Bayesian causal inference modeling of attentional effects on the temporal binding window of multisensory integration

Abstract Preliminary evidence showed a reduced temporal sensitivity (i.e., larger temporal binding window) to audiovisual asynchrony in obesity. Our aim was to extend this investigation to visuotactile stimuli, comparing individuals of healthy weight and with obesity in a simultaneity judgment task. We verified that individuals with obesity had a larger temporal binding window than healthy-weight individuals, meaning that they tend to integrate visuotactile stimuli over an extended range of stimulus onset asynchronies. We point out that our finding gives evidence in support of a more pervasive impairment of the temporal discrimination of co-occurrent stimuli, which might affect multisensory integration in obesity. We discuss our results referring to the possible role of atypical oscillatory neural activity and structural anomalies in affecting the perception of simultaneity between multisensory stimuli in obesity. Finally, we highlight the urgency of a deeper understanding of multisensory integration in obesity at least for two reasons. First, multisensory bodily illusions might be used to manipulate body dissatisfaction in obesity. Second, multisensory integration anomalies in obesity might lead to a dissimilar perception of food, encouraging overeating behaviours.

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Sensory Loss Enhances Multisensory Integration Performance

10.1101/483586 ◽

2018 ◽

Author(s):

Moa G. Peter ◽

Danja K. Porada ◽

Christina Regenbogen ◽

Mats J. Olsson ◽

Johan N. Lundström

Keyword(s):

Multisensory Integration ◽

Sensory Deprivation ◽

Stimulus Presentation ◽

Object Identification ◽

Sensory Loss ◽

Multisensory Perception ◽

Compensatory Mechanisms ◽

Temporal Binding ◽

Temporal Binding Window ◽

Olfactory Sense

ABSTRACTAuditory and visual sensory loss has repeatedly been shown to alter abilities in remaining sensory modalities. It is, however, unclear whether sensory loss also impacts multisensory integration; an ability that is fundamental for the perception of the world around us. We determined effects of olfactory sensory deprivation on multisensory perception by assessing temporal as well as semantic aspects of audio-visual integration in 37 individuals with anosmia (complete olfactory sensory loss) and 37 healthy, matched controls. Participants performed a simultaneity judgement task to determine the temporal binding window, and a multisensory object identification task with individually degraded, dynamic visual, auditory, and audio-visual stimuli. Individuals with anosmia demonstrated an increased ability to detect multisensory temporal asynchronies, represented by a narrowing of the audio-visual temporal binding window. Furthermore, individuals with congenital, but not acquired, anosmia demonstrated indications of greater benefits from bimodal, as compared to unimodal, stimulus presentation when faced with degraded, semantic information. This suggests that the absence of the olfactory sense alters multisensory integration of remaining senses by sharpening the perception of cross-modal temporal violations, independent of sensory loss etiology. In addition, congenital sensory loss may further lead to increased gain from multisensory, compared to unisensory, information. Taken together, multisensory compensatory mechanisms at different levels of perceptual complexity are present in individuals with anosmia.

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Atypical Multisensory Integration and the Temporal Binding Window in Autism Spectrum Disorder

Journal of Autism and Developmental Disorders ◽

10.1007/s10803-020-04452-0 ◽

2020 ◽

Vol 50 (11) ◽

pp. 3944-3956 ◽

Cited By ~ 1

Author(s):

Sayaka Kawakami ◽

Shota Uono ◽

Sadao Otsuka ◽

Sayaka Yoshimura ◽

Shuo Zhao ◽

...

Keyword(s):

Autism Spectrum Disorder ◽

Multisensory Integration ◽

Temporal Order Judgment ◽

Multisensory Processing ◽

Autism Spectrum ◽

Judgment Task ◽

Spectrum Disorder ◽

Temporal Binding ◽

Adults With Autism ◽

Temporal Binding Window

Abstract The present study examined the relationship between multisensory integration and the temporal binding window (TBW) for multisensory processing in adults with Autism spectrum disorder (ASD). The ASD group was less likely than the typically developing group to perceive an illusory flash induced by multisensory integration during a sound-induced flash illusion (SIFI) task. Although both groups showed comparable TBWs during the multisensory temporal order judgment task, correlation analyses and Bayes factors provided moderate evidence that the reduced SIFI susceptibility was associated with the narrow TBW in the ASD group. These results suggest that the individuals with ASD exhibited atypical multisensory integration and that individual differences in the efficacy of this process might be affected by the temporal processing of multisensory information.

