Your search keyword '"visual imagery"' showing total 148 results

1. Neural Representations in Visual and Parietal Cortex Differentiate between Imagined, Perceived, and Illusory Experiences.

Author

Li S, Zeng X, Shao Z, and Yu Q

Subjects

Humans, Male, Female, Imagination, Parietal Lobe, Brain, Brain Mapping, Magnetic Resonance Imaging, Visual Perception, Illusions

Abstract

Humans constantly receive massive amounts of information, both perceived from the external environment and imagined from the internal world. To function properly, the brain needs to correctly identify the origin of information being processed. Recent work has suggested common neural substrates for perception and imagery. However, it has remained unclear how the brain differentiates between external and internal experiences with shared neural codes. Here we tested this question in human participants (male and female) by systematically investigating the neural processes underlying the generation and maintenance of visual information from voluntary imagery, veridical perception, and illusion. The inclusion of illusion allowed us to differentiate between objective and subjective internality: while illusion has an objectively internal origin and can be viewed as involuntary imagery, it is also subjectively perceived as having an external origin like perception. Combining fMRI, eye-tracking, multivariate decoding, and encoding approaches, we observed superior orientation representations in parietal cortex during imagery compared with perception, and conversely in early visual cortex. This imagery dominance gradually developed along a posterior-to-anterior cortical hierarchy from early visual to parietal cortex, emerged in the early epoch of imagery and sustained into the delay epoch, and persisted across varied imagined contents. Moreover, representational strength of illusion was more comparable to imagery in early visual cortex, but more comparable to perception in parietal cortex, suggesting content-specific representations in parietal cortex differentiate between subjectively internal and external experiences, as opposed to early visual cortex. These findings together support a domain-general engagement of parietal cortex in internally generated experience. SIGNIFICANCE STATEMENT How does the brain differentiate between imagined and perceived experiences? Combining fMRI, eye-tracking, multivariate decoding, and encoding approaches, the current study revealed enhanced stimulus-specific representations in visual imagery originating from parietal cortex, supporting the subjective experience of imagery. This neural principle was further validated by evidence from visual illusion, wherein illusion resembled perception and imagery at different levels of cortical hierarchy. Our findings provide direct evidence for the critical role of parietal cortex as a domain-general region for content-specific imagery, and offer new insights into the neural mechanisms underlying the differentiation between subjectively internal and external experiences., (Copyright © 2023 the authors.)

Published

2023

2. Cortical activity involved in perception and imagery of visual stimuli in a subject with aphantasia. An EEG case report.

Author

Furman M, Fleitas-Rumak P, Lopez-Segura P, Furman M, Tafet G, de Erausquin GA, and Ortiz T

Subjects

Male, Humans, Imagery, Psychotherapy methods, Parietal Lobe, Electroencephalography, Imagination physiology, Visual Perception physiology

Abstract

Aphantasia has been described as the inability to voluntarily evoke mental images using the "mind's eye." We studied a congenital aphantasic subject using neuropsychological testsand 64 channel EEG recordings, in order to studycortical activity involved in perception and imagery evaluating event-related potentials(N170, P200, N250). The subject is in the normal range of the neuropsychological tests performed, except for specific imagery tests. The EEG results show that when he evokes the same mental image, he starts the evoking process from left temporal instead of frontal areas, he does not activate occipital visual nor left anterior parietal areas.

Published

2022

3. Only minimal differences between individuals with congenital aphantasia and those with typical imagery on neuropsychological tasks that involve imagery.

Author

Pounder Z, Jacob J, Evans S, Loveday C, Eardley AF, and Silvanto J

Subjects

Cognition physiology, Humans, Imagery, Psychotherapy, Memory, Imagination physiology, Visual Perception physiology

Abstract

Aphantasia describes the experience of individuals who self-report a lack of voluntary visual imagery. It is not yet known whether individuals with aphantasia show deficits in cognitive and neuropsychological tasks thought to relate to aspects of visual imagery, including Spatial Span, One Touch Stocking of Cambridge, Pattern Recognition Memory, Verbal Recognition Memory and Mental Rotation. Twenty individuals with congenital aphantasia (VVIQ < 25) were identified and matched on measures of age and IQ to twenty individuals with typical imagery (VVIQ > 35). A group difference was found in the One Touch Stocking of Cambridge task for response time, but not accuracy, when the number of imagined moves that participants had to hold in their heads to complete the task increased. Similarly, a group difference in response time was apparent in the mental rotation task, but only in the subgroup of aphantasic participants who reported a severe deficit in visual imagery (VVIQ score of 16). These results suggest that the cognitive profile of people without imagery does not greatly differ from those with typical imagery when examined by group. In addition, the severity of aphantasia (and VVIQ criterion) may be an important factor to consider when investigating differences in imagery experience. Overall, this study raises questions about whether or not aphantasia represents a difference in cognitive function or in conscious experience., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

4. Imagine, and you will find - Lack of attentional guidance through visual imagery in aphantasics.

Author

Monzel M, Keidel K, and Reuter M

Subjects

Attention, Cognition, Humans, Imagery, Psychotherapy, Imagination, Visual Perception

Abstract

Aphantasia is the condition of reduced or absent voluntary imagery. So far, behavioural differences between aphantasics and non-aphantasics have hardly been studied as the base rate of those affected is quite low. The aim of the study was to examine if attentional guidance in aphantasics is impaired by their lack of visual imagery. In two visual search tasks, an already established one by Moriya (Attention, Perception, & Psychophysics, 80(5), 1127-1142, 2018) and a newly developed one, we examined whether aphantasics are primed less by their visual imagery than non-aphantasics. The sample in Study 1 consisted of 531 and the sample in Study 2 consisted of 325 age-matched pairs of aphantasics and non-aphantasics. Moriya's Task was not capable of showing the expected effect, whereas the new developed task was. These results could mainly be attributed to different task characteristics. Therefore, a lack of attentional guidance through visual imagery in aphantasics can be assumed and interpreted as new evidence in the imagery debate, showing that mental images actually influence information processing and are not merely epiphenomena of propositional processing., (© 2021. The Author(s).)

Published

2021

5. Attention driven phantom vision: measuring the sensory strength of attentional templates and their relation to visual mental imagery and aphantasia.

Author

Keogh R and Pearson J

Subjects

Adult, Female, Humans, Male, Young Adult, Attention physiology, Vision, Ocular physiology, Visual Perception physiology

Abstract

When we search for an object in an array or anticipate attending to a future object, we create an 'attentional template' of the object. The definitions of attentional templates and visual imagery share many similarities as well as many of the same neural characteristics. However, the phenomenology of these attentional templates and their neural similarities to visual imagery and perception are rarely, if ever discussed. Here, we investigate the relationship between these two forms of non-retinal phantom vision through the use of the binocular rivalry technique, which allows us to measure the sensory strength of attentional templates in the absence of concurrent perceptual stimuli. We find that attentional templates correlate with both feature-based attention and visual imagery. Attentional templates, like imagery, were significantly disrupted by the presence of irrelevant visual stimuli, while feature-based attention was not. We also found that a special population who lack the ability to visualize (aphantasia), showed evidence of feature-based attention when measured using the binocular rivalry paradigm, but not attentional templates. Taken together, these data suggest functional similarities between attentional templates and visual imagery, advancing the theory of visual imagery as a general simulation tool used across cognition. This article is part of the theme issue 'Offline perception: voluntary and spontaneous perceptual experiences without matching external stimulation'.

