Search

Your search keyword '"Kimron L. Shapiro"' showing total 157 results
Start Over Author "Kimron L. Shapiro"
157 results on '"Kimron L. Shapiro"'

1. Conscious perception of natural images is constrained by category-related visual features

Author

Daniel Lindh, Ilja G. Sligte, Sara Assecondi, Kimron L. Shapiro, and Ian Charest

Subjects
Science
Abstract

Visual objects from similar semantic categories present activity patterns that cluster together in higher visual areas. The authors show that conscious access differs between semantic categories and is driven by category-related visual features commonly associated with processing in higher level visual areas.

Published
2019
Full Text
View/download PDF

2. Competitive interactions affect working memory performance for both simultaneous and sequential stimulus presentation

Author

Jumana Ahmad, Garrett Swan, Howard Bowman, Brad Wyble, Anna C. Nobre, Kimron L. Shapiro, and Fiona McNab

Subjects
Medicine, Science
Abstract

Abstract Competition between simultaneously presented visual stimuli lengthens reaction time and reduces both the BOLD response and neural firing. In contrast, conditions of sequential presentation have been assumed to be free from competition. Here we manipulated the spatial proximity of stimuli (Near versus Far conditions) to examine the effects of simultaneous and sequential competition on different measures of working memory (WM) for colour. With simultaneous presentation, the measure of WM precision was significantly lower for Near items, and participants reported the colour of the wrong item more often. These effects were preserved when the second stimulus immediately followed the first, disappeared when they were separated by 500 ms, and were partly recovered (evident for our measure of mis-binding but not WM precision) when the task was altered to encourage participants to maintain the sequentially presented items together in WM. Our results show, for the first time, that competition affects the measure of WM precision, and challenge the assumption that sequential presentation removes competition.

Published
2017
Full Text
View/download PDF

5. Beta bursts correlate with synchronization of movements to rhythmic sounds

Author

Qiaoyu Chen, Craig J. McAllister, Mark T. Elliott, Kimron L. Shapiro, and Simon Hanslmayr

Abstract

Accumulating evidence indicates transient beta bursts play an important role in the representation of temporal information and prediction. However, the role of beta bursts in sensorimotor synchronization (SMS) involving active interactions between motor and sensory systems to synchronize predictive movements to periodic events remains unclear. To answer this question, 15 participants were invited to complete a finger-tapping task whilst high-density EEG (128 channels) was recorded. Participants tapped with their right index finger in synchrony with 1 Hz and 0.5 Hz tone trains. In line with previous findings, we found a negative mean asynchrony between tone and tap time, i.e., taps preceded tones for both tone frequencies (1 and 0.5 Hz). In the EEG data, beta bursts were detected and their timing in relationship with tapping and auditory tracking was examined. Results revealed that beta bursts tracked tapping and were modulated by the low frequency phase of the tone frequency (i.e., 1 Hz or 0.5 Hz). Importantly, the locking of beta bursts to the phase of auditory tracking correlated with the behavioural variance on a single trial level that occurred while tapping to the tones. These results demonstrate a critical role for an interplay between beta bursts and low frequency phase in coordinating rhythmic behaviour.

Published
2023
Full Text
View/download PDF

7. Visual awareness during the attentional blink is determined by representational similarity

Author

Matthew F. Tang, Kimron L. Shapiro, James T. Enns, Troy A.W. Visser, Jason B. Mattingley, and Ehsan Arabzadeh

Abstract

Our visual perception seems effortless, but the brain has a limited processing capacity which curtails the amount of sensory information that can be brought into conscious awareness at any moment in time. A widely studied exemplar of this limitation is the ‘attentional blink’ (AB), in which observers are unable to report the second of two rapidly sequential targets if it appears within 200-500 ms of the first. Despite the apparent ubiquity of the AB effect, its computational and neurophysiological underpinnings have remained elusive. Here we propose a simple computational model of temporal attention that unifies the AB with spatial and feature-based attention. We took a novel, integrative approach involving human psychophysics and functional brain imaging, along with neuronal recordings in mice to test this model. Specifically, we demonstrate that the AB only arises when visual targets have dissimilar representations in the brain but is absent when both targets have the same representation. Similarity in this context can be determined either by elementary features such as edge orientation, or by acquired, high-level factors such as numerical or alphabetical order. In this parsimonious model of the AB, attention to an initial target establishes a perceptual filter that is tuned to its unique representation in the brain. Subsequent items that match the filter remain available for conscious report, whereas those that do not match elude awareness altogether.

Published
2022
Full Text
View/download PDF

10. From science wars to transdisciplinarity: the inescapability of the neuroscience, biology and sociology of learning

Author

Deborah Youdell, Martin R. Lindley, Yu Sun, Kimron L. Shapiro, and Yue Leng

Subjects
Science instruction, Sociology and Political Science, Teaching method, 05 social sciences, 050301 education, Diagnostic test, 0506 political science, Education, Epistemology, Transdisciplinarity, 050602 political science & public administration, Science wars, Sociology, Video technology, Sociology of Education, 0503 education, Articulation (sociology)
Abstract

In this paper we begin to explore how knowledges being generated in bioscience might be brought into productive articulation with the Sociology of Education, considering the potential for emerging ...

Published
2020
Full Text
View/download PDF

16. Interaction between Theta Phase and Spike Timing-Dependent Plasticity Simulates Theta-Induced Memory Effects

Author

Danying Wang, George Parish, Kimron L. Shapiro, and Simon Hanslmayr

Subjects
General Neuroscience, General Medicine
Abstract

Rodent studies suggest that spike timing relative to hippocampal theta activity determines whether potentiation or depression of synapses arise. Such changes also depend on spike timing between presynaptic and postsynaptic neurons, known as spike timing-dependent plasticity (STDP). STDP, together with theta phase-dependent learning, has inspired several computational models of learning and memory. However, evidence to elucidate how these mechanisms directly link to human episodic memory is lacking. In a computational model, we modulate long-term potentiation (LTP) and long-term depression (LTD) of STDP, by opposing phases of a simulated theta rhythm. We fit parameters to a hippocampal cell culture study in which LTP and LTD were observed to occur in opposing phases of a theta rhythm. Further, we modulated two inputs by cosine waves with 0° and asynchronous phase offsets and replicate key findings in human episodic memory. Learning advantage was found for the in-phase condition, compared with the out-of-phase conditions, and was specific to theta-modulated inputs. Importantly, simulations with and without each mechanism suggest that both STDP and theta phase-dependent plasticity are necessary to replicate the findings. Together, the results indicate a role for circuit-level mechanisms, which bridge the gap between slice preparation studies and human memory.

