Your search keyword '"Frank E. Garcea"' showing total 28 results

1. Direct electrical stimulation evidence for a dorsal motor area with control of the larynx

Author

J. Raouf Belkhir, W. Tecumseh Fitch, Frank E. Garcea, Benjamin L. Chernoff, Max H. Sims, Eduardo Navarrete, Sam Haber, David A. Paul, Susan O. Smith, Webster H. Pilcher, and Bradford Z. Mahon

Subjects

Brain mapping, Laryngeal control, Neurosurgery, Direct electrical stimulation (DES), Dorsal laryngeal motor cortex, Speech production, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2021

2. Single-Case Disconnectome Lesion-symptom Mapping: Identifying Two Subtypes of Limb Apraxia

Author

Rachel Metzgar, Harrison Stoll, Scott T. Grafton, Laurel J. Buxbaum, and Frank E. Garcea

Subjects

Behavioral Neuroscience, Brain Mapping, Gestures, Apraxias, Cognitive Neuroscience, Parietal Lobe, Humans, Experimental and Cognitive Psychology, Imitative Behavior, Magnetic Resonance Imaging, behavioral disciplines and activities, Article, Psychomotor Performance

Abstract

Influential theories of skilled action posit that distinct cognitive mechanisms and neuroanatomic substrates support meaningless gesture imitation and tool use pantomiming, and poor performance on these tasks are hallmarks of limb apraxia. Yet prior research has primarily investigated brain-behavior relations at the group level; thus, it is unclear whether we can identify individuals with isolated impairments in meaningless gesture imitation or tool use pantomiming whose performance is associated with a distinct neuroanatomic lesion profile. The goal of this study was to test the hypothesis that individuals with disproportionately worse performance in meaningless gesture imitation would exhibit cortical damage and white matter disconnection in left fronto-parietal brain regions, whereas individuals with disproportionately worse performance in tool use pantomiming would exhibit cortical damage and white matter disconnection in left temporo-parietal brain regions. Fifty-eight participants who experienced a left cerebrovascular accident took part in a meaningless gesture imitation task, a tool use pantomiming task, and a T1 structural MRI. Two participants were identified who had relatively small lesions and disproportionate impairments on one task relative to the other, as well as below-control-level performance on one task and not the other. Using these criteria, one participant was disproportionately impaired at meaningless gesture imitation, and the other participant was disproportionately impaired at pantomiming tool use. Graph theoretic analysis of each participant’s structural disconnectome demonstrated that disproportionately worse meaningless gesture imitation performance was associated with disconnection among the left inferior parietal lobule, the left superior parietal lobule, and the left middle and superior frontal gyri, whereas disproportionately worse tool use pantomiming performance was associated with disconnection between left temporal and parietal regions. Our results demonstrate that relatively focal lesions to specific portions of the Tool Use Network can be associated with distinct limb apraxia subtypes.HighlightsDistinct subtypes of apraxia are supported by distinct neuroanatomic substrates.Fronto-parietal lesions are associated with meaningless imitation deficits.Temporo-parietal lesions are associated with tool use pantomiming deficits.Structural connectivity among cortical areas supports a distributed praxis system.

Published

2022

3. Direct electrical stimulation evidence for a dorsal motor area with control of the larynx

Author

Frank E. Garcea, Benjamin L. Chernoff, Eduardo Navarrete, W. Tecumseh Fitch, Bradford Z. Mahon, David A. Paul, Webster H. Pilcher, Sam Haber, Susan O. Smith, J Raouf Belkhir, and Max H. Sims

Subjects

Larynx, Dorsum, Speech production, medicine.medical_specialty, Brain mapping, Direct electrical stimulation (DES), Dorsal laryngeal motor cortex, Intra-operative mapping, Laryngeal control, Neurosurgery, Speech motor cortex, Biophysics, Stimulation, lcsh:RC321-571, Medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Motor area, business.industry, General Neuroscience, Anatomy, medicine.anatomical_structure, Neurology (clinical), business

Abstract

The abstract is available here: https://uscholar.univie.ac.at/o:1612058

Published

2021

4. Preserved tool knowledge in the context of impaired action knowledge: Implications for models of semantic memory

Author

Frank E Garcea, Mary eDombovy, and Bradford Z Mahon

Subjects

Embodied Cognition, concepts, cognitive neuropsychology, Action recognition, tools, action production, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

A number of studies have observed that the motor system is activated when processing the semantics of manipulable objects. Such phenomena have been taken as evidence that simulation over motor representations is a necessary and intermediary step in the process of conceptual understanding. Cognitive neuropsychological evaluations of patients with impairments for action knowledge permit a direct test of the necessity of motor simulation in conceptual processing. Here, we report the performance of a forty-seven year-old male individual (Case AA) and six age-matched control participants on a number of tests probing action and object knowledge. Case AA had a large left hemisphere frontal-parietal lesion and hemiplegia affecting his right arm and leg. Case AA presented with impairments for object-associated action production, and his conceptual knowledge of actions was severely impaired. In contrast, his knowledge of objects such as tools and other manipulable objects was largely preserved. The dissociation between action and object knowledge is difficult to reconcile with strong forms of the embodied cognition hypothesis. We suggest that these, and other similar findings, point to the need to develop tractable hypotheses about the dynamics of information exchange among sensory, motor and conceptual processes.