Published

2021

6. Sensory features of mental images in the framework of human actions.

Author

Krüger B, Zabicki A, Grosse L, Naumann T, and Munzert J

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Young Adult, Imagination physiology, Kinesthesis physiology, Motor Activity physiology, Visual Perception physiology

Abstract

What determines the sensory impression of a self-generated motor image? Motor imagery is a process in which subjects imagine executing a body movement with a strong kinesthetic and/or visual component from a first-person perspective. Both sensory modalities can be combined flexibly to form a motor image. 90 participants of varying ages had to freely generate motor images from a large set of movements. They were asked to rate their kinesthetic as well as their visual impression, the perceived vividness, and their personal experience with the imagined movement. Data were subjected to correlational analyses, linear regressions, and representation similarity analyses. Results showed that both action characteristics and experience drove the sensory impression of motor images with a strong individual component. We conclude that imagining actions that impose varying demands can be considered as reexperiencing actions by using one's own sensorimotor representations that represent not only individual experience but also action demands., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

7. Inter-participant consistency of language-processing networks during abstract thoughts.

Author

Berkovich-Ohana A, Noy N, Harel M, Furman-Haran E, Arieli A, and Malach R

Subjects

Adult, Default Mode Network diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Nerve Net diagnostic imaging, Young Adult, Brain Mapping, Default Mode Network physiology, Imagination physiology, Language, Motor Activity physiology, Nerve Net physiology, Thinking physiology, Visual Perception physiology

Abstract

Human brain imaging typically employs structured and controlled tasks to avoid variable and inconsistent activation patterns. Here we expand this assumption by showing that an extremely open-ended, high-level cognitive task of thinking about an abstract content, loosely defined as "abstract thinking" - leads to highly consistent activation maps. Specifically, we show that activation maps generated during such cognitive process were precisely located relative to borders of well-known networks such as internal speech, visual and motor imagery. The activation patterns allowed decoding the thought condition at >95%. Surprisingly, the activated networks remained the same regardless of changes in thought content. Finally, we found remarkably consistent activation maps across individuals engaged in abstract thinking. This activation bordered, but strictly avoided visual and motor networks. On the other hand, it overlapped with left lateralized language networks. Activation of the default mode network (DMN) during abstract thought was similar to DMN activation during rest. These observations were supported by a quantitative neuronal distance metric analysis. Our results reveal that despite its high level, and varied content nature - abstract thinking activates surprisingly precise and consistent networks in participants' brains., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

8. Dynamic Visual Noise Does Not Affect Memory for Fonts.

Author

Chubala CM, Ensor TM, Neath I, and Surprenant AM

Subjects

Adult, Female, Humans, Male, Young Adult, Memory, Short-Term physiology, Noise, Visual Perception physiology

Abstract

Dynamic visual noise (DVN) selectively impairs memory for some types of stimuli (e.g., colors, textures, concrete words), but not for others (e.g., matrices, Chinese characters, simple shapes). According to the image definition hypothesis, the key difference is whether the stimulus leads to images that are ill-defined or well-defined. The former will be affected because the addition of noise quickly reduces the usefulness of the image in supplying information about the item's identity. The image definition hypothesis predicts that fonts should lead to ill-defined images and therefore should be affected by DVN, and although three previous studies appear to show this result, they lack a key control condition and report only proportion correct. Two experiments reassessed whether DVN affects memory for fonts, but, unlike the previous studies, both included a static visual noise condition and both were analyzed using signal detection measures. There was no evidence that DVN affected memory for font information, thus disconfirming a prediction of the original version of image definition hypothesis. We suggest a revised version that focuses on redintegration can explain the results.

Published

2020

9. Differences in functional brain network connectivity during stories presented in audio, illustrated, and animated format in preschool-age children.

Author

Hutton JS, Dudley J, Horowitz-Kraus T, DeWitt T, and Holland SK

Subjects

Books, Illustrated, Brain physiology, Brain Mapping methods, Cerebellum physiology, Child, Child, Preschool, Female, Humans, Language, Magnetic Resonance Imaging methods, Male, Nerve Net physiology, Neural Pathways physiology, Reading, Auditory Perception physiology, Mental Recall physiology, Visual Perception physiology

Abstract

The American Academy of Pediatrics (AAP) recommends that parents begin reading to their children soon after birth, and limits on screen-based media. Benefits of traditional book-sharing are well documented in children, while cited deleterious effects of animated content on narrative processing are controversial. The influence of story format on underlying functional brain networks has not previously been studied. Thirty-three healthy children were recruited for this study via advertisement at an academic medical center, which involved functional magnetic resonance imaging (fMRI) at a single visit. Twenty-seven of them completed fMRI (82%; 15 boys, 12 girls; mean 58 ± 8 months old). The fMRI protocol involved the presentation of 3 similar, unrhymed stories by the same author lasting 5 min each in audio, illustrated, and animated format during separate runs, followed by a test of factual recall. Within- and between-network functional connectivity (FC) was compared across formats involving five functional networks, which were defined via literature review and refined via a data-driven parcellation method: visual perception, visual imagery, language, Default Mode (DMN), and cerebellar association. For illustration relative to audio, FC was decreased within the language network and increased between visual, DMN, and cerebellar networks, suggesting decreased strain on the language network afforded by pictures and visual imagery. Between-network connectivity was decreased for all networks for animation relative to the other formats, particularly illustration, suggesting a bias towards visual perception at the expense of network integration. These findings suggest substantial differences in functional brain network connectivity for animated and more traditional story formats in preschool-age children, reinforcing the appeal of illustrated storybooks at this age to provide efficient scaffolding for language, and suggesting novel neurobiological correlates of how functional networks may contribute to this process.

Published

2020

10. The Perky effect revisited: Imagery hinders perception at high levels, but aids it at low.

Author

Reeves A, Grayhem R, and Craver-Lemley C

Subjects

Female, Humans, Male, Observer Variation, Visual Acuity physiology, Imagination physiology, Perceptual Masking physiology, Visual Perception physiology

Abstract

Visual, although not auditory, imagery typically interferes with visual acuity: the so-called Perky effect. However, visual images can facilitate detection of visual Gabor patterns. Here we report that this discrepancy is not due so much to the class of stimuli but primarily to the level of accuracy; visual imagery interferes with acuity when performance is good but facilitates it when performance is poor. This finding is analogous to the 'dipper' function obtained when visual stimuli that mask visual targets when above threshold improve target detection near threshold., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

11. Dynamic visual noise affects ill-defined, not well-defined, images.

Author

Chubala CM, Ensor TM, Neath I, and Surprenant AM

Subjects

Adult, Female, Humans, Male, Photography, Memory, Short-Term, Noise, Visual Perception

Abstract

Dynamic visual noise (DVN), a matrix of squares that randomly alternate between black and white, interferes with some but not all tasks that involve visuo-spatial processing. Although visual working memory is generally invoked to explain the detrimental effects of DVN, the failure of DVN to impair memory for some stimuli that should be processed via visual working memory has not been satisfactorily explained. The image-definition hypothesis proposes that DVN will impair only ill-defined, not well-defined, images. We report five experiments that test this hypothesis. Experiments 1 and 2 use stimuli that lead to well-defined visual images (matrices, photographs of common objects) and no effect of DVN was observed. In contrast, Experiments 3 and 4 use stimuli that lead to ill-defined visual images (textures, photographs of snowflakes) and DVN affected performance. Experiment 5 demonstrated that a potentially disconfirmatory result in the literature was due to analysing proportion correct rather than a measure of discriminability. These results offer initial support for the image-definition hypothesis, and we discuss the implications for theories explaining DVN.

Published

2020

12. Is visual imagery ability higher for orthodontic students than those in other disciplines? A cross-sectional questionnaire-based study.

Author

Smyth RS, Acharya P, and Hunt NP

Subjects

Cross-Sectional Studies, Female, Humans, London, Male, Students, Surveys and Questionnaires, Imagination, Visual Perception

Abstract

Objective: To investigate the effect visual imagery may have on career choice among current university students across a range of subjects and disciplines., Setting: University College London (UCL), UK., Design: Cross-sectional questionnaire-based study., Participants: The study compared four main groups of UCL students: current students at the Slade School of Fine Art; UCL Eastman Dental Institute; UCL Bartlett School of Architecture; and the Faculty of Laws., Method: A questionnaire based on the Vividness of Visual Imagery Questionnaire (VVIQ) was distributed along with questions regarding demographic information., Results: There were no significant differences between the VVIQ scores across the four included Schools/Faculty: The Slade School of Fine Art; UCL Bartlett School of Architecture; Faculty of Laws; and UCL Eastman Dental Institute, F (3,219) = 2.160, P = 0.094. There were also no significant differences in the scores for the Eastman ( M = 60.21, SD = 13.58) and the three other Schools/Faculty ( M = 62.87, SD = 10.96); t(-1.317) = 221, P = 0.189, and no significant difference in the scores for the Orthodontic students ( M = 60.80, SD = 13.39) and the remaining other included students ( M = 61.44, SD = 9.68); t(-0.232) = 221, P = 0.817. Aphantasia was uncommon in this sample, with a prevalence of 0.9%. A positive correlation was found between age group and total VVIQ score, with older participants scoring higher on the VVIQ. Women were significantly more likely to say that their ability to visualise had affected their career choice than male respondents., Conclusions: There were no significant differences between the VVIQ scores across the four included Schools/Faculty. Visual imagery ability did not differ in dental or orthodontic students in comparison to other student groups. Further work is needed to replicate these findings in more diverse samples.