Published
2023
Full Text
View/download PDF

17. Interaction between theta-phase and spike-timing dependent plasticity simulates theta induced memory effects

Author

Kimron L. Shapiro, Simon Hanslmayr, George Parish, and Danying Wang

Subjects
Physics, Computational model, Slice preparation, Spike-timing-dependent plasticity, Spike (software development), Long-term potentiation, Hippocampal formation, Plasticity, Episodic memory, Neuroscience
Abstract

Rodent studies suggest that spike timing relative to hippocampal theta activity determines whether potentiation or depression of synapses arise. Such changes also depend on spike timing between pre- and post-synaptic neurons, known as spike-timing-dependent plasticity (STDP). STDP, together with theta-phase-dependent learning, has inspired several computational models of learning and memory. However, evidence to elucidate how these mechanisms directly link to human episodic memory is lacking. In a computational model, we modulate long-term potentiation (LTP) and long-term depression (LTD) of STDP, by opposing phases of a simulated theta rhythm. We fit parameters to a hippocampal cell culture study in which LTP and LTD were observed to occur in opposing phases of a theta rhythm. Further, we modulated two inputs by cosine waves with synchronous and asynchronous phase offsets and replicate key findings in human episodic memory. Learning advantage was found for the synchronous condition, as compared to the asynchronous conditions, and was specific to theta modulated inputs. Importantly, simulations with and without each mechanism suggest that both STDP and theta-phase-dependent plasticity are necessary to replicate the findings. Together, the results indicate a role for circuit-level mechanisms, which bridges the gap between slice preparation studies and human memory.Author SummaryLong-lasting changes in synaptic connectivity between neurons have been suggested to support learning and memory processes at the cellular level in the brain. Such synaptic modifications depend on synchronous activation of neurons, which leads to generate brain oscillations. Human memory studies focus on the relationships between brain oscillations and memory processes. Direct evidence on how the cellular mechanism links to human memory behaviour is lacking. To investigate the direct link between synaptic plasticity mechanisms and human memory formation, we built a computational neural network that implements two synaptic plasticity mechanisms, which are well-established in the rodents’ hippocampus. One mechanism shows that strengthening or weakening in synaptic connectivity depends on the phases of ongoing brain oscillation at theta frequency (4 – 8 Hz), which is a dominant signal in the hippocampus. The other mechanism suggests that synaptic modification depends on the precise timing of action potentials between two neurons. Our model successfully reproduces results from rodents, as well as several human episodic memory studies which demonstrated that human associative memory performance depends on phase synchronisation in theta frequency. These findings suggest a link between specific learning mechanisms at cellular level and human memory behaviour.

Published
2021
Full Text
View/download PDF

18. Acute Diesel Exhaust Exposure Causes a Delayed Reduction in Cognitive Control

Author

Jane E. Raymond, Juana Maria Delgado-Saborit, Thomas Faherty, Rami Alfarra, Kimron L. Shapiro, Angus R MacKenzie, and Gordon McFiggans

Subjects
Reduction (complexity), Diesel exhaust, business.industry, Anesthesia, Medicine, Cognition, business
Abstract

Urban residents are frequently exposed to high levels of traffic-derived air pollution for short time periods, often (but not exclusively) during commuting. Although chronic air pollution exposure and health effects, including neurological effects on children and older adults, are known to be correlated, causal effects of acute pollution exposure on brain function in healthy young adults remain sparsely investigated. Neuroinflammatory accounts suggest effects could be delayed by several hours and could affect attention, especially in social contexts. Using a controlled atmosphere chamber, we exposed 81 healthy young adults to either diluted diesel exhaust (equivalent to polluted roadside environments) or clean air for one hour. Half of each group immediately completed a selective attention task to assess cognitive control; remaining participants completed the task after a 4-hour delay. Cognitive control was significantly poorer after diesel versus clean air exposure for those in the delay but not immediate test condition, suggesting an inflammatory basis for this acute negative effect of air pollution on cognition. These findings provide the first experimental evidence that acute diesel exposure, comparable to polluted city streets, causes a negative effect on cognitive control several hours later. These findings may explain commuter mental fatigue and support clean-air initiatives.

Published
2021
Full Text
View/download PDF

19. Cognitive performance in idiopathic intracranial hypertension and relevance of intracranial pressure

Author

Abd A. Tahrani, Andreas Yiangou, Fozia Shaheen, Gareth G. Lavery, Alexandra J Sinclair, Olivia Grech, Ryan S Ottridge, Wiebke Arlt, Zerin Alimajstorovic, Andrew Clouter, Marianne Roque, Angela E Taylor, Susan P Mollan, James L Mitchell, Matthew Nicholls, and Kimron L. Shapiro

Subjects
cognition, visual field, Pediatrics, medicine.medical_specialty, medicine.diagnostic_test, Lumbar puncture, Pseudotumor cerebri, business.industry, AcademicSubjects/SCI01870, General Engineering, intracranial pressure, Cognition, medicine.disease, Obstructive sleep apnea, medicine, Original Article, AcademicSubjects/MED00310, Effects of sleep deprivation on cognitive performance, Prospective cohort study, business, headache, Depression (differential diagnoses), idiopathic intracranial hypertension, Intracranial pressure
Abstract

Cognitive impairments have been reported in idiopathic intracranial hypertension; however, evidence supporting these deficits is scarce and contributing factors have not been defined. Using a case-control prospective study, we identified multiple domains of deficiency in a cohort of 66 female adult idiopathic intracranial hypertension patients. We identified significantly impaired attention networks (executive function) and sustained attention compared to a body mass index and age matched control group of 25 healthy female participants. We aimed to investigate how cognitive function changed over time and demonstrated that deficits were not permanent. Participants exhibited improvement in several domains including executive function, sustained attention and verbal short-term memory over 12-month follow-up. Improved cognition over time was associated with reduction in intracranial pressure but not body weight. We then evaluated cognition before and after a lumbar puncture with acute reduction in intracranial pressure and noted significant improvement in sustained attention to response task performance. The impact of comorbidities (headache, depression, adiposity and obstructive sleep apnoea) was also explored. We observed that body mass index and the obesity associated cytokine interleukin-6 (serum and cerebrospinal fluid) were not associated with cognitive performance. Headache severity during cognitive testing, co-morbid depression and markers of obstructive sleep apnoea were adversely associated with cognitive performance. Dysregulation of the cortisol generating enzyme 11β hydroxysteroid dehydrogenase type 1 has been observed in idiopathic intracranial hypertension. Elevated cortisol has been associated with impaired cognition. Here, we utilized liquid chromatography-tandem mass spectrometry for multi-steroid profiling in serum and cerebrospinal fluid in idiopathic intracranial hypertension patients. We noted that reduction in the serum cortisol:cortisone ratio in those undergoing bariatric surgery at 12 months was associated with improving verbal working memory. The clinical relevance of cognitive deficits was noted in their significant association with impaired reliability to perform visual field tests, the cornerstone of monitoring vision in idiopathic intracranial hypertension. Our findings propose that cognitive impairment should be accepted as a clinical manifestation of idiopathic intracranial hypertension and impairs the ability to perform visual field testing reliably. Importantly, cognitive deficits can improve over time and with reduction of intracranial pressure. Treating comorbid depression, obstructive sleep apnoea and headache could improve cognitive performance in idiopathic intracranial hypertension., Grech et al. report cognitive impairments in idiopathic intracranial hypertension compared to body mass index matched controls. Deficits improved following lumbar puncture and 12 months weight loss intervention, and were associated with headache severity, depression, obstructive sleep apnoea and cortisol. Performance of visual field testing was impacted by impaired attention., Graphical Abstract Graphical Abstract