Published

2013

5. Structural Disconnection of the Tool Use Network After Left Hemisphere Stroke Predicts Limb Apraxia Severity

Author

Clint Greene, Laurel J. Buxbaum, Frank E. Garcea, and Scott T. Grafton

Subjects

medicine.medical_specialty, education, Posterior parietal cortex, 050105 experimental psychology, Lateralization of brain function, Temporal lobe, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, limb apraxia, voxel-based lesion-symptom mapping, connectome-based lesion-symptom mapping, Motor system, medicine, 0501 psychology and cognitive sciences, General Environmental Science, Temporal cortex, Fusiform gyrus, 05 social sciences, Inferior parietal lobule, Limb apraxia, tool use, dorsal stream, General Earth and Planetary Sciences, Original Article, Disconnection, Psychology, 030217 neurology & neurosurgery, Gesture

Abstract

Producing a tool use gesture is a complex process drawing upon the integration of stored knowledge of tools and their associated actions with sensory-motor mechanisms supporting the planning and control of hand and arm actions. Understanding how sensory-motor systems in parietal cortex interface with semantic representations of actions and objects in the temporal lobe remains a critical issue, and is hypothesized to be a key determinant of the severity of limb apraxia, a deficit in producing skilled action after left hemisphere stroke. We used voxel-based and connectome-based lesion symptom mapping with data from 57 left hemisphere stroke participants to assess the lesion sites and structural disconnection patterns associated with poor tool use gesturing. We found that structural disconnection between the left inferior parietal lobule, lateral temporal lobe (left middle temporal gyrus) and ventral temporal cortex (left medial fusiform gyrus) predicted the severity of tool use gesturing performance. Control analyses demonstrated that reductions in right-hand grip strength were associated with motor system disconnection, bypassing regions supporting tool use gesturing. Our findings provide causal evidence that limb apraxia may arise, in part, from disconnection of conceptual representations in the temporal lobe from mechanisms enabling skilled action production in the inferior parietal lobule.

Published

2020

6. Visual and visuomotor processing of hands and tools as a case study of cross talk between the dorsal and ventral streams

Author

Frank E. Garcea, Shan Xu, Isabel Pavão Martins, Diana Aguiar de Sousa, Bradford Z. Mahon, Jorge Almeida, and Lénia Alexandra Leal Amaral

Subjects

Adult, Male, Dorsum, Apraxias, Cognitive Neuroscience, Experimental and Cognitive Psychology, Apraxia, 050105 experimental psychology, 03 medical and health sciences, Cognition, 0302 clinical medicine, Arts and Humanities (miscellaneous), Developmental and Educational Psychology, medicine, Humans, 0501 psychology and cognitive sciences, Cognitive science, 05 social sciences, Cognitive neuroscience of visual object recognition, Middle Aged, Hand, medicine.disease, Neuropsychology and Physiological Psychology, Visual Perception, Psychology, 030217 neurology & neurosurgery

Abstract

A major principle of organization of the visual system is between a dorsal stream that processes visuomotor information and a ventral stream that supports object recognition. Most research has focused on dissociating processing across these two streams. Here we focus on how the two streams interact. We tested neurologically-intact and impaired participants in an object categorization task over two classes of objects that depend on processing within both streams-hands and tools. We measured how unconscious processing of images from one of these categories (e.g., tools) affects the recognition of images from the other category (i.e., hands). Our findings with neurologically-intact participants demonstrated that processing an image of a hand hampers the subsequent processing of an image of a tool, and vice versa. These results were not present in apraxic patients (N = 3). These findings suggest local and global inhibitory processes working in tandem to co-register information across the two streams.

Published

2018

7. Translational Brain Mapping at the University of Rochester Medical Center: Preserving the Mind Through Personalized Brain Mapping

Author

Webster H. Pilcher, Yan Michael Li, Steve Erickson, Benjamin L. Chernoff, Raouf Belkhir, Frank E. Garcea, Jacqueline M Behr, Maxwell H. Sims, Kevin A. Walter, Sarah B. Gannon, Michael Z Schmidt, Bradford Z. Mahon, Jacob W. Nadler, Jeffrey A Mead, Audrey Paulzak, Kenneth Foxx, David A. Paul, Madalina E. Tivarus, Vanessa C Milano, Sam Haber, Emily K Prentiss, Susan O. Smith, and Kelly A Wright

Subjects

Male, medicine.medical_specialty, Intraoperative Neurophysiological Monitoring, Basic science, General Chemical Engineering, Eloquent Brain Areas, Brain tumor, Brain mapping, Neurosurgical Procedures, 050105 experimental psychology, General Biochemistry, Genetics and Molecular Biology, Translational Research, Biomedical, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, 0501 psychology and cognitive sciences, Medical physics, Precision Medicine, Academic Medical Centers, Brain Mapping, General Immunology and Microbiology, Brain Neoplasms, General Neuroscience, 05 social sciences, Brain, Cognition, Human brain, medicine.disease, Magnetic Resonance Imaging, Workflow, medicine.anatomical_structure, Female, Neurosurgery, Psychology, 030217 neurology & neurosurgery

