31(13): 2868-2880

-- Kell, AJE et al. (2018) A Task-Optimized Neural Network Replicates Human Auditory Behavior, Predicts Brain Responses, and Reveals a Cortical Processing Hierarchy. Neuron, 98(3): 630-644.E16

-- Gaglianese, A et al. (2016) Separate Spatial and Temporal Frequency Tuning to Visual Motion in Human MT+ Measured with ECoG. Hum Brain Mapp, 38: 293-307

-- Coen, P et al. (2021) Mouse frontal cortex mediates additive multisensory decisions. bioRxiv

Spring 2021

-- Stine, GM et al. (2020) Differentiating between integration and non-integration strategies in perceptual decision making. eLife 9:e55365

-- Napoli, JL et al. (2021) Correlates of Auditory Decision-Making in Prefrontal, Auditory, and Basal Lateral Amygdala Cortical Areas. J Neurosci, 41(6): 1301-1316

-- Deng, Y et al. (2019) Causal links between parietal alpha activity and spatial auditory attention. eLife 8:e51184

-- Khandhadia, AP et al. (2021) Audiovisual integration in macaque face patch neurons. Current Biology

-- Barczak, A et al. (2019) Dynamic Modulation of Cortical Excitability during Visual Active Sensing. Cell REports 27(12): P3447-e459.E3

-- Leszczyński, M et al. (2020) Dissociation of Broadband High-Frequency Activity and Neuronal Firing in the Neocortex. Science Advances 1-3

-- Rohe, T, Ehlis, A, & Noppeney, U (2019) The neural dynamics of hierarchical Bayesian causal inference in multisensory perception. Nat Comm. 10

-- Murray, CA et al. (2020) Revealing multisensory benefit with diffusion modeling. J of Mathematical Psychology. 9

-- Kar K & DiCarlo JJ (2021) Fast Recurrent Processing via Ventrolateral Prefrontal Cortex Is Needed by the Primate Ventral Stream for Robust Core Visual Object Recognition. Neuron. 109(1):164-176.