Superior Parietal Lobule: A Role in Relative Localization of Multiple Different Elements

Abstract Simultanagnosia is an impairment in processing multiple visual elements simultaneously consecutive to bilateral posterior parietal damage, and neuroimaging data have specifically implicated the superior parietal lobule (SPL) in multiple element processing. We previously reported that a patient with focal and bilateral lesions of the SPL performed slower than controls in visual search but only for stimuli consisting of separable lines. Here, we further explored this patient’s visual processing of plain object (colored disk) versus object consisting of separable lines (letter), presented in isolation (single object) versus in triplets. Identification of objects was normal in isolation but dropped to chance level when surrounded by distracters, irrespective of eccentricity and spacing. We speculate that this poor performance reflects a deficit in processing objects’ relative locations within the triplet (for colored disks), aggravated by a deficit in processing the relative location of each separable line (for letters). Confirming this, performance improved when the patient just had to detect the presence of a specific colored disk within the triplets (visual search instruction), while the inability to identify the middle letter was alleviated when the distracters were identical letters that could be grouped, thereby reducing the number of ways individual lines could be bound.

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Functional Connectivity Between Superior Parietal Lobule and Primary Visual Cortex “at Rest” Predicts Visual Search Efficiency

Brain Connectivity ◽

10.1089/brain.2015.0352 ◽

2015 ◽

Vol 5 (8) ◽

pp. 517-526 ◽

Cited By ~ 12

Author(s):

Elisenda Bueichekú ◽

Noelia Ventura-Campos ◽

María-Ángeles Palomar-García ◽

Anna Miró-Padilla ◽

María-Antonia Parcet ◽

...

Keyword(s):

Visual Cortex ◽

Visual Search ◽

Functional Connectivity ◽

Primary Visual Cortex ◽

Search Efficiency ◽

Superior Parietal Lobule ◽

Parietal Lobule

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The role of the superior parietal lobule in lexical processing of sign language: Insights from fMRI and TMS

Cortex ◽

10.1016/j.cortex.2020.10.025 ◽

2021 ◽

Vol 135 ◽

pp. 240-254

Author(s):

A. Banaszkiewicz ◽

Ł. Bola ◽

J. Matuszewski ◽

M. Szczepanik ◽

B. Kossowski ◽

...

Keyword(s):

Sign Language ◽

Lexical Processing ◽

Superior Parietal Lobule ◽

Parietal Lobule

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Mental maze solving: directional fMRI tuning and population coding in the superior parietal lobule

Experimental Brain Research ◽

10.1007/s00221-005-2298-6 ◽

2005 ◽

Vol 165 (3) ◽

pp. 273-282 ◽

Cited By ~ 21

Author(s):

Pavlos Gourtzelidis ◽

Charidimos Tzagarakis ◽

Scott M. Lewis ◽

David A. Crowe ◽

Edward Auerbach ◽

...

Keyword(s):

Population Coding ◽

Superior Parietal Lobule ◽

Parietal Lobule

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Ultra-high field parallel imaging of the superior parietal lobule during mental maze solving

Experimental Brain Research ◽

10.1007/s00221-008-1318-8 ◽

2008 ◽

Vol 187 (4) ◽

pp. 551-561 ◽

Cited By ~ 15

Author(s):

Trenton A. Jerde ◽

Scott M. Lewis ◽

Ute Goerke ◽

Pavlos Gourtzelidis ◽

Charidimos Tzagarakis ◽

...

Keyword(s):

High Field ◽

Parallel Imaging ◽

Superior Parietal Lobule ◽

Ultra High Field ◽

Field Parallel ◽

Parietal Lobule

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Visual search for object categories is predicted by the representational architecture of high-level visual cortex

Journal of Neurophysiology ◽

10.1152/jn.00569.2016 ◽

2017 ◽

Vol 117 (1) ◽

pp. 388-402 ◽

Cited By ~ 14

Author(s):

Michael A. Cohen ◽

George A. Alvarez ◽

Ken Nakayama ◽

Talia Konkle

Keyword(s):