Abstract

The Translational Brain Mapping Program at the University of Rochester is an interdisciplinary effort that integrates cognitive science, neurophysiology, neuroanesthesia, and neurosurgery. Patients who have tumors or epileptogenic tissue in eloquent brain areas are studied preoperatively with functional and structural MRI, and intraoperatively with direct electrical stimulation mapping. Post-operative neural and cognitive outcome measures fuel basic science studies about the factors that mediate good versus poor outcome after surgery, and how brain mapping can be further optimized to ensure the best outcome for future patients. In this article, we describe the interdisciplinary workflow that allows our team to meet the synergistic goals of optimizing patient outcome and advancing scientific understanding of the human brain.

Published

2019

8. A common neural signature of brain injury in concussion and subconcussion

Author

Sarah R. Heilbronner, David W. Wright, Adnan A. Hirad, Frank E. Garcea, David L. Paul, Giovanni Schifitto, Eric B. Hintz, Jeffrey J. Bazarian, Tamara R. Espinoza, Bradford Z. Mahon, Kian Merchant-Borna, and Edwin van Wijngaarden

Subjects

Male, Football, Poison control, tau Proteins, White matter, Midbrain, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Mesencephalon, Brain Injuries, Traumatic, Concussion, medicine, Humans, Brain Concussion, Research Articles, Spatial Analysis, Multidisciplinary, medicine.diagnostic_test, business.industry, fungi, food and beverages, Brain, SciAdv r-articles, Magnetic resonance imaging, Retrospective cohort study, 030229 sport sciences, medicine.disease, Magnetic Resonance Imaging, White Matter, Chronic traumatic encephalopathy, medicine.anatomical_structure, Athletes, Case-Control Studies, Female, Tauopathy, business, human activities, Neuroscience, 030217 neurology & neurosurgery, Research Article

Abstract

Clinically silent brain injury in contact sports athletes can be detected by noninvasive MRI., The midbrain is biomechanically susceptible to force loading from repetitive subconcussive head impacts (RSHI), is a site of tauopathy in chronic traumatic encephalopathy (CTE), and regulates functions (e.g., eye movements) often disrupted in concussion. In a prospective longitudinal design, we demonstrate there are reductions in midbrain white matter integrity due to a single season of collegiate football, and that the amount of reduction in midbrain white matter integrity is related to the amount of rotational acceleration to which players’ brains are exposed. We then replicate the observation of reduced midbrain white matter integrity in a retrospective cohort of individuals with frank concussion, and further show that variance in white matter integrity is correlated with levels of serum-based tau, a marker of blood-brain barrier disruption. These findings mean that noninvasive structural MRI of the midbrain is a succinct index of both clinically silent white matter injury as well as frank concussion.

Published

2019

9. Gesturing tool use and tool transport actions modulates inferior parietal functional connectivity with the dorsal and ventral object processing pathways

Author

Frank E. Garcea and Laurel J. Buxbaum

Subjects

Male, Dorsum, Computer science, Intraparietal sulcus, 050105 experimental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Functional neuroimaging, Parietal Lobe, medicine, Humans, Visual Pathways, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Research Articles, Temporal cortex, Brain Mapping, Gestures, Tool Use Behavior, Radiological and Ultrasound Technology, medicine.diagnostic_test, Functional connectivity, 05 social sciences, Parietal lobe, Magnetic Resonance Imaging, Neurology, Female, Neurology (clinical), Anatomy, Functional magnetic resonance imaging, Neuroscience, Psychomotor Performance, 030217 neurology & neurosurgery, Gesture

Abstract

Interacting with manipulable objects (tools) requires the integration of diverse computations supported by anatomically remote regions. Previous functional neuroimaging research has demonstrated the left supramarginal (SMG) exhibits functional connectivity to both ventral and dorsal pathways, supporting the integration of ventrally-mediated tool properties and conceptual knowledge with dorsally-computed volumetric and structural representations of tools. This architecture affords us the opportunity to test whether interactions between the left SMG, ventral visual pathway, and dorsal visual pathway are differentially modulated when participants plan and generate tool-directed gestures emphasizing functional manipulation (tool use gesturing) or structure-based grasping (tool transport gesturing). We found that functional connectivity between the left SMG, ventral temporal cortex (bilateral fusiform gyri), and dorsal visual pathway (left superior parietal lobule/posterior intraparietal sulcus) was maximal for tool transport planning and gesturing, whereas functional connectivity between the left SMG, left ventral anterior temporal lobe, and left frontal operculum was maximal for tool use planning and gesturing. These results demonstrate that functional connectivity to the left SMG is differentially modulated by tool use and tool transport gesturing, suggesting that distinct tool features computed by the two object processing pathways are integrated in the parietal lobe in the service of tool-directed action.