Published
2021

21. Fronto-medial theta coordinates posterior maintenance of working memory content

Author

Kimron L. Shapiro, Oliver Ratcliffe, and Bernhard P. Staresina

Subjects
Brain Mapping, Frontal cortex, medicine.diagnostic_test, Theta rhythm, Working memory, Multivariate decoding, Brain, Electroencephalography, Human brain, Theta power, General Biochemistry, Genetics and Molecular Biology, Memory, Short-Term, medicine.anatomical_structure, Cortex (anatomy), medicine, Humans, Theta Rhythm, General Agricultural and Biological Sciences, Psychology, Neuroscience
Abstract

How does the human brain manage multiple bits of information to guide goal-directed behaviour? Successful working memory (WM) functioning has consistently been linked to oscillatory power in the theta frequency band (4-8 Hz) over fronto-medial cortex (fronto-medial theta, FMT). Specifically, FMT is thought to reflect the mechanism of an executive sub-system that coordinates maintenance of memory contents in posterior regions. However, direct evidence for the role of FMT in controlling specific WM content is lacking. Here we collected high-density Electroencephalography (EEG) data whilst participants engaged in load-varying WM tasks and then used multivariate decoding methods to examine WM content during the maintenance period. Higher WM load elicited a focal increase in FMT. Importantly, decoding of WM content was driven by posterior/parietal sites, which in turn showed load-induced functional theta coupling with fronto-medial cortex. Finally, we observed a significant slowing of FMT frequency with increasing WM load, consistent with the hypothesised broadening of a theta ‘duty cycle’ to accommodate additional WM items. Together these findings demonstrate that frontal theta orchestrates posterior maintenance of WM content. Moreover, the observed frequency slowing elucidates the function of FMT oscillations by specifically supporting phase-coding accounts of WM.Significance StatementHow does the brain juggle the maintenance of multiple items in working memory (WM)? Here we show that increased WM demands increase theta power (4-8 Hz) in fronto-medial cortex. Interestingly, using a machine learning approach, we found that the content held in WM could be read out not from frontal, but from posterior areas. These areas were in turn functionally coupled with fronto-medial cortex, consistent with the idea that frontal cortex orchestrates WM representations in posterior regions. Finally, we observed that holding an additional item in WM leads to significant slowing of the frontal theta rhythm, supporting computational models that postulate longer ‘duty cycles’ to accommodate additional WM demands.

Published
2021
Full Text
View/download PDF

22. Using fast visual rhythmic stimulation to control inter-hemispheric phase offsets in visual areas

Author

Danying Wang, Kimron L. Shapiro, Qiaoyu Chen, and Simon Hanslmayr

Subjects
Neurons, Sensory stimulation therapy, Spike-timing-dependent plasticity, Memory, Episodic, Cognitive Neuroscience, 05 social sciences, Phase (waves), Experimental and Cognitive Psychology, Cognition, Stimulation, 050105 experimental psychology, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Rhythm, Humans, 0501 psychology and cognitive sciences, Psychology, Control (linguistics), Neuroscience, Episodic memory, Photic Stimulation, 030217 neurology & neurosurgery
Abstract

Spike timing dependent plasticity (STDP) is believed to be important for neural communication and plasticity in human episodic memory, but causal evidence is lacking due to technical challenges. Rhythmic sensory stimulation that has been used to investigate causal relations between oscillations and cognition may be able to address this question. The challenge, however, is that the frequency corresponding to the critical time window for STDP is gamma (∼40 Hz), yet the application of rhythmic sensory stimulation has been limited primarily to lower frequencies (

Published
2021
Full Text
View/download PDF

25. No evidence for a common self-bias across cognitive domains

Author

Caroline Catmur, Geoffrey Bird, Annabel D. Nijhof, and Kimron L. Shapiro

Subjects
Linguistics and Language, Autism Spectrum Disorder, Cognitive Neuroscience, media_common.quotation_subject, Experimental and Cognitive Psychology, Attentional Blink, 050105 experimental psychology, Language and Linguistics, 03 medical and health sciences, Cognition, 0302 clinical medicine, Bias, Perception, Developmental and Educational Psychology, medicine, Humans, Attention, 0501 psychology and cognitive sciences, Attentional blink, media_common, 05 social sciences, Contrast (statistics), medicine.disease, Autism spectrum disorder, Egocentric bias, Autism, Self-serving bias, Psychology, 030217 neurology & neurosurgery, Cognitive psychology
Abstract

It is generally acknowledged that humans have an egocentric bias; processing self-related stimuli in a specialised, preferential manner. The self-bias has been studied within cognitive domains such as memory, attention and perception; but never across cognitive domains in order to assess whether self-biases are a product of a common bias, or independent. This has relevance for conditions such as Autism Spectrum Disorder: certain self-biases are reduced in those with autism, but the pattern of results is not consistent across different cognitive domains. Self-bias was measured across the attentional and perceptual domains on two well-established tasks: the attentional blink (attention) and shape-label matching (perception) tasks. Processing of each participant's own name was compared to processing of the name of another individual very familiar to the participant (to control for familiarity), and the name of an unfamiliar other. In the attentional domain, the attentional blink for the participant's own name was reduced compared to that for the name of a familiar or unfamiliar other. In the perceptual domain, participants showed stronger associations between their own name and a geometric shape than between the other classes of names and associated shapes. Thus, strong evidence of a self-bias, independent of familiarity, was found on both tasks. However, across two experiments, the magnitude of the self-bias on the attentional blink and shape-label matching tasks was not correlated, supporting the idea that self-biases across cognitive domains are distinct. Furthermore, in contrast with extant models, neither type of self-bias was predicted by autistic traits.