Published

2019

13. Reinterpretation in visual imagery is possible without visual cues: a validation of previous research.

Author

Kamermans KL, Pouw W, Mast FW, and Paas F

Subjects

Adolescent, Adult, Animals, Female, Humans, Male, Rabbits, Young Adult, Cues, Imagination physiology, Mental Recall physiology, Visual Perception physiology

Abstract

Is visual reinterpretation of bistable figures (e.g., duck/rabbit figure) in visual imagery possible? Current consensus suggests that it is in principle possible because of converging evidence of quasi-pictorial functioning of visual imagery. Yet, studies that have directly tested and found evidence for reinterpretation in visual imagery, allow for the possibility that reinterpretation was already achieved during memorization of the figure(s). One study resolved this issue, providing evidence for reinterpretation in visual imagery (Mast and Kosslyn, Cognition 86:57-70, 2002). However, participants in that study performed reinterpretations with aid of visual cues. Hence, reinterpretation was not performed with mental imagery alone. Therefore, in this study we assessed the possibility of reinterpretation without visual support. We further explored the possible role of haptic cues to assess the multimodal nature of mental imagery. Fifty-three participants were consecutively presented three to be remembered bistable 2-D figures (reinterpretable when rotated 180°), two of which were visually inspected and one was explored hapticly. After memorization of the figures, a visually bistable exemplar figure was presented to ensure understanding of the concept of visual bistability. During recall, 11 participants (out of 36; 30.6%) who did not spot bistability during memorization successfully performed reinterpretations when instructed to mentally rotate their visual image, but additional haptic cues during mental imagery did not inflate reinterpretation ability. This study validates previous findings that reinterpretation in visual imagery is possible.

Published

2019

14. A look into hallucinations: the relationship between visual imagery and hallucinations in Alzheimer's disease.

Author

El Haj M, Badcock JC, Jardri R, Larøi F, Roche J, Sommer IE, and Gallouj K

Subjects

Aged, Case-Control Studies, Female, Humans, Male, Middle Aged, Alzheimer Disease psychology, Hallucinations, Imagination, Visual Perception

Abstract

Introduction: We investigated the relationship between visual hallucinations and vividness of visual imagery in patients with Alzheimer's disease (AD). Method: We recruited 28 patients with AD and 30 healthy control participants, matched for age and education. We evaluated proneness towards hallucinations with the Launay-Slade Hallucinations Scale, which includes items assessing visual and auditory hallucinations. We also evaluated vividness of visual imagery with the Vividness of Visual Imagery Questionnaire on which participants had to imagine four images (i.e., imagining the face of a friend, the rising sun, a familiar shop-front, and a country scene) and report the vividness of the images they generated. Results: Analysis demonstrated significant positive correlations between visual hallucinations and vividness of visual imagery in AD patients, however, no significant correlations were observed between auditory hallucinations and vividness of visual imagery in these participants. No significant correlations were observed between hallucinations and vividness of visual imagery in healthy control participants, probably due to the lack of hallucinations in these participants. Discussion: These results demonstrate a selective relationship between the occurrence of visual (but not auditory) hallucinations and the ability to generate vivid visual images in AD.

Published

2019

15. Action dual tasks reveal differential effects of visual imagery perspectives on motor performance.

Author

Callow N, Edwards MG, Jones AL, Hardy L, and Connell S

Subjects

Adult, Eye Movement Measurements, Female, Humans, Male, Young Adult, Executive Function physiology, Imagination physiology, Motor Activity physiology, Psychomotor Performance physiology, Visual Perception physiology

Abstract

Imagery research has identified two main visual perspectives, external visual imagery (EVI, third person) and internal visual imagery (IVI, first person). Based upon findings from brain imaging literature showing that different neural substrates are recruited for IVI and EVI perspectives, and that IVI activates motor system brain areas, we hypothesised that a concurrent action dual task would cause greater interference in performance for IVI than EVI. In a first experiment, participants were allocated to either an IVI or an EVI group, and were tasked with moving an onscreen marker towards a target in three blocked conditions: imagery, imagery with a concurrent motor dual-task of sequencing, and a math control. An interaction between imagery group and condition was driven by greater root mean square error for participants in the dual-task condition in the IVI group compared with the EVI group. We replicated the experiment with an eye-tracking objective measure of IVI; the results again showed that participants in the IVI group made more errors in motor movements, and an interference effect in eye movements, during the dual-task sequencing condition compared with the EVI group. The results of the two experiments reveal that a secondary motor task does interfere with IVI, providing behavioural evidence that IVI appears to rely on motor system processes more than EVI. These results have important implications for the use of visual imagery perspectives across a number of domains, with this paper being an essential reference for those conducting visual imagery perspectives research.

Published

2019

16. Visual imagery: The past and future as seen by patients with Alzheimer's disease.

Author

El Haj M, Moustafa AA, Gallouj K, and Robin F

Subjects

Aged, Female, Humans, Male, Alzheimer Disease physiopathology, Imagination physiology, Memory, Episodic, Thinking physiology, Visual Perception physiology

Abstract

We investigated visual imagery for past and future thinking in Alzheimer's Disease (AD). We invited AD patients and controls to retrieve past events and to imagine future events. Participants also provided a "Field" response if they see the event through their own eyes, or an "Observer" response if they see themselves in the scene as a spectator would. Less "Field" and more "Observer" responses were observed in AD participants than in controls during past and future thinking, suggesting a diminished ability to mentally visualize past and future events in AD. Results also demonstrated significant positive correlations between the production of "Field" responses and specificity during past and future thinking, suggesting a relationship between the ability to mentally visualize past and future events and autobiographical overgenerality in AD., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

17. The blind mind: No sensory visual imagery in aphantasia.

Author

Keogh R and Pearson J

Subjects

Adult, Aged, Female, Humans, Imagination, Male, Middle Aged, Photic Stimulation methods, Surveys and Questionnaires, Cognition physiology, Imagery, Psychotherapy, Individuality, Visual Perception physiology

Abstract

For most people the use of visual imagery is pervasive in daily life, but for a small group of people the experience of visual imagery is entirely unknown. Research based on subjective phenomenology indicates that otherwise healthy people can completely lack the experience of visual imagery, a condition now referred to as aphantasia. As congenital aphantasia has thus far been based on subjective reports, it remains unclear whether individuals are really unable to imagine visually, or if they have very poor metacognition - they have images in their mind, but are blind to them. Here we measured sensory imagery in subjectively self-diagnosed aphantasics, using the binocular rivalry paradigm, as well as measuring their self-rated object and spatial imagery with multiple questionnaires (VVIQ, SUIS and OSIQ). Unlike, the general population, experimentally naive aphantasics showed almost no imagery-based rivalry priming. Aphantasic participants' self-rated visual object imagery was significantly below average, however their spatial imagery scores were above average. These data suggest that aphantasia is a condition involving a lack of sensory and phenomenal imagery, and not a lack of metacognition. The possible underlying neurological cause of aphantasia is discussed as well as future research directions., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

18. Different representations and strategies in mental rotation.

Author

Zhao B and Sala SD

Subjects

Adult, Female, Humans, Individuality, Male, Rotation, Young Adult, Imagination physiology, Space Perception physiology, Visual Perception physiology

Abstract

It is still debated whether holistic or piecemeal transformation is applied to carry out mental rotation (MR) as an aspect of visual imagery. It has been recently argued that various mental representations could be flexibly generated to perform MR tasks. To test the hypothesis that imagery ability and types of stimuli interact to affect the format of representation and the choice of strategy in performing MR task, participants, grouped as good or poor imagers, were assessed using four MR tasks, comprising two sets of 'Standard' cube figures and two sets of 'non-Standard' ones, designed by withdrawing cubes from the Standard ones. Both good and poor imagers performed similarly under the two Standard conditions. Under non-Standard conditions, good imagers performed much faster in non-Standard objects than Standard ones, whereas poor imagers performed much slower in non-Standard objects than Standard ones. These results suggested that (1) individuals did not differ in processing the integrated Standard object, whereas (2) in processing the non-Standard objects, various visual representations and strategies could be applied in MR by diverse individuals: Good imagers were more flexible in generating different visual representations, whereas poor imagers applied different strategies under different task demands.