Published

2019

10. Reduced competition between tool action neighbors in left hemisphere stroke

Author

Laurel J. Buxbaum, Frank E. Garcea, and Harrison Stoll

Subjects

Adult, Male, Support Vector Machine, Apraxias, Cognitive Neuroscience, Automaticity, Neuroimaging, Experimental and Cognitive Psychology, Action selection, Functional Laterality, Article, 050105 experimental psychology, Lateralization of brain function, Conflict, Psychological, 03 medical and health sciences, 0302 clinical medicine, Supramarginal gyrus, medicine, Humans, 0501 psychology and cognitive sciences, Aged, Aged, 80 and over, Brain Mapping, Hand Strength, Tool Use Behavior, 05 social sciences, GRASP, Superior longitudinal fasciculus, Limb apraxia, Middle Aged, Magnetic Resonance Imaging, Stroke, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Action (philosophy), Stroop Test, Female, Psychology, Psychomotor Performance, 030217 neurology & neurosurgery, Neurotypical, Cognitive psychology

Abstract

When pantomiming the use of tools, patients with limb apraxia after left hemisphere stroke (LCVA) produce more spatiotemporal hand action errors with tools associated with conflicting actions for use versus grasp-to-pick-up (e.g., corkscrew) than tools having a single action for both use and grasp (e.g., hammer). There are two possible accounts for this pattern of results. Reduced performance with ‘conflict’ tools may simply reflect weakened automaticity of use action activation, which is evident only when the use and grasp actions are not redundant. Alternatively, poor use performance may reflect reduced ability of appropriate tool use actions to compete with task-inappropriate action representations. To address this issue, we developed a Stroop-like experiment in which 21 LCVA and 8 neurotypical participants performed pantomime actions in blocks containing two tools that were similar (“neighbors”) in terms of hand action or function, or unrelated on either dimension. In a congruent condition, they pantomimed the use action associated with the visually presented tool, whereas in an incongruent condition, they pantomimed the use action for the other tool in the block. Relative to controls and other task conditions, LCVA participants showed reductions in hand action errors in incongruent relative to congruent action trials; furthermore, the degree of reduction in this incongruence effect was related to the participants’ susceptibility to grasp-on-use conflict in a separate test of pantomime to the sight of tools. Support vector regression lesion-symptom mapping analyses identified the left inferior frontal gyrus, supramarginal gyrus, and superior longitudinal fasciculus as core neuroanatomical sites associated with abnormal performance on both tasks. Collectively, the results indicate that weakened activation of tool use actions in limb apraxia gives rise to reduced ability of these actions to compete for task-appropriate selection when competition arises within single tools (grasp-on-use conflict) as well as between two tools (reduced neighborhood effects).

Published

2019

11. Domain-Specific Diaschisis: Lesions to Parietal Action Areas Modulate Neural Responses to Tools in the Ventral Stream

Author

Yan Michael Li, Frank E. Garcea, Bradford Z. Mahon, Kevin A. Walter, Webster H. Pilcher, Steven P. Meyers, Maxwell H. Sims, Jorge Almeida, and Andrew Nunno

Subjects

Adult, Male, Cognitive Neuroscience, Middle temporal gyrus, Posterior parietal cortex, Neuroimaging, Intraparietal sulcus, Biology, 050105 experimental psychology, Temporal lobe, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, anterior intraparietal sulcus, dorsal stream, fMRI, manipulable objects, neurosurgery, supramarginal gyrus, tools, ventral stream, voxel-based lesion-activity mapping, voxel-based lesion-symptom mapping, Supramarginal gyrus, Functional neuroimaging, Parietal Lobe, Neural Pathways, Humans, Visual Pathways, 0501 psychology and cognitive sciences, Diaschisis, Temporal cortex, 05 social sciences, Middle Aged, Magnetic Resonance Imaging, Temporal Lobe, Pattern Recognition, Visual, Female, Original Article, Neuroscience, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

Neural responses to small manipulable objects (“tools”) in high-level visual areas in ventral temporal cortex (VTC) provide an opportunity to test how anatomically remote regions modulate ventral stream processing in a domain-specific manner. Prior patient studies indicate that grasp-relevant information can be computed about objects by dorsal stream structures independently of processing in VTC. Prior functional neuroimaging studies indicate privileged functional connectivity between regions of VTC exhibiting tool preferences and regions of parietal cortex supporting object-directed action. Here we test whether lesions to parietal cortex modulate tool preferences within ventral and lateral temporal cortex. We found that lesions to the left anterior intraparietal sulcus, a region that supports hand-shaping during object grasping and manipulation, modulate tool preferences in left VTC and in the left posterior middle temporal gyrus. Control analyses demonstrated that neural responses to “place” stimuli in left VTC were unaffected by lesions to parietal cortex, indicating domain-specific consequences for ventral stream neural responses in the setting of parietal lesions. These findings provide causal evidence that neural specificity for “tools” in ventral and lateral temporal lobe areas may arise, in part, from online inputs to VTC from parietal areas that receive inputs via the dorsal visual pathway.