Published
2020

29. Single-trial Phase Entrainment of Theta Oscillations in Sensory Regions Predicts Human Associative Memory Performance

Author

Danying Wang, Qiaoyu Chen, Kimron L. Shapiro, Simon Hanslmayr, and Andrew Clouter

Subjects
Adult, Male, 0301 basic medicine, Adolescent, Computer science, Memory, Episodic, Sensory system, Auditory cortex, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Stimulus modality, Encoding (memory), Humans, Theta Rhythm, Episodic memory, Research Articles, Visual Cortex, 030304 developmental biology, Auditory Cortex, 0303 health sciences, General Neuroscience, Recall test, Content-addressable memory, Theta oscillations, 030104 developmental biology, Acoustic Stimulation, Asynchronous communication, Auditory Perception, Visual Perception, Female, Psychology, Entrainment (chronobiology), Neuroscience, Photic Stimulation, 030217 neurology & neurosurgery
Abstract

Episodic memories are rich in sensory information and often contain integrated information from different sensory modalities. For instance, we can store memories of a recent concert with visual and auditory impressions being integrated in one episode. Theta oscillations have recently been implicated in playing a causal role synchronizing and effectively binding the different modalities together in memory. However, an open question is whether momentary fluctuations in theta synchronization predict the likelihood of associative memory formation for multisensory events. To address this question we presented movies and sounds with their luminance and volume modulated at theta (4 Hz), with a phase offset at 0° or 180° with respect to each other. This allowed us to entrain the visual and auditory cortex in a synchronous (0°) or asynchronous manner (180°). Participants were asked to remember the association between a movie and a sound while having their EEG activity recorded. Associative memory performance was significantly enhanced in the synchronous (0°) compared to the asynchronous (180°) condition. Source-level analysis demonstrated that the physical stimuli effectively entrained their respective cortical areas with a corresponding phase offset. Importantly, the strength of entrainment during encoding correlated with the efficacy of associative memory such that small phase differences between visual and auditory cortex predicted a high likelihood of correct retrieval in a later recall test. These findings suggest that theta oscillations serve a specific function in the episodic memory system: Binding the contents of different modalities into coherent memory episodes.Significance StatementHow multi-sensory experiences are bound to form a coherent episodic memory representation is one of the fundamental questions in human episodic memory research. Evidence from animal literature suggests that the relative timing between an input and theta oscillations in the hippocampus is crucial for memory formation. We precisely controlled the timing between visual and auditory stimuli and the neural oscillations at 4 Hz using a multisensory entrainment paradigm. Human associative memory formation depends on coincident timing between sensory streams processed by the corresponding brain regions. We provide evidence for a significant role of relative timing of neural theta activity in human episodic memory on a single trial level, which reveals a crucial mechanism underlying human episodic memory.

Published
2018
Full Text
View/download PDF

30. Theta phase synchronization is the glue that binds human associative memory

Author

Kimron L. Shapiro, Simon Hanslmayr, and Andrew Clouter

Subjects
Adult, Male, Adolescent, Memory, Episodic, Hippocampus, Sensory system, Biology, 050105 experimental psychology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Humans, 0501 psychology and cognitive sciences, Cortical Synchronization, Theta Rhythm, Episodic memory, Long-term memory, 05 social sciences, Long-term potentiation, Content-addressable memory, Phase synchronization, Memory consolidation, Female, General Agricultural and Biological Sciences, Neuroscience, 030217 neurology & neurosurgery
Abstract

Episodic memories are information-rich, often multisensory events that rely on binding different elements [1]. The elements that will constitute a memory episode are processed in specialized but distinct brain modules. The binding of these elements is most likely mediated by fast-acting long-term potentiation (LTP), which relies on the precise timing of neural activity [2]. Theta oscillations in the hippocampus orchestrate such timing as demonstrated by animal studies in vitro [3, 4] and in vivo [5, 6], suggesting a causal role of theta activity for the formation of complex memory episodes, but direct evidence from humans is missing. Here, we show that human episodic memory formation depends on phase synchrony between different sensory cortices at the theta frequency. By modulating the luminance of visual stimuli and the amplitude of auditory stimuli, we directly manipulated the degree of phase synchrony between visual and auditory cortices. Memory for sound-movie associations was significantly better when the stimuli were presented in phase compared to out of phase. This effect was specific to theta (4 Hz) and did not occur in slower (1.7 Hz) or faster (10.5 Hz) frequencies. These findings provide the first direct evidence that episodic memory formation in humans relies on a theta-specific synchronization mechanism.

Published
2017

32. Spatiotemporal configuration of memory arrays as a component of VWM representations

Author

Jeroen D. Silvis, Kimron L. Shapiro, and Cognitive Psychology

Subjects
Communication, Working memory, business.industry, Cognitive Neuroscience, Representation (systemics), Experimental and Cognitive Psychology, Context (language use), Cognition, Object (computer science), Arts and Humanities (miscellaneous), Encoding (memory), Component (UML), Visual short-term memory, Psychology, business, Cognitive psychology
Abstract

Visual working memory (VWM) has been found to support a very limited representation of visual information and yet relatively little is known about the mechanisms that underlie this important cognitive construct. Prior investigations have revealed that VWM performance can be affected by relatively minor changes in the test method as well as the method of encoding. In the present two experiments, we separately investigated these two factors. The results suggest that sequential object displays can improve VWM performance significantly but that a lack of context relatedness between encoding and retrieval impairs performance. This impairment seems to be caused by a mismatch in the spatiotemporal configuration of the memory and test displays, and, importantly, cannot be compensated by selective attention. These findings suggest that spatiotemporal configuration information may be a fundamental component of the information that is stored in VWM as suggested by a number of influential theories. © 2014 © 2014 Taylor & Francis.

Published
2014
Full Text
View/download PDF

33. Frontal and parietal theta burst TMS impairs working memory for visual-spatial conjunctions

Author

Margaret C. Jackson, Martijn G. van Koningsbruggen, David Edmund Johannes Linden, Helen M. Morgan, and Kimron L. Shapiro

Subjects
Adult, Male, Visual perception, genetic structures, medicine.medical_treatment, Neuroscience(all), Biophysics, Clinical Neurology, Posterior parietal cortex, Spatial memory, behavioral disciplines and activities, 050105 experimental psychology, Colour, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, Parietal Lobe, Orientation, medicine, Humans, 0501 psychology and cognitive sciences, Theta Rhythm, 10. No inequality, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Visual search, Brain Mapping, Working memory, General Neuroscience, 05 social sciences, Parietal lobe, Conjunction, Frontal Lobe, Transcranial magnetic stimulation, Memory, Short-Term, Frontal lobe, Space Perception, Visual Perception, Female, Original Article, Neurology (clinical), Psychology, Neuroscience, Color Perception, Photic Stimulation, 030217 neurology & neurosurgery, Cognitive psychology
Abstract

In tasks that selectively probe visual or spatial working memory (WM) frontal and posterior cortical areas show a segregation, with dorsal areas preferentially involved in spatial (e.g. location) WM and ventral areas in visual (e.g. object identity) WM. In a previous fMRI study [1], we showed that right parietal cortex (PC) was more active during WM for orientation, whereas left inferior frontal gyrus (IFG) was more active during colour WM. During WM for colour-orientation conjunctions, activity in these areas was intermediate to the level of activity for the single task preferred and non-preferred information. To examine whether these specialised areas play a critical role in coordinating visual and spatial WM to perform a conjunction task, we used theta burst transcranial magnetic stimulation (TMS) to induce a functional deficit. Compared to sham stimulation, TMS to right PC or left IFG selectively impaired WM for conjunctions but not single features. This is consistent with findings from visual search paradigms, in which frontal and parietal TMS selectively affects search for conjunctions compared to single features, and with combined TMS and functional imaging work suggesting that parietal and frontal regions are functionally coupled in tasks requiring integration of visual and spatial information. Our results thus elucidate mechanisms by which the brain coordinates spatially segregated processing streams and have implications beyond the field of working memory.