Published

2018

19. Mental imagery of gravitational motion.

Author

Gravano S, Zago M, and Lacquaniti F

Subjects

Adult, Female, Humans, Male, Middle Aged, Motion, Psychomotor Performance physiology, Reaction Time physiology, Young Adult, Gravitation, Imagination physiology, Motion Perception physiology, Visual Perception physiology

Abstract

There is considerable evidence that gravitational acceleration is taken into account in the interaction with falling targets through an internal model of Earth gravity. Here we asked whether this internal model is accessed also when target motion is imagined rather than real. In the main experiments, naïve participants grasped an imaginary ball, threw it against the ceiling, and caught it on rebound. In different blocks of trials, they had to imagine that the ball moved under terrestrial gravity (1g condition) or under microgravity (0g) as during a space flight. We measured the speed and timing of the throwing and catching actions, and plotted ball flight duration versus throwing speed. Best-fitting duration-speed curves estimate the laws of ball motion implicit in the participant's performance. Surprisingly, we found duration-speed curves compatible with 0g for both the imaginary 0g condition and the imaginary 1g condition, despite the familiarity with Earth gravity effects and the added realism of performing the throwing and catching actions. In a control experiment, naïve participants were asked to throw the imaginary ball vertically upwards at different heights, without hitting the ceiling, and to catch it on its way down. All participants overestimated ball flight durations relative to the durations predicted by the effects of Earth gravity. Overall, the results indicate that mental imagery of motion does not have access to the internal model of Earth gravity, but resorts to a simulation of visual motion. Because visual processing of accelerating/decelerating motion is poor, visual imagery of motion at constant speed or slowly varying speed appears to be the preferred mode to perform the tasks., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

20. Reduced effects of pictorial distinctiveness on false memory following dynamic visual noise.

Author

Parker A, Kember T, and Dagnall N

Subjects

Humans, Memory, Episodic, Neuropsychological Tests, Pattern Recognition, Visual physiology, Photic Stimulation, Cognition physiology, Memory physiology, Repression, Psychology, Visual Perception physiology

Abstract

High levels of false recognition for non-presented items typically occur following exposure to lists of associated words. These false recognition effects can be reduced by making the studied items more distinctive by the presentation of pictures during encoding. One explanation of this is that during recognition, participants expect or attempt to retrieve distinctive pictorial information in order to evaluate the study status of the test item. If this involves the retrieval and use of visual imagery, then interfering with imagery processing should reduce the effectiveness of pictorial information in false memory reduction. In the current experiment, visual-imagery processing was disrupted at retrieval by the use of dynamic visual noise (DVN). It was found that effects of DVN dissociated true from false memory. Memory for studied words was not influenced by the presence of an interfering noise field. However, false memory was increased and the effects of picture-induced distinctiveness was eliminated. DVN also increased false recollection and remember responses to unstudied items.

Published

2017

21. Domain-specific reports of visual imagery vividness are not related to perceptual expertise.

Author

Sunday M, McGugin RW, and Gauthier I

Subjects

Adult, Female, Humans, Male, Surveys and Questionnaires, Imagination, Professional Competence, Visual Perception

Abstract

Just as people vary in their perceptual expertise with a given domain, they also vary in their abilities to imagine objects. Visual imagery and perception share common mechanisms. However, it is unclear whether domain-specific expertise is relevant to visual imagery. Although the vividness of visual imagery is typically measured as a domain-general construct, a component of this vividness may be domain-specific. For example, individuals who have gained perceptual expertise with a specific domain might experience clearer mental images within this domain. Here we investigated whether perceptual expertise for cars relates to visual imagery vividness in the same domain, by assessing the correlations between a widely used domain-general measure of visual imagery vividness (the Vividness of Visual Imagery Questionnaire; Marks in British Journal of Psychology, 64, 17-24, 1973), a new measure of visual imagery vividness specific to cars, and behavioral tests of car expertise. We found that domain-specific imagery relates most strongly to general imagery vividness and less strongly to self-reported expertise, while it does not relate to perceptual or semantic expertise.

Published

2017

22. Direct and generative retrieval of autobiographical memories: The roles of visual imagery and executive processes.

Author

Anderson RJ, Dewhurst SA, and Dean GM

Subjects

Adolescent, Adult, Female, Humans, Male, Young Adult, Executive Function physiology, Imagination physiology, Memory, Episodic, Memory, Short-Term physiology, Mental Recall physiology, Visual Perception physiology

Abstract

Two experiments used a dual task methodology to investigate the role of visual imagery and executive resources in the retrieval of specific autobiographical memories. In Experiment 1, dynamic visual noise led to a reduction in the number of specific memories retrieved in response to both high and low imageability cues, but did not affect retrieval times. In Experiment 2, irrelevant pictures reduced the number of specific memories but only in response to low imageability cues. Irrelevant pictures also increased response times to both high and low imageability cues. The findings are in line with previous work suggesting that disrupting executive resources may impair generative, but not direct, retrieval of autobiographical memories. In contrast, visual distractor tasks appear to impair access to specific autobiographical memories via both the direct and generative retrieval routes, thereby highlighting the potential role of visual imagery in both pathways., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

23. Distressing visual mental images in depressed patients and healthy controls - Are they one and the same?

Author

Weßlau C, Lieberz K, Oertel-Knöchel V, and Steil R

Subjects

Adult, Female, Humans, Male, Middle Aged, Depressive Disorder physiopathology, Imagination physiology, Visual Perception physiology

Abstract

Negative mental images are common in a range of mental disorders. So far, only inconclusive evidence has been obtained for depression specificity. We assessed the disparities and similarities of a variety of imagery characteristics in 17 patients suffering from depressive disorders and 17 healthy matched controls who all reported negative mental images. The number of intrusive images, their frequency, and the associated distress were significantly greater for the depressed individuals. Compared with non-depressed controls, negative images during depression were more frequently triggered by internal factors and led to depression-related emotions. Approximately 30% of the images in the depressed group did not consist of actual memories of real-life events. No significant differences in vividness or perceived controllability were observed, but the depressed patients experienced significantly more bodily symptoms during the intrusions than the healthy controls. The results indicate that the central characteristics of the negative mental images of depressed and non-depressed individuals are distinguishable, despite some similarities, and may contribute to depressive symptoms., (Copyright © 2016. Published by Elsevier Ireland Ltd.)

Published

2016

24. Brain activation profiles during kinesthetic and visual imagery: An fMRI study.

Author

Kilintari M, Narayana S, Babajani-Feremi A, Rezaie R, and Papanicolaou AC

Subjects

Adolescent, Adult, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Motor Cortex physiology, Movement, Psychomotor Performance, Young Adult, Brain physiology, Imagination physiology, Kinesthesis, Visual Perception physiology

Abstract

The aim of this study was to identify brain regions involved in motor imagery and differentiate two alternative strategies in its implementation: imagining a motor act using kinesthetic or visual imagery. Fourteen adults were precisely instructed and trained on how to imagine themselves or others perform a movement sequence, with the aim of promoting kinesthetic and visual imagery, respectively, in the context of an fMRI experiment using block design. We found that neither modality of motor imagery elicits activation of the primary motor cortex and that each of the two modalities involves activation of the premotor area which is also activated during action execution and action observation conditions, as well as of the supplementary motor area. Interestingly, the visual and the posterior cingulate cortices show reduced BOLD signal during both imagery conditions. Our results indicate that the networks of regions activated in kinesthetic and visual imagery of motor sequences show a substantial, while not complete overlap, and that the two forms of motor imagery lead to a differential suppression of visual areas., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

25. Smaller Primary Visual Cortex Is Associated with Stronger, but Less Precise Mental Imagery.

Author

Bergmann J, Genç E, Kohler A, Singer W, and Pearson J

Subjects

Adolescent, Adult, Female, Humans, Male, Nerve Net anatomy & histology, Nerve Net physiology, Young Adult, Cognition physiology, Imagination physiology, Task Performance and Analysis, Visual Cortex anatomy & histology, Visual Cortex physiology, Visual Perception physiology

Abstract

Despite mental imagery's ubiquitous role in human perception, cognition and behavior, one standout question remains unanswered: Why does imagery vary so much from one individual to the next? Here, we used a behavioral paradigm that measures the functional impact of a mental image on subsequent conscious perception and related these measures to the anatomy of the early visual cortex estimated by fMRI retinotopic mapping. We observed a negative relationship between primary visual cortex (V1) surface area and sensory imagery strength, but found positive relationships between V1 and imagery precision (spatial location and orientation). Hence, individuals with a smaller V1 tended to have stronger, but less precise imagery. In addition, subjective vividness of imagery was positively related to prefrontal cortex volume, but unrelated to V1 anatomy. Our findings present the first evidence for the importance of the V1 layout in shaping the strength of human imagination., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

26. Functional neuroimaging of visual creativity: a systematic review and meta-analysis.

Author

Pidgeon LM, Grealy M, Duffy AH, Hay L, McTeague C, Vuletic T, Coyle D, and Gilbert SJ

Subjects

Brain diagnostic imaging, Functional Neuroimaging, Humans, Brain physiology, Creativity, Imagination physiology, Visual Perception physiology

Abstract

Introduction: The generation of creative visual imagery contributes to technological and scientific innovation and production of visual art. The underlying cognitive and neural processes are, however, poorly understood., Methods: This review synthesizes functional neuroimaging studies of visual creativity. Seven functional magnetic resonance imaging (fMRI) and 19 electroencephalography (EEG) studies were included, comprising 27 experiments and around 800 participants., Results: Activation likelihood estimation meta-analysis of the fMRI studies comparing visual creativity to non-rest control tasks yielded significant clusters in thalamus, left fusiform gyrus, and right middle and inferior frontal gyri. The EEG studies revealed a tendency for decreased alpha power during visual creativity compared to baseline, but comparisons of visual creativity to non-rest control tasks revealed inconsistent findings., Conclusions: The findings are consistent with suggested contributions to visual creativity of prefrontally mediated inhibition, evaluation, and working memory, as well as visual imagery processes. Findings are discussed in relation to prominent theories of the neural basis of creativity.