Published

2019

12. Reorganized language network connectivity after left arcuate fasciculus resection: A case study

Author

Madalina E. Tivarus, Eric B. Hintz, Frank E. Garcea, Raouf Belkhir, Bradford Z. Mahon, David A. Paul, Benjamin L. Chernoff, Alex Teghipco, Susan O. Smith, Max H. Sims, and Webster H. Pilcher

Subjects

Adult, Male, medicine.medical_specialty, Cognitive Neuroscience, Spontaneous recovery, Experimental and Cognitive Psychology, Lateralization of brain function, Aphasia, Neural Pathways, medicine, Arcuate fasciculus, Humans, Left arcuate fasciculus, Language, Brain Mapping, Cognition, Glioma, White Matter, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Diffusion Tensor Imaging, Neurosurgery, medicine.symptom, Nerve Net, Psychology, Neuroscience, Diffusion MRI

Abstract

Understanding the neural mechanisms that support spontaneous recovery of cognitive abilities can place important constraints on mechanistic theories of brain organization and function, and holds potential to inform clinical interventions. Connectivity-based MRI measures have emerged as a way to study how recovery from brain injury is modulated by changes in intra- and inter-hemispheric connectivity. Here we report a detailed and multi-modal case study of a 26 year-old male who presented with a left inferior parietal glioma infiltrating the left arcuate fasciculus. The patient underwent pre- and post-operative functional MRI and Diffusion Tensor Imaging, as well as behavioral assessments of language, motor, vision and praxis. The surgery for removal of the tumor was carried out with the patient awake, and direct electrical stimulation mapping was used to evaluate cortical language centers. The patient developed a specific difficulty with repeating sentences toward the end of the surgery, after resection of the tumor and partial transection of the arcuate fasciculus. The patient recovered from the sentence repetition impairments over several months after the operation. Coincident with the patient's cognitive recovery, we document a pattern whereby intra-hemispheric functional connectivity was reduced in the left hemisphere, while inter-hemispheric connectivity increased between classic left hemisphere language regions and their right hemisphere homologues. These findings suggest that increased synchrony between the two hemispheres, in the setting of focal transection of the left arcuate fasciculus, can facilitate functional recovery.

Published

2018

13. A Role for the Frontal Aslant Tract in Speech Planning: A Neurosurgical Case Study

Author

Benjamin L. Chernoff, Webster H. Pilcher, Alex Teghipco, Madalina E. Tivarus, Bradford Z. Mahon, Frank E. Garcea, David A. Paul, Susan O. Smith, and Max H. Sims

Subjects

Cognitive science, Brain Mapping, Speech planning, Cognitive Neuroscience, 05 social sciences, Temporal white matter, Middle Aged, Neuropsychological Tests, Magnetic Resonance Imaging, White Matter, 050105 experimental psychology, Temporal Lobe, Frontal Lobe, 03 medical and health sciences, 0302 clinical medicine, Diffusion Tensor Imaging, Neural Pathways, Key (cryptography), Humans, Speech, 0501 psychology and cognitive sciences, Female, Psychology, 030217 neurology & neurosurgery

Abstract

Frontal and temporal white matter pathways play key roles in language processing, but the specific computations supported by different tracts remain a matter of study. A role in speech planning has been proposed for a recently described pathway, the frontal aslant tract (FAT), which connects the posterior inferior frontal gyrus to the pre-SMA. Here, we use longitudinal functional and structural MRI and behavioral testing to evaluate the behavioral consequences of a lesion to the left FAT that was incurred during surgical resection of a frontal glioma in a 60-year-old woman, Patient AF. The pattern of performance in AF is compared, using the same measures, with that in a 37-year-old individual who underwent a left anterior temporal resection and hippocampectomy (Patient AG). AF and AG were both cognitively intact preoperatively but exhibited specific and doubly dissociable behavioral deficits postoperatively: AF had dysfluent speech but no word finding difficulty, whereas AG had word finding difficulty but otherwise fluent speech. Probabilistic tractography showed that the left FAT was lesioned postoperatively in AF (but not AG) whereas the inferior longitudinal fasciculus was lesioned in AG (but not AF). Those structural changes were supported by corresponding changes in functional connectivity to the posterior inferior frontal gyrus: decreased functional connectivity postoperatively between the posterior inferior frontal gyrus and pre-SMA in AF (but not AG) and decreased functional connectivity between the posterior inferior frontal gyrus and the middle temporal gyrus in AG (but not AF). We suggest from these findings that the left FAT serves as a key communicative link between sentence planning and lexical access processes.

Published

2018

14. A causal test of the motor theory of speech perception: a case of impaired speech production and spared speech perception

Author

Alex Teghipco, Catherine Sweet, Cory D. Bonn, Frank E. Garcea, Alena Stasenko, Mary L. Dombovy, Joyce McDonough, and Bradford Z. Mahon

Subjects

Male, Speech production, Sound Spectrography, Speech perception, Apraxias, Cognitive Neuroscience, Models, Neurological, Experimental and Cognitive Psychology, Neuropsychological Tests, Article, Speech Disorders, Speech shadowing, Sex Factors, Tongue, Arts and Humanities (miscellaneous), Phonetics, otorhinolaryngologic diseases, Developmental and Educational Psychology, Humans, Speech, Mirror Neurons, Motor theory of speech perception, Cued speech, Categorical perception, Psycholinguistics, Middle Aged, Speech processing, Stroke, Memory, Short-Term, Neuropsychology and Physiological Psychology, Acoustic Stimulation, Case-Control Studies, Speech Perception, Voice, Female, Neurocomputational speech processing, Cues, Psychology, Psychomotor Performance, Cognitive psychology