Published
2013

34. Transcranial direct current stimulation can enhance working memory in Huntington's disease

Author

Hugh Rickards, Clare M. Eddy, Kimron L. Shapiro, Andrew Clouter, and Peter C. Hansen

Subjects
Adult, medicine.medical_specialty, medicine.medical_treatment, Prefrontal Cortex, Neuropsychological Tests, Transcranial Direct Current Stimulation, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Double-Blind Method, medicine, Verbal fluency test, Humans, 0501 psychology and cognitive sciences, Cognitive Dysfunction, Biological Psychiatry, Aged, Pharmacology, Cross-Over Studies, Transcranial direct-current stimulation, Cognitive Behavioral Therapy, Working memory, 05 social sciences, Cognition, Middle Aged, Combined Modality Therapy, Cognitive training, Dorsolateral prefrontal cortex, medicine.anatomical_structure, Huntington Disease, Memory, Short-Term, Brain stimulation, Psychology, Neuroscience, 030217 neurology & neurosurgery, Stroop effect
Abstract

Transcranial direct current stimulation (tDCS) combined with a cognitive task can enhance targeted aspects of cognitive functioning in clinical populations. The movement disorder Huntington's disease (HD) is associated with progressive cognitive impairment. Deficits in working memory (WM) can be apparent early in the disease and impact functional capacity. We investigated whether tDCS combined with cognitive training could improve WM in patients with HD, and if baseline clinical or cognitive measures may predict efficacy. Twenty participants with HD completed this crossover trial, undergoing 1.5 mA anodal tDCS over left dorsolateral prefrontal cortex and sham stimulation on separate visits. Participants and assessor were blinded to condition order, which was randomised across participants. All participants completed baseline clinical and cognitive assessments. Pre- and post-stimulation tasks included digit reordering, computerised n-back tests and a Stroop task. During 15 min of tDCS/sham stimulation, participants practiced 1- and 2-back WM tasks. Participants exhibited an increase in WM span on the digit re-ordering span task from pre- to post-stimulation after tDCS, but not after sham stimulation. Gains in WM were positively related to motor symptom ratings and negatively associated with verbal fluency scores. Patients with more severe motor symptoms showed greatest improvement, suggesting that motor symptom ratings may help identify patients who are most likely to benefit from tDCS. Conclusions: Dorsolateral prefrontal tDCS appears well tolerated in HD and enhances WM span compared to sham stimulation. Our findings strongly encourage further investigation of the extent to which tDCS combined with cognitive training could enhance everyday function in HD. ClinicalTrials.gov ; NCT02216474 Brain stimulation in Movement Disorders; https://clinicaltrials.gov/ct2/show/NCT02216474

Published
2016

35. Abnormal temporal dynamics of visual attention in spatial neglect patients

Author

Masud Husain, Kimron L. Shapiro, Christopher Kennard, and Jesse Martin

Subjects
Visual search, Adult, medicine.medical_specialty, Multidisciplinary, Visual perception, genetic structures, media_common.quotation_subject, Perceptual Masking, Poison control, Audiology, Middle Aged, Neglect, Cerebrovascular Disorders, Psychophysics, medicine, Visual Perception, Humans, Attentional blink, Attention, Psychology, Cognition Disorders, N2pc, Psychomotor Performance, media_common
Abstract

When we identify a visual object such as a word or letter, our ability to detect a second object is impaired if it appears within 400ms of the first. This phenomenon has been termed the attentional blink or dwell time and is a measure of our ability to allocate attention over time (temporal attention). Patients with unilateral visual neglect are unaware of people or objects contralateral to their lesion. They are considered to have a disorder of attending to a particular location in space (spatial attention). Here we examined the non-spatial temporal dynamics of attention in patients, using a protocol for assessing the attentional blink. Neglect patients with right parietal, frontal or basal ganglia strokes had an abnormally severe and protracted attentional blink When they identified a letter, their awareness of a subsequent letter was significantly diminished for a length of time that was three times as long as for individuals without neglect. Our results demonstrate for the first time that visual neglect is a disorder of directing attention in time, as well as space.

Published
2016
Full Text
View/download PDF

36. Top-up search and the attentional blink: A two-stage account of the preview effect in search

Author

Melina A. Kunar, Glyn W. Humphreys, and Kimron L. Shapiro

Subjects
Visual search, Visual marking, Cognitive Neuroscience, media_common.quotation_subject, Experimental and Cognitive Psychology, Cognition, Task (project management), Inhibition of return, Arts and Humanities (miscellaneous), Perception, Attentional blink, Psychology, media_common, Cognitive psychology
Abstract

An inefficient visual search task can be facilitated if half the distractor items are presented as a preview prior to the presentation of the remaining distractor items and target. This benefit in search is termed the preview effect. Recent research has found that a preview effect can still occur if the previewed items disappear before reappearing again just before the search items (the "top-up" procedure). In this paper we investigate the attentional demands of processing during the preview and the top-up periods. Experiment 1 found that if attention is withdrawn from the top-up stage then no preview effect occurs. Likewise if attention is withdrawn from the initial preview period then the preview effect is reduced (Experiment 2). The data suggest that the preview effect is dependent on attention being paid both to the initial display and also to the re-presentation of the old display before the search display appears. The data counter accounts of preview search in terms of automatic attention capture by new items or by inhibition of return. We discuss alternative accounts of the results, and in particular suggest an amalgamation of a temporal grouping and a visual marking account of preview search. © 2006 Psychology Press Ltd.