Published

2016

27. Dynamic interactions of the cortical networks during thought suppression.

Author

Aso T, Nishimura K, Kiyonaka T, Aoki T, Inagawa M, Matsuhashi M, Tobinaga Y, and Fukuyama H

Subjects

Adult, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Young Adult, Attention physiology, Executive Function physiology, Frontal Lobe physiology, Imagination physiology, Inhibition, Psychological, Nerve Net physiology, Parietal Lobe physiology, Thinking physiology, Visual Perception physiology

Abstract

Objectives: Thought suppression has spurred extensive research in clinical and preclinical fields, particularly with regard to the paradoxical aspects of this behavior. However, the involvement of the brain's inhibitory system in the dynamics underlying the continuous effort to suppress thoughts has yet to be clarified. This study aims to provide a unified perspective for the volitional suppression of internal events incorporating the current understanding of the brain's inhibitory system., Materials and Methods: Twenty healthy volunteers underwent functional magnetic resonance imaging while they performed thought suppression blocks alternating with visual imagery blocks. The whole dataset was decomposed by group-independent component analysis into 30 components. After discarding noise components, the 20 valid components were subjected to further analysis of their temporal properties including task-relatedness and between-component residual correlation., Results: Combining a long task period and a data-driven approach, we observed a right-side-dominant, lateral frontoparietal network to be strongly suppression related. This network exhibited increased fluctuation during suppression, which is compatible with the well-known difficulty of suppression maintenance., Conclusions: Between-network correlation provided further insight into the coordinated engagement of the executive control and dorsal attention networks, as well as the reciprocal activation of imagery-related components, thus revealing neural substrates associated with the rivalry between intrusive thoughts and the suppression process.

Published

2016

28. Spontaneous ocular positioning during visual imagery in patients with hemianopia and/or hemineglect.

Author

Fourtassi M, Rode G, Tilikete C, and Pisella L

Subjects

Adult, Aged, Female, Hemianopsia diagnostic imaging, Humans, Male, Middle Aged, Perceptual Disorders diagnostic imaging, Photic Stimulation, Spatial Processing, Functional Laterality physiology, Hemianopsia complications, Imagination physiology, Perceptual Disorders complications, Vision, Ocular physiology, Visual Perception physiology

Abstract

Spontaneous eye movements during imagery are not random and can be used to study and reveal mental visualization processes (Fourtassi et al., 2013; Johansson et al. 2006). For example, we previously showed that during memory recall of French towns via imagery healthy individuals looks straight ahead when recalling Paris and their subsequent gaze positions are significantly correlated with the real GPS coordinates of the recalled towns. This correlation suggests that memory retrieval is done via depictive representations as it is never found when the towns are recalled using verbal fluency. In the present paper we added to this finding by showing that the mental image is spontaneously centered on the head or body midline. In order to investigate the capacities of visual imagery in patients, and by extension, the role of primary visual cortex and fronto-parietal cortex in spatial visual imagery, we recorded gaze positions during memory recall of French towns in an imagery task, a non-imagery task (verbal fluency), and a visually-guided task in five patients with left or right hemianopia and in four patients with hemineglect (two with left hemianopia and two without). The correlation between gaze position and real GPS coordinates of the recalled towns was significant in all hemianopic patients, but in patients with hemineglect this was only the case for towns located on the right half of the map of France. This suggests hemianopic patients can perform spatially consistent mental imagery despite direct or indirect unilateral lesions of the primary visual cortex. In contrast, the left-sided towns recalled by hemineglect patients, revealed that they have some spatial inconsistency or representational difficulty. Hemianopic patients positioned and maintained their gaze in their contralesional hemispace, suggesting that their mental map was not centered on their head or body midline. This contralesional gaze positioning appeared to be a general compensation strategy and was not observed in patients with neglect (with or without hemianopia). Instead, neglect patients positioned their gaze in their ipsilesional hemispace and only when performing the visual imagery task. These findings are discussed in the context of the role of occipital and fronto-parietal cortices in the neuroanatomical model of visual imagery developed by Kosslyn et al. (2006)., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

29. Visual imagery in autobiographical memory: The role of repeated retrieval in shifting perspective.

Author

Butler AC, Rice HJ, Wooldridge CL, and Rubin DC

Subjects

Adult, Humans, Young Adult, Imagination physiology, Memory, Episodic, Mental Recall physiology, Visual Perception physiology

Abstract

Recent memories are generally recalled from a first-person perspective whereas older memories are often recalled from a third-person perspective. We investigated how repeated retrieval affects the availability of visual information, and whether it could explain the observed shift in perspective with time. In Experiment 1, participants performed mini-events and nominated memories of recent autobiographical events in response to cue words. Next, they described their memory for each event and rated its phenomenological characteristics. Over the following three weeks, they repeatedly retrieved half of the mini-event and cue-word memories. No instructions were given about how to retrieve the memories. In Experiment 2, participants were asked to adopt either a first- or third-person perspective during retrieval. One month later, participants retrieved all of the memories and again provided phenomenology ratings. When first-person visual details from the event were repeatedly retrieved, this information was retained better and the shift in perspective was slowed., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

30. Partial dissociation in the neural bases of VSTM and imagery in the early visual cortex.

Author

Saad E, Wojciechowska M, and Silvanto J

Subjects

Adult, Female, Humans, Male, Transcranial Magnetic Stimulation, Young Adult, Imagination physiology, Memory, Short-Term physiology, Visual Cortex physiology, Visual Perception physiology

Abstract

Visual short-term memory (VSTM) and visual imagery are believed to involve overlapping neuronal representations in the early visual cortex. While a number of studies have provided evidence for this overlap, at the behavioral level VSTM and imagery are dissociable processes; this begs the question of how their neuronal mechanisms differ. Here we used transcranial magnetic stimulation (TMS) to examine whether the neural bases of imagery and VSTM maintenance are dissociable in the early visual cortex (EVC). We intentionally used a similar task for VSTM and imagery in order to equate their assessment. We hypothesized that any differential effect of TMS on VSTM and imagery would indicate that their neuronal bases differ at the level of EVC. In the "alone" condition, participants were asked to engage either in VSTM or imagery, whereas in the "concurrent" condition, each trial required both VSTM maintenance and imagery simultaneously. A dissociation between VSTM and imagery was observed for reaction times: TMS slowed down responses for VSTM but not for imagery. The impact of TMS on sensitivity did not differ between VSTM and imagery, but did depend on whether the tasks were carried concurrently or alone. This study shows that neural processes associated with VSTM and imagery in the early visual cortex can be partially dissociated., (Copyright © 2015 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2015

31. Self-regulation of inter-hemispheric visual cortex balance through real-time fMRI neurofeedback training.

Author

Robineau F, Rieger SW, Mermoud C, Pichon S, Koush Y, Van De Ville D, Vuilleumier P, and Scharnowski F

Subjects

Adult, Female, Humans, Magnetic Resonance Imaging, Male, Young Adult, Functional Laterality physiology, Functional Neuroimaging methods, Neurofeedback physiology, Visual Cortex physiology, Visual Perception physiology