Abstract

In the last decade, the debate about the causal role of the motor system in speech perception has been reignited by demonstrations that motor processes are engaged during the processing of speech sounds. However, the exact role of the motor system in auditory speech processing remains elusive. Here we evaluate which aspects of auditory speech processing are affected, and which are not, in a stroke patient with dysfunction of the speech motor system. The patient’s spontaneous speech was marked by frequent phonological/articulatory errors, and those errors were caused, at least in part, by motor-level impairments with speech production. We found that the patient showed a normal phonemic categorical boundary when discriminating two nonwords that differ by a minimal pair (e.g., ADA-AGA). However, using the same stimuli, the patient was unable to identify or label the nonword stimuli (using a button-press response). A control task showed that he could identify speech sounds by speaker gender, ruling out a general labeling impairment. These data suggest that the identification (i.e. labeling) of nonword speech sounds may involve the speech motor system, but that the perception of speech sounds (i.e., discrimination) does not require the motor system. This means that motor processes are not causally involved in perception of the speech signal, and suggest that the motor system may be used when other cues (e.g., meaning, context) are not available.

Published

2015

15. The Representation of Object-Directed Action and Function Knowledge in the Human Brain

Author

Frank E. Garcea, Quanjing Chen, and Bradford Z. Mahon

Subjects

Adult, Male, Cognitive Neuroscience, media_common.quotation_subject, 050105 experimental psychology, Lateralization of brain function, Temporal lobe, Young Adult, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Region of interest, Humans, 0501 psychology and cognitive sciences, Function (engineering), media_common, Temporal cortex, Brain Mapping, Communication, Tool Use Behavior, business.industry, 05 social sciences, Representation (systemics), Brain, Pattern recognition, Original Articles, Object (computer science), Magnetic Resonance Imaging, Action (philosophy), Motor Skills, Female, Sensorimotor Cortex, Artificial intelligence, Psychology, business, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

The appropriate use of everyday objects requires the integration of action and function knowledge. Previous research suggests that action knowledge is represented in frontoparietal areas while function knowledge is represented in temporal lobe regions. Here we used multivoxel pattern analysis to investigate the representation of object-directed action and function knowledge while participants executed pantomimes of familiar tool actions. A novel approach for decoding object knowledge was used in which classifiers were trained on one pair of objects and then tested on a distinct pair; this permitted a measurement of classification accuracy over and above object-specific information. Region of interest (ROI) analyses showed that object-directed actions could be decoded in tool-preferring regions of both parietal and temporal cortex, while no independently defined tool-preferring ROI showed successful decoding of object function. However, a whole-brain searchlight analysis revealed that while frontoparietal motor and peri-motor regions are engaged in the representation of object-directed actions, medial temporal lobe areas in the left hemisphere are involved in the representation of function knowledge. These results indicate that both action and function knowledge are represented in a topographically coherent manner that is amenable to study with multivariate approaches, and that the left medial temporal cortex represents knowledge of object function.

Published

2015

16. Task- and domain-specific modulation of functional connectivity in the ventral and dorsal object-processing pathways

Author

Bradford Z. Mahon, Darren A. Narayan, Roger Vargas, Quanjing Chen, and Frank E. Garcea

Subjects

Dorsum, Male, Histology, Adolescent, Computer science, Middle temporal gyrus, Stimulus (physiology), Object processing, behavioral disciplines and activities, 050105 experimental psychology, Functional Laterality, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Betweenness centrality, Neural Pathways, Image Processing, Computer-Assisted, Humans, 0501 psychology and cognitive sciences, Brain Mapping, Fusiform gyrus, Hand Strength, General Neuroscience, Left inferior parietal lobule, Functional connectivity, 05 social sciences, Brain, Wrist, Magnetic Resonance Imaging, Oxygen, Female, Anatomy, Neuroscience, 030217 neurology & neurosurgery, psychological phenomena and processes, Psychomotor Performance

Abstract

A whole-brain network of regions collectively supports the ability to recognize and use objects—the Tool Processing Network. Little is known about how functional interactions within the Tool Processing Network are modulated in a task-dependent manner. We designed an fMRI experiment in which participants were required to either generate object pantomimes or to carry out a picture matching task over the same images of tools, while holding all aspects of stimulus presentation constant across the tasks. The Tool Processing Network was defined with an independent functional localizer, and functional connectivity within the network was measured during the pantomime and picture matching tasks. Relative to tool picture matching, tool pantomiming led to an increase in functional connectivity between ventral stream regions and left parietal and frontal-motor areas; in contrast, the matching task was associated with an increase in functional connectivity among regions in ventral temporo-occipital cortex, and between ventral temporal regions and the left inferior parietal lobule. Graph-theory analyses over the functional connectivity data indicated that the left premotor cortex and left lateral occipital complex were hub-like (exhibited high betweenness centrality) during tool pantomiming, while ventral stream regions (left medial fusiform gyrus and left posterior middle temporal gyrus) were hub-like during the picture matching task. These results demonstrate task-specific modulation of functional interactions among a common set of regions, and indicate dynamic coupling of anatomically remote regions in task-dependent manner.