Published
2016
Full Text
View/download PDF

37. The cost of serially chaining two cognitive operations

Author

Kimron L. Shapiro, Stanislas Dehaene, Zhao Fan, Suresh D. Muthukumaraswamy, Krish D. Singh, and Mariano Sigman

Subjects
Adult, Male, Psychological refractory period, Adolescent, Process (engineering), Experimental and Cognitive Psychology, Neuropsychological Tests, Time cost, Cognition, Arts and Humanities (miscellaneous), Reaction Time, Developmental and Educational Psychology, Humans, Arithmetic, Turing, computer.programming_language, Turing Machine, General Medicine, Variance (accounting), Cognitive architecture, Refractory Period, Psychological, Chaining, Female, Psychology, computer, Photic Stimulation, Psychomotor Performance, Cognitive psychology
Abstract

As Turing (1936, Proceedings of the London Mathematical Society) noted, a fundamental process in human cognition is to effect chained sequential operations in which the second operation requires an input from the preceding one. Although a great deal is known about the costs associated with 'independent' (unrelated) operations, e. g., from the classic psychological refractory period paradigm, far less is known about those operations to which Turing referred. We present the results of two behavioural experiments, where participants were required to perform two speeded sequential tasks that were either chained or independent. Both experiments reveal the reaction time cost of chaining, over and above classical dual-task serial costs. Moreover, the chaining operation significantly altered the distribution of reaction times relative to the Independent condition in terms of an increased mean and variance. These results are discussed in terms of the cognitive architecture underlying the serial chaining of cognitive operations. © 2011 Springer-Verlag. Fil: Fan, Zhao. Huazhong Normal University; China Fil: Singh, Krish. Cardiff University; Reino Unido Fil: Muthukumaraswamy, Suresh. Cardiff University; Reino Unido Fil: Sigman, Mariano. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Departamento de Física. Laboratorio de Neurociencia Integrativa; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Física de Buenos Aires. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Física de Buenos Aires; Argentina Fil: Dehaene, Stanislas. College de France; Francia Fil: Shapiro, Kimron. Bangor University; Reino Unido

Published
2011
Full Text
View/download PDF

38. The role of biased competition in visual short-term memory

Author

Claire E. Miller and Kimron L. Shapiro

Subjects
Cognitive science, Cognitive Neuroscience, media_common.quotation_subject, Field Dependence-Independence, Experimental and Cognitive Psychology, Stimulus (physiology), Behavioral Neuroscience, Competition model, Memory, Short-Term, Perception, Visual Perception, Humans, Limited capacity, Attention, Visual short-term memory, Psychological Theory, Psychology, Perceptual Masking, media_common
Abstract

Despite being extensively studied, many important questions regarding visual short-term memory (VSTM) are yet to be fully answered. The present review seeks to explore the extent to which competitive interactions present during perception of stimuli may also operate during stimulus encoding and/or maintenance in VSTM. Additionally, the paper provides an overview of the methods and approaches that have been used to study the properties of VSTM, and a review of research into the limits of VSTM capacity. We take as our starting point the biased competition model of attention (Desimone & Duncan, 1995) and discuss the influence that such competition may have on the limited capacity of VSTM by a review of the literature and by recent experiments from Shapiro's lab. The present report outlines several experiments that provide results consistent with the idea that low-level competitive interactions may influence VSTM, with the aim of stimulating further research into this new area.

Published
2011
Full Text
View/download PDF

39. Individuals differ in the attentional blink: Mental speed and intra-subject stability matter

Author

Christoph Klein, Kimron L. Shapiro, Isabel Arend, and André Beauducel

Subjects
Correlation, Arts and Humanities (miscellaneous), Psychometrics, Working memory, Developmental and Educational Psychology, Cognitive flexibility, Short-term memory, Experimental and Cognitive Psychology, Cognition, Attentional blink, Psychology, Intra Subject Variability, Cognitive psychology
Abstract

The failure to correctly report two targets (“T1”, “T2”) that follow each other in close temporal proximity has been called the “attentional blink” (AB). The AB has, so far, mainly been studied using experimental approaches. The present studies investigated individual differences in AB performance, revealing (among further findings) a high positive correlation between the accuracies of detecting the two targets correctly (r = 0.69); and between T2∣T1 accuracy and psychometric intelligence (0.41 ≤ r ≤ 0.43) and RT variability in short-term and working memory (− 0.38 ≤ r ≤ − 0.45). Together, these results support important aspects of major theoretical accounts of the AB from an individual differences perspective and introduce intelligence and intra-subject stability as contributing factors in AB performance.

Published
2011
Full Text
View/download PDF

42. Neural Signatures of Stimulus Features in Visual Working Memory—A Spatiotemporal Approach

Author

Kimron L. Shapiro, Margaret C. Jackson, Harald M. Mohr, Helen M. Morgan, David Edmund Johannes Linden, and Christoph Klein

Subjects
Adult, Male, genetic structures, Brain activity and meditation, Cognitive Neuroscience, Inferior frontal gyrus, source analysis, 050105 experimental psychology, working memory, 03 medical and health sciences, Cellular and Molecular Neuroscience, Young Adult, 0302 clinical medicine, Event-related potential, Parietal Lobe, P3b, Neural Pathways, medicine, Humans, 0501 psychology and cognitive sciences, EEG, 10. No inequality, Evoked Potentials, Visual Cortex, medicine.diagnostic_test, Working memory, 05 social sciences, fMRI, Parietal lobe, Electroencephalography, Articles, Magnetic Resonance Imaging, Frontal Lobe, Visual cortex, medicine.anatomical_structure, Memory, Short-Term, Space Perception, visual, Female, Functional magnetic resonance imaging, Psychology, Neuroscience, 030217 neurology & neurosurgery, Color Perception, Photic Stimulation
Abstract

We examined the neural signatures of stimulus features in visual working memory (WM) by integrating functional magnetic resonance imaging (fMRI) and event-related potential data recorded during mental manipulation of colors, rotation angles, and color--angle conjunctions. The N200, negative slow wave, and P3b were modulated by the information content of WM, and an fMRIconstrained source model revealed a progression in neural activity from posterior visual areas to higher order areas in the ventral and dorsal processing streams. Color processing was associated with activity in inferior frontal gyrus during encoding and retrieval, whereas angle processing involved right parietal regions during the delay interval. WM for color--angle conjunctions did not involve any additional neural processes. The finding that different patterns of brain activity underlie WM for color and spatial information is consistent with ideas that the ventral/dorsal ‘‘what/where’’ segregation of perceptual processing influences WM organization. The absence of characteristic signatures of conjunction-related brain activity, which was generally intermediate between the 2 single conditions, suggests that conjunction judgments are based on the coordinated activity of these 2 streams.

Published
2009

43. Does failure to mask T1 cause lag-1 sparing in the attentional blink?

Author

Elwyn W. Martin and Kimron L. Shapiro

Subjects
Adult, Male, Masking (art), medicine.medical_specialty, Visual perception, media_common.quotation_subject, Lag, Experimental and Cognitive Psychology, Cognition, Stimulus onset asynchrony, Audiology, Attentional Blink, Sensory Systems, Developmental psychology, Perception, Visual Perception, medicine, Humans, Visual attention, Female, Attentional blink, Psychology, Perceptual Masking, General Psychology, media_common
Abstract

The attentional blink (AB) effect demonstrates that when participants are instructed to report two targets presented in a rapid visual stimuli stream, the second target (T2) is often unable to be reported correctly if presented 200-500 msec after the onset of the first target (T1). However, if T2 is presented immediately after T1, in the conventional lag-1 position (100-msec stimulus onset asynchrony; SOA), little or no performance deficit occurs. The present experiments add to the growing literature relating the "lag-1 sparing" effect to T1 masking. Using a canonical AB paradigm, our results demonstrate that T2 performance at lag 1 is significantly reduced in the presence of T1 masking. The implications of this outcome are discussed in relation to theories of the AB.