Abstract

Recent advances in neurofeedback based on real-time functional magnetic resonance imaging (fMRI) allow for learning to control spatially localized brain activity in the range of millimeters across the entire brain. Real-time fMRI neurofeedback studies have demonstrated the feasibility of self-regulating activation in specific areas that are involved in a variety of functions, such as perception, motor control, language, and emotional processing. In most of these previous studies, participants trained to control activity within one region of interest (ROI). In the present study, we extended the neurofeedback approach by now training healthy participants to control the interhemispheric balance between their left and right visual cortices. This was accomplished by providing feedback based on the difference in activity between a target visual ROI and the corresponding homologue region in the opposite hemisphere. Eight out of 14 participants learned to control the differential feedback signal over the course of 3 neurofeedback training sessions spread over 3 days, i.e., they produced consistent increases in the visual target ROI relative to the opposite visual cortex. Those who learned to control the differential feedback signal were subsequently also able to exert that control in the absence of neurofeedback. Such learning to voluntarily control the balance between cortical areas of the two hemispheres might offer promising rehabilitation approaches for neurological or psychiatric conditions associated with pathological asymmetries in brain activity patterns, such as hemispatial neglect, dyslexia, or mood disorders., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

32. Phantabulation: a case of visual imagery interference on visual perception.

Author

Cocchini G, Lello O, McIntosh RD, and Della Sala S

Subjects

Humans, Male, Middle Aged, Hallucinations etiology, Imagination, Intracranial Aneurysm complications, Intracranial Aneurysm psychology, Visual Perception

Abstract

We report the case of a 52-year old man who, following rupture of an anterior communicating artery aneurysm, presented with a phenomenon not previously described, which we have labelled "Phantabulation." Phantabulation is characterized by frequent and purposeful interactions with contextually appropriate imagined objects. We suggest that this phenomenon results from confusion between real and imagined objects, caused by failure to inhibit florid visual imagery, facilitated by cortical release mechanisms.

Published

2014

33. Feasibility of decoding visual information from EEG.

Author

Wilson, Holly, Chen, Xi, Golbabaee, Mohammad, Proulx, Michael J., and O'Neill, Eamonn

Subjects

*VISUAL perception, *COMPUTER interfaces, *SPATIAL resolution, *BATHYMETRY, *MACHINE learning

Abstract

Decoding visual information, such as visual imagery and perception, from EEG data can be used to improve understanding of the neural representation of visual information and to provide commands for BCI systems. The appeal of EEG as a neuroimaging tool lies in its high temporal resolution, cost-effectiveness, and portability. Nevertheless, the feasibility of using EEG for visual information decoding remains a subject of ongoing inquiry. In this review, we explore the neural correlates of this visual information, specifically focusing on visual features such as colour, shapes, texture, and also naturalistic whole objects. We begin to examine which visual features can be effectively measured using EEG, taking into account its inherent characteristics, such as its measurement depth, limited spatial resolution, and high temporal resolution. Using a systematic approach, the review provides an in-depth analysis of the current state-of-the-art in EEG-based decoding of visual features for BCI purposes. Finally, we address some potential methodological improvements that can be made to the experimental design in EEG visual information decoding studies, such as palette cleansing, augmentation to bolster dataset size, and fusion of neuroimaging techniques. [ABSTRACT FROM AUTHOR]

Published

2024

34. Evaluating the Feasibility of Visual Imagery for an EEG-Based Brain–Computer Interface

Author

Justin Kilmarx, Ivan Tashev, Jose del R. Millan, James Sulzer, and Jarrod Lewis-Peacock

Subjects

Brain-computer interface, visual imagery, visual perception, electroencephalography, Medical technology, R855-855.5, Therapeutics. Pharmacology, RM1-950

Abstract

Visual imagery, or the mental simulation of visual information from memory, could serve as an effective control paradigm for a brain-computer interface (BCI) due to its ability to directly convey the user’s intention with many natural ways of envisioning an intended action. However, multiple initial investigations into using visual imagery as a BCI control strategies have been unable to fully evaluate the capabilities of true spontaneous visual mental imagery. One major limitation in these prior works is that the target image is typically displayed immediately preceding the imagery period. This paradigm does not capture spontaneous mental imagery as would be necessary in an actual BCI application but something more akin to short-term retention in visual working memory. Results from the present study show that short-term visual imagery following the presentation of a specific target image provides a stronger, more easily classifiable neural signature in EEG than spontaneous visual imagery from long-term memory following an auditory cue for the image. We also show that short-term visual imagery and visual perception share commonalities in the most predictive electrodes and spectral features. However, visual imagery received greater influence from frontal electrodes whereas perception was mostly confined to occipital electrodes. This suggests that visual perception is primarily driven by sensory information whereas visual imagery has greater contributions from areas associated with memory and attention. This work provides the first direct comparison of short-term and long-term visual imagery tasks and provides greater insight into the feasibility of using visual imagery as a BCI control strategy.

Published

2024

35. The cost of changing language context: The language-dependent recall of fictional stories.

Author

Bilgin, Ezgi, Adıgüzel, Zeynep, Göksun, Tilbe, and Gülgöz, Sami

Subjects

*MEMORY, *STATISTICAL power analysis, *PHONOLOGICAL awareness, *COMMUNICATIVE competence, *VISUAL perception, *SOUND recordings, *DESCRIPTIVE statistics, *QUESTIONNAIRES, *LATENT semantic analysis, *ENGLISH as a foreign language, *STATISTICAL sampling, *STORYTELLING, *FALSE memory syndrome, *MEDICAL coding

Abstract

Language-dependent recall refers to the language-specific retrieval of memories in which the retrieval success depends on the match between the languages of encoding and retrieval. The present study investigated language-dependent recall in terms of memory accuracy, false memory, and episodic memory characteristics in the free recall of fictional stories. We also asked how language-dependent memories were influenced by language proficiency and visual imagery. One hundred and thirty-seven native Turkish (L1) speakers who were second-language learners of English (L2) were divided into four groups in which they read fictional stories and then recalled them: (1) Turkish reading–Turkish recall, (2) English reading–English recall, (3) English reading–Turkish recall, (4) Turkish reading–English recall. Regardless of the match between L1 or L2, accuracy was higher when participants read and recalled the stories in the same language than when they did it in different languages, showing the language-dependent recall effect. Notably, the effect of match or mismatch between encoding and retrieval languages on accuracy did not depend on L2 proficiency and visual imagery. In addition, false memories were salient, particularly for participants who read the stories in L2 but retrieved them in L1. Overall, our findings suggest that accuracy-oriented memory research provides a comprehensive investigation of language-dependent recall, addressing the links of language-dependent memories with accuracy, false memory, and episodic memory characteristics. [ABSTRACT FROM AUTHOR]

Published

2023

36. Visual imagery deficits in posterior cortical atrophy.

Author

Dietz, Connor D., Albonico, Andrea, Tree, Jeremy J., and Barton, Jason J. S.

Subjects

*CEREBRAL atrophy, *OBJECT recognition (Computer vision), *RECOGNITION (Psychology), *VISUAL perception, *STROKE, *VISION disorders

Abstract

Visual imagery has a close overlapping relationship with visual perception. Posterior cortical atrophy (PCA) is a neurodegenerative syndrome marked by early impairments in visuospatial processing and visual object recognition. We asked whether PCA would therefore also be marked by deficits in visual imagery, tested using objective forced-choice questionnaires, and whether imagery deficits would be selective for certain properties. We recruited four patients with PCA and a patient with integrative visual agnosia due to bilateral occipitotemporal strokes for comparison. We administered a test battery probing imagery for object shape, size, colour lightness, hue, upper-case letters, lower-case letters, word shape, letter construction, and faces. All subjects showed significant impairments in visual imagery, with imagery for lower-case letters most likely to be spared. We conclude that PCA subjects can show severe deficits in visual imagery. Further work is needed to establish how frequently this occurs and how early it can be found. [ABSTRACT FROM AUTHOR]

Published

2023

37. Preferential signal pathways during the perception and imagery of familiar scenes: An effective connectivity study.

Author

Tullo, Maria Giulia, Almgren, Hannes, Van de Steen, Frederik, Boccia, Maddalena, Bencivenga, Federica, and Galati, Gaspare

Subjects

*FUNCTIONAL magnetic resonance imaging, *CINGULATE cortex, *CELLULAR signal transduction, *VISUAL perception, *VISUAL cortex