Published

2017

17. Direct Electrical Stimulation in the Human Brain Disrupts Melody Processing

Author

Webster H. Pilcher, Elizabeth West Marvin, Susan O. Smith, Jonathan J. Stone, Benjamin L. Chernoff, Maxwell H. Sims, Alex Teghipco, Samuel B. Tomlinson, John T. Langfitt, Trenton J. Tollefson, Lynn Liu, Sarah B. Gannon, Frank E. Garcea, Bram Diamond, Steve Erickson, Bradford Z. Mahon, Wesley Lewis, and Raouf Belkhir

Subjects

Melody, Adult, Male, Amusia, Biology, behavioral disciplines and activities, 050105 experimental psychology, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Superior temporal gyrus, Young Adult, 0302 clinical medicine, medicine, Humans, 0501 psychology and cognitive sciences, Cortical cooling, medicine.diagnostic_test, Brain Neoplasms, 05 social sciences, Auditory Perceptual Disorders, Human brain, medicine.disease, Magnetic Resonance Imaging, humanities, Electric Stimulation, Temporal Lobe, medicine.anatomical_structure, Auditory Perception, Female, Singing, General Agricultural and Biological Sciences, Functional magnetic resonance imaging, Neuroscience, 030217 neurology & neurosurgery, Electrical brain stimulation, Music

Abstract

Prior research using functional magnetic resonance imaging (fMRI) [1-4] and behavioral studies of patients with acquired or congenital amusia [5-8] suggest that the right posterior superior temporal gyrus (STG) in the human brain is specialized for aspects of music processing (for review, see [9-12]). Intracranial electrical brain stimulation in awake neurosurgery patients is a powerful means to determine the computations supported by specific brain regions and networks [13-21] because it provides reversible causal evidence with high spatial resolution (for review, see [22, 23]). Prior intracranial stimulation or cortical cooling studies have investigated musical abilities related to reading music scores [13, 14] and singing familiar songs [24, 25]. However, individuals with amusia (congenitally, or from a brain injury) have difficulty humming melodies but can be spared for singing familiar songs with familiar lyrics [26]. Here we report a detailed study of a musician with a low-grade tumor in the right temporal lobe. Functional MRI was used pre-operatively to localize music processing to the right STG, and the patient subsequently underwent awake intraoperative mapping using direct electrical stimulation during a melody repetition task. Stimulation of the right STG induced "music arrest" and errors in pitch but did not affect language processing. These findings provide causal evidence for the functional segregation of music and language processing in the human brain and confirm a specific role of the right STG in melody processing. VIDEO ABSTRACT.

Published

2017

18. Connectivity-based constraints on category-specificity in the ventral object processing pathway

Author

Frank E. Garcea, Jorge Almeida, Quanjing Chen, and Bradford Z. Mahon

Subjects

Male, Concept Formation, Cognitive Neuroscience, Experimental and Cognitive Psychology, Stimulus (physiology), Object processing, computer.software_genre, Article, Functional Laterality, 050105 experimental psychology, Young Adult, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Retrosplenial cortex, Voxel, Parietal Lobe, Image Processing, Computer-Assisted, medicine, Humans, Visual Pathways, 0501 psychology and cognitive sciences, Brain Mapping, Resting state fMRI, Functional connectivity, 05 social sciences, Human brain, Magnetic Resonance Imaging, Oxygen, medicine.anatomical_structure, Pattern Recognition, Visual, Female, Psychology, Neuroscience, computer, 030217 neurology & neurosurgery, Parahippocampal gyrus

Abstract

Recent efforts to characterize visual object representations in the ventral object processing pathway in the human brain have led to contrasting proposals about the causes of neural specificity for different categories. Here we use multivariate techniques in a novel way to relate patterns of functional connectivity to patterns of stimulus preferences. Stimulus preferences were measured throughout the ventral stream to tools, animals, faces and places; separately, we measured the strength of functional connectivity of each voxel in the ventral stream to category-preferring regions outside the ventral stream. Multivariate analyses were then performed over ventral stream voxels, relating 'category-preferences' to 'functional connectivity preferences'. We show that the relation of those two measures doubly dissociates 'tools' and 'places', within what is ostensibly 'place' selective cortex (parahippocampal gyrus). Specifically, in the parahippocampal gyrus, functional connectivity to the left inferior parietal lobule is selectively related to stimulus preferences for tools (and not places), while functional connectivity to retrosplenial cortex is selectively related to place preferences (and not tools preferences). These findings indicate that functional connectivity can be used to index representational content rather than just provide an understanding of 'which regions are talking to which regions'. We suggest that the connectivity of the brain is what drives category-specificity in the ventral stream, and that if this is correct, then understanding the connectivity of the ventral stream will be key to understanding the causes and function of category-specific neural organization.