Published
2008
Full Text
View/download PDF

44. Increased functional magnetic resonance imaging activity during nonconscious perception in the attentional blink

Author

Neil Roberts, Stephen J. Johnston, Kimron L. Shapiro, Arshad Zaman, and Werner Vogels

Subjects
genetic structures, Brain activity and meditation, Stimulus (physiology), Brain mapping, Neuroimaging, Image Processing, Computer-Assisted, Reaction Time, medicine, Humans, Attention, Attentional blink, Cerebral Cortex, Brain Mapping, Unconscious, Psychology, Blinking, medicine.diagnostic_test, General Neuroscience, Cognition, Magnetic Resonance Imaging, Oxygen, Functional imaging, Perception, Nerve Net, Functional magnetic resonance imaging, Psychology, Neuroscience, Photic Stimulation, Cognitive psychology
Abstract

Presenting two targets for identification within a few hundred milliseconds reliably yields reduced performance on the second relative to the first. This attentional blink phenomenon has been extensively studied behaviourally but, until recently, has eluded direct investigation by functional magnetic resonance imaging. The few published imaging studies agree that the attentional blink recruits a fronto-temporo-parietal 'attentional' network. What remains controversial is the specific role played by the 'object processing' ventro-occipital regions of the brain. Two studies used different tasks and stimulus onset asynchronies leaving the cause for this divergence unknown. The present study resolves this discrepancy by examining the different methodologies. Our results suggest that task difficulty and masking must be factored in to any conclusions drawn about the brain activity during the attentional blink paradigm.

Published
2007
Full Text
View/download PDF

45. Towards the Principled Study of Variable Autonomy in Mobile Robots

Author

Nick Hawes, Manolis Chiou, Jess R. Kerlin, Kimron L. Shapiro, Rustam Stolkin, and Andrew Clouter

Subjects
Social robot, business.industry, Computer science, Mobile robot, Context (language use), Mobile robot navigation, Task (project management), Robot control, Human–computer interaction, Teleoperation, Robot, Artificial intelligence, business, Search and rescue
Abstract

Safety critical and demanding tasks (e.g. Search and rescue or hazardous environments inspection), can benefit from robotic systems that offer a spectrum of control modes. These can range from direct teleoperation to full autonomy. This paper describes a pilot-study experiment in which a variable autonomy robot completes a navigation task. It explores the comparative performances of the human-robot system at different autonomy levels under different sets of conditions. This is done from a Mixed-Initiative system investigation perspective. Sensor noise was added to degrade robot performance, while a secondary task induced varying degrees of additional workload on the human operator. Carrying out these experiments and analyzing the initial results, has highlighted the profound complexities of designing tasks, conditions, and performance metrics which are: principled, eliminate confounding factors, and yield scientifically rigorous insights into the intricacies of a collaborative system that combines both human and robot intelligences. A key contribution of this paper is to describe the lessons learned from attempting these experiments, and to suggest a variety of guidelines for other researchers to consider when designing experiments in this context.

Published
2015
Full Text
View/download PDF

46. Neural mechanisms underlying visual short-term memory gain for temporally distinct objects

Author

Kimron L. Shapiro, Claire E. Miller, David Edmund Johannes Linden, and Niklas Ihssen

Subjects
Male, Dissociation (neuropsychology), Signal Detection, Psychological, Brain activity and meditation, Cognitive Neuroscience, Neuropsychological Tests, Cellular and Molecular Neuroscience, Young Adult, Biased competition, Biased Competition Theory, medicine, Psychophysics, Humans, Attention, Visual short-term memory, Brain Mapping, Blood-oxygen-level dependent, medicine.diagnostic_test, Working memory, fMRI, Attentional control, Brain, Magnetic Resonance Imaging, Memory, Short-Term, Visual Perception, Female, Functional magnetic resonance imaging, Psychology, Neuroscience, Photic Stimulation, Cognitive psychology
Abstract

Recent research has shown that visual short-term memory (VSTM) can substantially be improved when the to-be-remembered objects are split in 2 half-arrays (i.e., sequenced) or the entire array is shown twice (i.e., repeated), rather than presented simultaneously. Here we investigate the hypothesis that sequencing and repeating displays overcomes attentional “bottlenecks” during simultaneous encoding. Using functional magnetic resonance imaging, we show that sequencing and repeating displays increased brain activation in extrastriate and primary visual areas, relative to simultaneous displays (Study 1). Passively viewing identical stimuli did not increase visual activation (Study 2), ruling out a physical confound. Importantly, areas of the frontoparietal attention network showed increased activation in repetition but not in sequential trials. This dissociation suggests that repeating a display increases attentional control by allowing attention to be reallocated in a second encoding episode. In contrast, sequencing the array poses fewer demands on control, with competition from nonattended objects being reduced by the half-arrays. This idea was corroborated by a third study in which we found optimal VSTM for sequential displays minimizing attentional demands. Importantly these results provide support within the same experimental paradigm for the role of stimulus-driven and top-down attentional control aspects of biased competition theory in setting constraints on VSTM.

Published
2015

47. Attentional blink in adults with Tourette syndrome

Author

Nellie Georgiou-Karistianis, Dianne Melinda Sheppard, Natalie Elizabeth Evans, John L. Bradshaw, Yvette Vardy, Betina Kim Gardner, and Kimron L. Shapiro

Subjects
Intrusion, medicine.medical_specialty, Rapid serial visual presentation, Significant group, medicine, Attentional blink, Selective attention, Audiology, medicine.disease, Psychology, Tourette syndrome, General Psychology, Cognitive psychology
Abstract

An attentional blink (AB) paradigm was used to assess the ability of Tourette syndrome (TS) participants to detect and correctly identify two red target letters (T1 and T2) in a rapid serial visual presentation (RSVP) task. An AB was demonstrated for both patients and controls; identification of the second target (T2) was impaired when it appeared within 200 – 500 ms of the first (T1). Interestingly, there was no difference between the groups in AB duration or magnitude. While there was a trend for reduced T2 identification in the TS group, this was not significant. Analysis of pre-target and post-target intrusion errors for T2 identification (as a function of T1-T2 interval) was conducted and, once again, no significant group differences were demonstrated. These results are indicative of a relative preservation of selective attention in TS.