Abstract

The perception and imagery of landmarks activate similar content‐dependent brain areas, including occipital and temporo‐medial brain regions. However, how these areas interact during visual perception and imagery of scenes, especially when recollecting their spatial location, remains unknown. Here, we combined functional magnetic resonance imaging (fMRI), resting‐state functional connectivity (rs‐fc), and effective connectivity to assess spontaneous fluctuations and task‐induced modulation of signals among regions entailing scene‐processing, the primary visual area and the hippocampus (HC), responsible for the retrieval of stored information. First, we functionally defined the scene‐selective regions, that is, the occipital place area (OPA), the retrosplenial complex (RSC) and the parahippocampal place area (PPA), by using the face/scene localizer, observing that two portions of the PPA—anterior and posterior PPA—were consistently activated in all subjects. Second, the rs‐fc analysis (n = 77) revealed a connectivity pathway similar to the one described in macaques, showing separate connectivity routes linking the anterior PPA with RSC and HC, and the posterior PPA with OPA. Third, we used dynamic causal modelling to evaluate whether the dynamic couplings among these regions differ between perception and imagery of familiar landmarks during a fMRI task (n = 16). We found a positive effect of HC on RSC during the retrieval of imagined places and an effect of occipital regions on both RSC and pPPA during the perception of scenes. Overall, we propose that under similar functional architecture at rest, different neural interactions take place between regions in the occipito‐temporal higher‐level visual cortex and the HC, subserving scene perception and imagery. [ABSTRACT FROM AUTHOR]

Published

2023

38. Automated Preprocessing Pipeline in Visual Imagery Tasks

Author

Rosero-Rodríguez, Christian Camilo, Alfonso-Morales, Wilfredo, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Orjuela-Cañón, Alvaro David, editor, Lopez, Jesus A., editor, Arias-Londoño, Julián David, editor, and Figueroa-García, Juan Carlos, editor

Published

2022

39. Black hole algorithm with convolutional neural networks for the creation of brain-computer interface based in visual perception and visual imagery.

Author

Llorella, Fabio R., Azorín, José M., and Patow, Gustavo

Subjects

*CONVOLUTIONAL neural networks, *VISUAL perception, *BRAIN-computer interfaces, *BLACK holes, *MOTOR imagery (Cognition)

Abstract

Non-invasive brain-computer interfaces can be implemented through different paradigms, the most used one being motor imagery and evoked potentials, although recently there has been an interest in paradigms based on perception and visual imagery. Following this approach, this work demonstrates the classification of visual imagery, visual perception and also the possibility of knowledge transfer between these two domains from EEG signals using convolutional neural networks. Also, we propose an adequate framework for such classification, which uses convolutional neural networks and the black hole heuristic algorithm for the search for optimal neural network structures. [ABSTRACT FROM AUTHOR]

Published

2023

40. WAVES: A Novel Test to Evaluate Visuospatial Construction Ability in a School-aged Population.

Author

DI CESARE, FRANCO, DI CARLO, CRISTIANA, and DI CESARE, LEONARDO

Subjects

RESEARCH evaluation, PSYCHOMETRICS, STUDENTS, SCHOOLS, VISUAL perception, DESCRIPTIVE statistics, RESEARCH funding, QUESTIONNAIRES, SPACE perception

Abstract

Objective: The paucity of valid diagnostic tools is one of the challenges preventing the effective implementation of child cognitive health testing in Sub-Saharan developing countries. WAVES addresses the need for new psychometric tests to evaluate visuospatial construction ability in a school-aged population. WAVES involves the standardized administration of a copy design task that is sequentially repeated by four distinct reproduction modalities: copy design with open eyes (CDO), immediate reproduction from memory with open eyes (IRMO), immediate reproduction from memory with closed eyes (IRMC), and delayed reproduction from memory with closed eyes (DRMC). Design: WAVES reliability and validity were assessed in a field trial using Classical Test Theory or Item Response Theory (IRT) methods. A total of 445 children, aged 5 to 17 years old, were recruited at multiple Zambian clinical sites and schools. Results: WAVES provides a visuographomotor construction processing (VGCP) index and three subscale inaccuracy of reproduction scores: perseveration, decreased spacing, and changing direction difficulty (CDD). WAVES scores depended on age and showed an age-related increase of reproduction accuracy. Altered visuospatial construction, as indicated by higher scores, was associated with poor health status (i.e., chronic neurologic or medical disease or prolonged exposure to psychosocial stress and deprivation). Reliability estimates, expressed as an intraclass correlation coefficient (ICC; 95% confidence interval [CI]), at test-retest (n=86) were: VGCP Index: 0.94 (0.91, 0.96); perseveration: 0.76 (0.62, 0.84); decreased spacing: 0.86 (0.79, 0.91); and CDD: 0.93 (0.89, 0.95). Conclusion: WAVES has potential for clinical utility in evaluating the effect of different health conditions on visuospatial construction ability. Study results warrant further research to validate its use in healthcare and clinical research settings. [ABSTRACT FROM AUTHOR]

Published

2023

41. Cognitive-Semantic Concept Structuring in Visual Perception and Visual Imagery: Identifying a New Basic Top-Down Processing System for Visual Experience.

Author

Stocker, Kurt

Subjects

CONCEPTUAL structures

Abstract

Visual experience encompasses both visual perception and visual imagery. Using cognitive-semantic analysis, it is outlined how visual experience can be characterized as involving (among other top-down processes) a basic top-down-processing system that is organized by fundamental aspects of the four main Talmyan concept structuring systems (fundamental aspects of configurational structure, perspective, attention, and—not in principle, but quite often—force dynamics). It is proposed that this visual concept structuring represents a thus far unidentified basic top-down-processing system of visual experience which structures the conceptual content of the visual/imagistic stimulus. While Talmyan concept structuring has in the literature thus far mainly been applied to language, the main conclusion of this paper is that Talmyan concept structuring is a basic component of visual top-down processing even when language is not involved. Implications for sensory modalities other than the visual one are discussed, and possible future research is formulated. [ABSTRACT FROM AUTHOR]

Published

2023

42. Negative Color Aftereffect in the Absence of a Colored Stimulus.

Author

Sivkovich Fagin, Oksana and Mack, Arien

Subjects

*FIGURAL aftereffects, *COLOR vision, *AFTER-images, *AFTER-sensations, *VISUAL perception

Abstract

Negative color aftereffects normally occur following prolonged observation of colored surfaces and are generally attributed to sensory adaptation of opponent processes responsible for color vision. We describe evidence that negative color aftereffects, no different from those that occur when actually viewing red, are perceived in the complete absence of a colored stimulus by highly suggestible persons who are hypnotized and hallucinate seeing red. Highly suggestible participants also excel at imagining color although this is less likely to generate an aftereffect suggesting that there is more to hallucinating than imagining. Our results are clear evidence that sensory adaptation is not necessary for negative color aftereffects. [ABSTRACT FROM AUTHOR]

Published

2022

43. Visuospatial Cognition

Author

Buening, Jonathan, Brown, Rhonda Douglas, and Brown, Rhonda Douglas

Published

2018

44. Reduced visual acuity is mirrored in low vision imagery.

Author

Arditi, Aries, Legge, Gordon, Granquist, Christina, Gage, Rachel, and Clark, Dawn

Subjects

*BRAIN physiology, *VISUAL fields, *LOW vision, *OCCIPITAL lobe, *IMAGINATION, *VISUAL acuity, *VISUAL perception, *QUESTIONNAIRES, *AGE factors in disease, *VISION disorders

Abstract

Research has examined the nature of visual imagery in normally sighted and blind subjects, but not in those with low vision. Findings with normally sighted subjects suggest that imagery involves primary visual areas of the brain. Since the plasticity of visual cortex appears to be limited in adulthood, we might expect imagery of those with adult‐onset low vision to be relatively unaffected by these losses. But if visual imagery is based on recent and current experience, we would expect images of those with low vision to share some properties of impaired visual perception. We examined key parameters of mental images reported by normally sighted subjects, compared to those with early‐ and late‐onset low vision, and with a group of subjects with restricted visual fields using an imagery questionnaire. We found evidence that those with reduced visual acuity report the imagery distances of objects to be closer than those with normal acuity and also depict objects in imagery with lower resolution than those with normal visual acuity. We also found that all low vision groups, like the normally sighted, image objects at a substantially greater distance than when asked to place them at a distance that 'just fits' their imagery field (overflow distance). All low vision groups, like the normally sighted, showed evidence of a limited visual field for imagery, but our group with restricted visual fields did not differ from the other groups in this respect. We conclude that imagery of those with low vision is similar to that of those with normal vision in being dependent on the size of objects or features being imaged, but that it also reflects their reduced visual acuity. We found no evidence for a dependence on imagery of age of onset or number of years of vision impairment. [ABSTRACT FROM AUTHOR]

Published

2021

45. No verbal overshadowing in aphantasia: The role of visual imagery for the verbal overshadowing effect.

Author

Monzel, Merlin, Handlogten, Jennifer, and Reuter, Martin

Subjects

*STIMULUS & response (Psychology), *MENTAL representation, *MENTAL imagery, *RECOGNITION (Psychology), *VISUAL perception