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Changes in temporal binding related to decreased vestibular input

Seeing and Perceiving ◽

10.1163/187847612x647397 ◽

2012 ◽

Vol 25 (0) ◽

pp. 107

Author(s):

Nai-Yuan Nicholas Chang ◽

Alex K. Malone ◽

Timothy E. Hullar

Keyword(s):

Vertical Axis ◽

Normal Subjects ◽

Head Movements ◽

Whole Body ◽

The Novel ◽

Vestibular Input ◽

Temporal Binding ◽

Sensory Stimuli ◽

Vestibular Hypofunction ◽

Temporal Binding Window

Imbalance among patients with vestibular hypofunction has been related to inadequate compensatory eye movements in response to head movements. However, symptoms of imbalance might also occur due a temporal mismatch between vestibular and other balance-related sensory cues. This temporal mismatch could be reflected in a widened temporal binding window (TBW), or the length of time over which simultaneous sensory stimuli may be offset and still perceived as simultaneous. We hypothesized that decreased vestibular input would lead to a widening of the temporal binding window. We performed whole-body rotations about the earth-vertical axis following a sinusoidal trajectory at 0.5 Hz with a peak velocity of 60°/s in four normal subjects. Dichotic auditory clicks were presented through headphones at various phases relative to the rotations. Subjects were asked to indicate whether the cues were synchronous or asynchronous and the TBW was calculated. We then simulated decreased vestibular input by rotating at diminished peak velocities of 48, 24 and 12°/s in four normal subjects. TBW was calculated between ±1 SD away from the mean on the psychometric curve. We found that the TBW increases as amplitude of rotation decreases. Average TBW of 251 ms at 60°/s increased to 309 ms at 12°/s. This result leads to the novel conclusion that changes in temporal processing may be a mechanism for imbalance in patients with vestibular hypofunction.

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The Multisensory Temporal Binding Window: Perceptual Fusion, Training, and Autism

i-Perception ◽

10.1068/ic760 ◽

2011 ◽

Vol 2 (8) ◽

pp. 760-760

Author(s):

Ryan A Stevenson ◽

Mark T Wallace

Keyword(s):

Temporal Binding ◽

Temporal Binding Window

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Multisensory Illusions and the Temporal Binding Window

i-Perception ◽

10.1068/ic903 ◽

2011 ◽

Vol 2 (8) ◽

pp. 903-903

Author(s):

Ryan A Stevenson ◽

Raquel K Zemtsov ◽

Mark T Wallace

Keyword(s):

Temporal Binding ◽

Temporal Binding Window ◽

Multisensory Illusions

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Can reinforcement learning explain the development of causal inference in multisensory integration?

2009 IEEE 8th International Conference on Development and Learning ◽

10.1109/devlrn.2009.5175531 ◽

2009 ◽

Cited By ~ 4

Author(s):

Thomas H Weisswange ◽

Constantin A Rothkopf ◽

Tobias Rodemann ◽

Jochen Triesch

Keyword(s):

Reinforcement Learning ◽

Causal Inference ◽

Multisensory Integration

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Distinct Autistic Traits Are Differentially Associated With the Width of the Multisensory Temporal Binding Window

Multisensory Research ◽

10.1163/22134808-00002612 ◽

2018 ◽

Vol 31 (6) ◽

pp. 523-536 ◽

Cited By ~ 8

Author(s):

Ayako Yaguchi ◽

Souta Hidaka

Keyword(s):

Neurodevelopmental Disorder ◽

Continuous Distribution ◽

Autistic Traits ◽

Autism Spectrum ◽

Audiovisual Integration ◽

Autism Spectrum Quotient ◽

Temporal Binding ◽

Restricted Interests ◽

Temporal Binding Window ◽

And Behavior

Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by deficits in social communication and interaction, and restricted interests and behavior patterns. These characteristics are considered as a continuous distribution in the general population. People with ASD show atypical temporal processing in multisensory integration. Regarding the flash–beep illusion, which refers to how a single flash can be illusorily perceived as multiple flashes when multiple auditory beeps are concurrently presented, some studies reported that people with ASD have a wider temporal binding window and greater integration than typically developed people; others found the opposite or inconsistent tendencies. Here, we investigated the relationships between the manner of the flash–beep illusion and the various dimensions of ASD traits by estimating the degree of typically developed participants’ ASD traits including five subscales using the Autism-Spectrum Quotient. We found that stronger ASD traits of communication and social skill were associated with a wider and narrower temporal binding window respectively. These results suggest that specific ASD traits are differently involved in the particular temporal binding processes of audiovisual integration.

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