Published
2006
Full Text
View/download PDF

48. Representational masking and the attentional blink

Author

Trafton Drew and Kimron L. Shapiro

Subjects
Masking (art), Visual perception, Cognitive Neuroscience, media_common.quotation_subject, Experimental and Cognitive Psychology, Cognition, Arts and Humanities (miscellaneous), Perception, Visual attention, Attentional blink, Repetition blindness, Psychology, media_common, Cognitive psychology
Abstract

After successful detection of a target item within a stream of rapidly displayed visual stimuli, subsequent detection of an additional target is impaired for roughly 500 ms. This impairment is known as the “attentional blink” (AB). Previous studies have found that if either the first (Tl; Raymond, Shapiro, & Arnell, 1992) or second target (T2; Giesbrecht & Di Lollo, 1998) is not followed by a mask, the AB impairment is significantly reduced. Whereas low-level perceptual factors have been found to influence the efficacy of masking in the AB (e.g., Seiffert & Di Lollo, 1997), the current experiment used a higher level (representational) manipulation, i.e., repetition blindness to reduce the efficacy of target masking in the AB. These findings contribute to the growing literature suggesting that masking plays more than a perceptual role in the AB phenomenon.

Published
2006
Full Text
View/download PDF

49. Multisensory integration: how sound alters sight

Author

Jess R. Kerlin and Kimron L. Shapiro

Subjects
Male, geography, geography.geographical_feature_category, Agricultural and Biological Sciences(all), genetic structures, Biochemistry, Genetics and Molecular Biology(all), Multisensory integration, Biology, Illusions, General Biochemistry, Genetics and Molecular Biology, Sight, Human–computer interaction, Time windows, Report, Auditory Perception, Visual Perception, Humans, Female, General Agricultural and Biological Sciences, Sound (geography), Mechanism (sociology), Visual Cortex
Abstract

Summary Perception routinely integrates inputs from different senses. Stimulus temporal proximity critically determines whether or not these inputs are bound together. Despite the temporal window of integration being a widely accepted notion, its neurophysiological substrate remains unclear. Many types of common audio-visual interactions occur within a time window of ∼100 ms [1–5]. For example, in the sound-induced double-flash illusion, when two beeps are presented within ∼100 ms together with one flash, a second illusory flash is often perceived [2]. Due to their intrinsic rhythmic nature, brain oscillations are one candidate mechanism for gating the temporal window of integration. Interestingly, occipital alpha band oscillations cycle on average every ∼100 ms, with peak frequencies ranging between 8 and 14 Hz (i.e., 120–60 ms cycle). Moreover, presenting a brief tone can phase-reset such oscillations in visual cortex [6, 7]. Based on these observations, we hypothesized that the duration of each alpha cycle might provide the temporal unit to bind audio-visual events. Here, we first recorded EEG while participants performed the sound-induced double-flash illusion task [4] and found positive correlation between individual alpha frequency (IAF) peak and the size of the temporal window of the illusion. Participants then performed the same task while receiving occipital transcranial alternating current stimulation (tACS), to modulate oscillatory activity [8] either at their IAF or at off-peak alpha frequencies (IAF±2 Hz). Compared to IAF tACS, IAF−2 Hz and IAF+2 Hz tACS, respectively, enlarged and shrunk the temporal window of illusion, suggesting that alpha oscillations might represent the temporal unit of visual processing that cyclically gates perception and the neurophysiological substrate promoting audio-visual interactions., Highlights • Peak α frequency predicts temporal windows of the double-flash illusion • tACS tuned around α frequency causally modulates this illusory temporal window • Slower versus faster tACS α frequencies enlarged versus shrunk the illusory temporal window • α peak is the “fingerprint” driving crossmodal impact upon visual processing, Multisensory integration occurs within a critical temporal window. Cecere et al. discover the neurophysiological correlates of this phenomenon. Individual oscillatory frequency within the occipital α band causally determines the individual temporal profile of cross-sensory integration, setting the sensory pace of conscious perceptual experience.

Published
2015

50. Objects and Events in the Attentional Blink

Author

Kimron L. Shapiro, John S. Duncan, Dianne Melinda Sheppard, and Anne P. Hillstrom

Subjects
Adult, Male, 05 social sciences, 050109 social psychology, Stimulus onset asynchrony, Serial Learning, 050105 experimental psychology, Task (project management), Rapid serial visual presentation, Pattern Recognition, Visual, Duration (music), Fixation (visual), Psychophysics, Reaction Time, Humans, Attention, Female, 0501 psychology and cognitive sciences, Attentional blink, Percept, Psychology, General Psychology, Cognitive psychology
Abstract

When two visual targets, T1 and T2, are presented in rapid succession, detection or identification of T2 is almost universally de- graded by the requirement to attend to T1 (the attentional blink , or AB). One interesting exception occurs when T1 is a brief gap in a continu- ous letter stream and the task is to discriminate its duration. One hy- pothesized explanation for this exception is that an AB is triggered only by attention to a patterned object. The results reported here eliminate this hypothesis. Duration judgments produced no AB whether the judged duration concerned a short gap in the letter stream (Experiment 1) or a letter presented for slightly longer than others (Experiment 2). When iden- tification of an identical longer letter T1 was required (Experiment 3), rather than a duration judgment, the AB was reestablished. Direct percep- tual judgments of letter streams with gaps embedded showed that whereas brief gaps result in the percept of a single, briefly hesitating stream, longer gaps result in the percept of two separate streams with a sepa- rating pause. Correspondingly, an AB was produced in Experiment 4, when participants were required to judge the duration of longer T1 gaps. We propose that, like spatially separated objects, temporal events are parsed into discrete, hierarchically organized events. An AB is trig- gered only when a new attended event is defined, either when a long pause creates a new perceived stream (Experiment 4) or when atten- tion shifts from the stream to the letter level (Experiment 3). The rapid serial visual presentation (RSVP) attentional blink (AB) paradigm is a well-established means of investigating the temporal limi- tations of visual selective attention (Broadbent & Broadbent, 1987; Ray- mond, Shapiro, & Arnell, 1992; Shapiro, Raymond, & Arnell, 1994). In the standard visual AB paradigm, stimuli are presented individually, at fixation, at a rate of 6 to 20 items/s (Shapiro et al., 1994). Embedded within each stream of rapidly presented stimuli are two targets (T1 and T2) that are differentiated from nontarget distractors in terms of cer- tain visual attributes (e.g., color, duration, identity). For example, the T1 task may require participants to identify a white letter within a stream of nontarget black letters. The T2 task may be to detect a black letter X (differentiated by identity) that is presented in only 50% of trials. In the standard AB paradigm, it is customary to compare performance when both targets are reported ( dual-target condition) with performance when only the second target is reported ( single-target condition). Whereas these conditions are equivalent in terms of visual information, they dif- fer in terms of what the participant is required to report and thus what must be attended (Raymond et al., 1992). The amount of interference caused by attending to T1 can then be measured by contrasting T2 per- formance in the two conditions. The critical manipulation necessary to reveal the AB is the tempo- ral position of T2 relative to T1 in the RSVP stream. T2 is presented at a range of serial positions (stimulus onset asynchrony, or SOA, usu

Published
2002
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results