Abstract

The verbal overshadowing effect refers to the phenomenon that the verbal description of a past complex stimulus impairs its subsequent recognition. Theoretical explanations range from interference between different mental representations to the activation of different processing orientations or a provoked shift in the recognition criterion. In our study, 61 participants with aphantasia (= lack of mental imagery) and 70 controls participated in a verbal overshadowing paradigm. The verbal overshadowing effect did not occur in people with aphantasia, although the effect was replicated in controls. We speculate that this is either due to the lack of visual representations in people with aphantasia that verbal descriptions could interfere with, or to the absence of a shift in processing orientation during verbalisation. To rule out criterion-based explanations, further research is needed to distinguish between discriminability and response bias in people with aphantasia. Finally, data indicated that the verbal overshadowing effect may even be reversed in individuals with aphantasia, partly due to a lower memory performance in the no verbalisation condition. Effects of further variables are discussed, such as mental strategies, memory confidence, and difficulty, quantity and quality of verbalisation. • The verbal overshadowing effect was replicated in controls. • Aphants show no verbal overshadowing after the description of a visual stimulus. • The verbal overshadowing effect might even be reversed in aphants. • Aphants use less imagination-based strategies indicating feature-based processing. [ABSTRACT FROM AUTHOR]

Published

2024

46. On the relationship between trait autobiographical episodic memory and spatial navigation.

Author

Fan, Carina L., Abdi, Hervé, and Levine, Brian

Subjects

*AUTOBIOGRAPHICAL memory, *IMAGINATION, *INTERNET, *MULTIVARIATE analysis, *SELF-evaluation, *SPACE perception, *THOUGHT & thinking, *VISUAL perception, *CONTENT mining, *EPISODIC memory

Abstract

Influential research has focused on identifying the common neural and behavioural substrates underlying episodic memory (the re-experiencing of specific details from past experiences) and spatial cognition, with some theories proposing that these are supported by the same mechanisms. However, the similarities and differences between these two forms of memory in humans require further specification. We used an individual-differences approach based on self-reported survey data collected in a large online study (n = 7,487), focusing on autobiographical episodic memory and spatial navigation and their relationship to object and spatial imagery abilities. Multivariate analyses replicated prior findings that autobiographical episodic memory abilities dissociated from spatial navigational abilities. Considering imagery, episodic autobiographical memory overlapped with imagery of objects, whereas spatial navigation overlapped with a tendency to focus on spatial schematics and manipulation. These results suggest that trait episodic autobiographical memory and spatial navigation correspond to distinct mental processes. [ABSTRACT FROM AUTHOR]

Published

2021

47. Where in the brain do internally generated and externally presented visual information interact?

Author

Alho, Jussi, Gotsopoulos, Athanasios, and Silvanto, Juha

Subjects

*SENSORY stimulation, *MENTAL imagery, *CEREBRAL dominance, *FUNCTIONAL magnetic resonance imaging, *MULTIVARIATE analysis, *INFORMATION resources, *LATERAL dominance

Abstract

[Display omitted] • Visual imagery is modulated by incoming visual information. • We studied where in the brain such imagery-vision interaction occurs. • Our results show that this interaction occurs in left lateral extrastriate cortex. Conscious experiences normally result from the flow of external input into our sensory systems. However, we can also create conscious percepts independently of sensory stimulation. These internally generated percepts are referred to as mental images, and they have many similarities with real visual percepts. Consequently, mental imagery is often referred to as "seeing in the mind's eye". While the neural basis of imagery has been widely studied, the interaction between internal and external sources of visual information has received little interest. Here we examined this question by using fMRI to record brain activity of healthy human volunteers while they were performing visual imagery that was distracted with a concurrent presentation of a visual stimulus. Multivariate pattern analysis (MVPA) was used to identify the brain basis of this interaction. Visual imagery was reflected in several brain areas in ventral temporal, lateral occipitotemporal, and posterior frontal cortices, with a left-hemisphere dominance. The key finding was that imagery content representations in the left lateral occipitotemporal cortex were disrupted when a visual distractor was presented during imagery. Our results thus demonstrate that the representations of internal and external visual information interact in brain areas associated with the encoding of visual objects and shapes. [ABSTRACT FROM AUTHOR]

Published

2023

48. Preferential signal pathways during the perception and imagery of familiar scenes

Author

Maria Giulia Tullo, Hannes Almgren, Frederik Van de Steen, Maddalena Boccia, Federica Bencivenga, Gaspare Galati, Faculty of Psychology and Educational Sciences, Artificial Intelligence supported Modelling in clinical Sciences, and Clinical sciences

Subjects

visual imagery, Neurology, Radiological and Ultrasound Technology, Dynamic Causal Modeling, resting-state functional connectivity, Neuroscience(all), fMRI, Radiology, Nuclear Medicine and imaging, visual perception, Neurology (clinical), Anatomy, navigation, Psychology(all)

Abstract

The perception and imagery of landmarks activate similar content-dependent brain areas, including occipital and temporo-medial brain regions. However, how these areas interact during visual perception and imagery of scenes, especially when recollecting their spatial location, remains unknown. Here, we combined functional magnetic resonance imaging (fMRI), resting-state functional connectivity (rs-fc), and effective connectivity to assess spontaneous fluctuations and task-induced modulation of signals among regions entailing scene-processing, the primary visual area and the hippocampus (HC), responsible for the retrieval of stored information. First, we functionally defined the scene-selective regions, that is, the occipital place area (OPA), the retrosplenial complex (RSC) and the parahippocampal place area (PPA), by using the face/scene localizer, observing that two portions of the PPA-anterior and posterior PPA-were consistently activated in all subjects. Second, the rs-fc analysis (n = 77) revealed a connectivity pathway similar to the one described in macaques, showing separate connectivity routes linking the anterior PPA with RSC and HC, and the posterior PPA with OPA. Third, we used dynamic causal modelling to evaluate whether the dynamic couplings among these regions differ between perception and imagery of familiar landmarks during a fMRI task (n = 16). We found a positive effect of HC on RSC during the retrieval of imagined places and an effect of occipital regions on both RSC and pPPA during the perception of scenes. Overall, we propose that under similar functional architecture at rest, different neural interactions take place between regions in the occipito-temporal higher-level visual cortex and the HC, subserving scene perception and imagery.

Published

2023

49. The Architect Who Lost the Ability to Imagine: The Cerebral Basis of Visual Imagery

Author

Sandra Thorudottir, Heida M. Sigurdardottir, Grace E. Rice, Sheila J. Kerry, Ro J. Robotham, Alex P. Leff, and Randi Starrfelt

Subjects

visual imagery, stroke, posterior cerebral artery, aphantasia, prosopagnosia, visual perception, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

While the loss of mental imagery following brain lesions was first described more than a century ago, the key cerebral areas involved remain elusive. Here we report neuropsychological data from an architect (PL518) who lost his ability for visual imagery following a bilateral posterior cerebral artery (PCA) stroke. We compare his profile to three other patients with bilateral PCA stroke and another architect with a large PCA lesion confined to the right hemisphere. We also compare structural images of their lesions, aiming to delineate cerebral areas selectively lesioned in acquired aphantasia. When comparing the neuropsychological profile and structural magnetic resonance imaging (MRI) for the aphantasic architect PL518 to patients with either a comparable background (an architect) or bilateral PCA lesions, we find: (1) there is a large overlap of cognitive deficits between patients, with the very notable exception of aphantasia which only occurs in PL518, and (2) there is large overlap of the patients’ lesions. The only areas of selective lesion in PL518 is a small patch in the left fusiform gyrus as well as part of the right lingual gyrus. We suggest that these areas, and perhaps in particular the region in the left fusiform gyrus, play an important role in the cerebral network involved in visual imagery.

Published

2020

50. The experience of reading.

Author

Moore, Alan Tonnies and Schwitzgebel, Eric

Subjects

*READING, *PHENOMENOLOGY, *MEMORY, *COGNITIVE ability, *VISUAL perception

Abstract

What do people consciously experience when they read? There has been almost no rigorous research on this question, and opinions diverge radically among both philosophers and psychologists. We describe three studies of the phenomenology of reading and its relationship to memory of textual detail and general cognitive abilities. We find three main results. First, there is substantial variability in reports about reading experience, both within and between participants. Second, reported reading experience varies with passage type: passages with dialogue prompted increased reports of inner speech, while passages with vivid visual detail prompted increased reports of visual imagery. Third, reports of visual imagery experiences, inner speech experiences, and experiences of conscious visual perception of the words on the page were at best weakly related to general cognitive abilities and memory of visual and auditory details. [ABSTRACT FROM AUTHOR]

Published

2018