Visual Cortex ◽

Visual Search ◽

Visual System ◽

Visual Processing ◽

Search Task ◽

Visual Search Task ◽

Visual Object ◽

Neural Responses ◽

Object Categories ◽

High Level

Visual search is a ubiquitous visual behavior, and efficient search is essential for survival. Different cognitive models have explained the speed and accuracy of search based either on the dynamics of attention or on similarity of item representations. Here, we examined the extent to which performance on a visual search task can be predicted from the stable representational architecture of the visual system, independent of attentional dynamics. Participants performed a visual search task with 28 conditions reflecting different pairs of categories (e.g., searching for a face among cars, body among hammers, etc.). The time it took participants to find the target item varied as a function of category combination. In a separate group of participants, we measured the neural responses to these object categories when items were presented in isolation. Using representational similarity analysis, we then examined whether the similarity of neural responses across different subdivisions of the visual system had the requisite structure needed to predict visual search performance. Overall, we found strong brain/behavior correlations across most of the higher-level visual system, including both the ventral and dorsal pathways when considering both macroscale sectors as well as smaller mesoscale regions. These results suggest that visual search for real-world object categories is well predicted by the stable, task-independent architecture of the visual system. NEW & NOTEWORTHY Here, we ask which neural regions have neural response patterns that correlate with behavioral performance in a visual processing task. We found that the representational structure across all of high-level visual cortex has the requisite structure to predict behavior. Furthermore, when directly comparing different neural regions, we found that they all had highly similar category-level representational structures. These results point to a ubiquitous and uniform representational structure in high-level visual cortex underlying visual object processing.

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0679 Impaired Visual Processing In Rbd Patients: A Visual Search Task Study

SLEEP ◽

10.1093/sleep/zsy061.678 ◽

2018 ◽

Vol 41 (suppl_1) ◽

pp. A252-A252

Author(s):

E Giora ◽

A Galbiati ◽

M Zucconi ◽

L Ferini-Strambi

Keyword(s):

Visual Search ◽

Visual Processing ◽

Search Task ◽

Visual Search Task

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Superior Parietal Lobule Involvement in the Representation of Visual Space: a PET Review

Parietal Lobe Contributions to Orientation in 3D Space ◽

10.1007/978-3-642-60661-8_5 ◽

1997 ◽

pp. 77-91 ◽

Cited By ~ 4

Author(s):

L. Petit ◽

C. Orssaud ◽

N. Tzourio ◽

B. Mazoyer ◽

A. Berthoz

Keyword(s):

Visual Space ◽

Superior Parietal Lobule ◽

Parietal Lobule

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Inclusion of Attentional Networks in the Pre-Surgical Neuroimaging Assessment of a Large Deep Hemispheric Cavernous Malformation: An fMRI Case Report

Cerebrovascular Diseases ◽

10.1159/000376612 ◽

2015 ◽

Vol 39 (3-4) ◽

pp. 202-208 ◽

Cited By ~ 6

Author(s):

Marla J.S. Mickleborough ◽

Michael E. Kelly ◽

Layla Gould ◽

Chelsea Ekstrand ◽

Eric Lorentz ◽

...

Keyword(s):

Case Report ◽

Surgical Resection ◽

Cognitive Processing ◽

Language Processing ◽

Attentional Control ◽

Cavernous Malformation ◽

Control Network ◽

Superior Parietal Lobule ◽

Surgical Access ◽

Parietal Lobule

Background and Importance: Functional magnetic resonance imaging (fMRI) is a noninvasive and reliable tool for mapping eloquent cortex in patients prior to brain surgery. Ensuring intact perceptual and cognitive processing is a key goal for neurosurgeons, and recent research has indicated the value of including attentional network processing in pre-surgical fMRI in order to help preserve such abilities, including reading, after surgery. Clinical Presentation: We report a 42-year-old patient with a large cavernous malformation, near the left basal ganglia. The lesion measured 3.8 × 1.7 × 1.8 cm. In consultation with the patient and the multidisciplinary cerebrovascular team, the decision was made to offer the patient surgical resection. The surgical resection involved planned access via the left superior parietal lobule using stereotactic location. The patient declined an awake craniotomy; therefore, direct electrocortical stimulation (ECS) could not be used for intraoperative language localization in this case. Pre-surgical planning included fMRI localization of language, motor, sensory, and attentional processing. The key finding was that both reading and attention-processing tasks revealed consistent activation of the left superior parietal lobule, part of the attentional control network, and the site of the planned surgical access. Given this information, surgical access was adjusted to avoid interference with the attentional control network. The lesion was removed via the left inferior parietal lobule. The patient had no new neurologic deficits postoperatively but did develop mild neuropathic pain in the left hand. Conclusion: This case report supports recent research that indicates the value of including fMRI maps of attentional tasks along with traditional language-processing tasks in preoperative planning in patients undergoing neurosurgery procedures.

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