Published

2017

19. What happens to the motor theory of perception when the motor system is damaged?

Author

Frank E. Garcea, Bradford Z. Mahon, and Alena Stasenko

Subjects

Motor theory of speech perception, Linguistics and Language, Communication, Speech perception, genetic structures, business.industry, Motor control, Experimental and Cognitive Psychology, Article, Language and Linguistics, Motor cognition, Motor system, Neurocomputational speech processing, Common coding theory, Psychology, business, Motor learning, psychological phenomena and processes, Cognitive psychology

Abstract

Motor theories of perception posit that motor information is necessary for successful recognition of actions. Perhaps the most well known of this class of proposals is the motor theory of speech perception, which argues that speech recognition is fundamentally a process of identifying the articulatory gestures (i.e. motor representations) that were used to produce the speech signal. Here we review neuropsychological evidence from patients with damage to the motor system, in the context of motor theories of perception applied to both manual actions and speech. Motor theories of perception predict that patients with motor impairments will have impairments for action recognition. Contrary to that prediction, the available neuropsychological evidence indicates that recognition can be spared despite profound impairments to production. These data falsify strong forms of the motor theory of perception, and frame new questions about the dynamical interactions that govern how information is exchanged between input and output systems.

Published

2013

20. Abstract Representations of Object-Directed Action in the Left Inferior Parietal Lobule

Author

Robert A. Jacobs, Quanjing Chen, Frank E. Garcea, and Bradford Z. Mahon

Subjects

Male, genetic structures, Cognitive Neuroscience, education, Stimulus (physiology), 050105 experimental psychology, 03 medical and health sciences, Cellular and Molecular Neuroscience, Young Adult, 0302 clinical medicine, Neuroimaging, Parietal Lobe, medicine, Humans, 0501 psychology and cognitive sciences, Cued speech, Brain Mapping, Training set, Left inferior parietal lobule, 05 social sciences, Neuropsychology, Inferior parietal lobule, Human brain, Original Articles, Magnetic Resonance Imaging, medicine.anatomical_structure, Pattern Recognition, Visual, Female, Psychology, 030217 neurology & neurosurgery, Psychomotor Performance, Cognitive psychology

Abstract

Prior neuroimaging and neuropsychological research indicates that the left inferior parietal lobule in the human brain is a critical substrate for representing object manipulation knowledge. In the present functional MRI study we used multivoxel pattern analyses to test whether action similarity among objects can be decoded in the inferior parietal lobule independent of the task applied to objects (identification or pantomime) and stimulus format in which stimuli are presented (pictures or printed words). Participants pantomimed the use of objects, cued by printed words, or identified pictures of objects. Classifiers were trained and tested across task (e.g., training data: pantomime; testing data: identification), stimulus format (e.g., training data: word format; testing format: picture) and specific objects (e.g., training data: scissors vs. corkscrew; testing data: pliers vs. screwdriver). The only brain region in which action relations among objects could be decoded across task, stimulus format and objects was the inferior parietal lobule. By contrast, medial aspects of the ventral surface of the left temporal lobe represented object function, albeit not at the same level of abstractness as actions in the inferior parietal lobule. These results suggest compulsory access to abstract action information in the inferior parietal lobe even when simply identifying objects.

Published

2016

21. Multisensory Part-based Representations of Objects in Human Lateral Occipital Cortex

Author

Quanjing Chen, Robert A. Jacobs, Goker Erdogan, Frank E. Garcea, and Bradford Z. Mahon

Subjects

Male, Visual perception, Cognitive Neuroscience, media_common.quotation_subject, Neuropsychological Tests, Brain mapping, 050105 experimental psychology, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Cortex (anatomy), Physical Stimulation, medicine, Contrast (vision), Humans, 0501 psychology and cognitive sciences, media_common, Haptic technology, Communication, Brain Mapping, business.industry, 05 social sciences, Pattern recognition, Object (computer science), Magnetic Resonance Imaging, Oxygen, medicine.anatomical_structure, Touch Perception, Cerebrovascular Circulation, Linear Models, Visual Perception, Female, Artificial intelligence, Occipital Lobe, Hardware_CONTROLSTRUCTURESANDMICROPROGRAMMING, business, Psychology, Occipital lobe, 030217 neurology & neurosurgery

Abstract

The format of high-level object representations in temporal-occipital cortex is a fundamental and as yet unresolved issue. Here we use fMRI to show that human lateral occipital cortex (LOC) encodes novel 3-D objects in a multisensory and part-based format. We show that visual and haptic exploration of objects leads to similar patterns of neural activity in human LOC and that the shared variance between visually and haptically induced patterns of BOLD contrast in LOC reflects the part structure of the objects. We also show that linear classifiers trained on neural data from LOC on a subset of the objects successfully predict a novel object based on its component part structure. These data demonstrate a multisensory code for object representations in LOC that specifies the part structure of objects.

Published

2016

22. Temporal Frequency Tuning Reveals Interactions between the Dorsal and Ventral Visual Streams

Author

Frank E. Garcea, Jorge Almeida, Bradford Z. Mahon, and Stephanie Kristensen

Subjects

Male, Visual perception, genetic structures, Cognitive Neuroscience, Posterior parietal cortex, Visual system, Neuropsychological Tests, Brain mapping, 050105 experimental psychology, Article, Visual processing, 03 medical and health sciences, 0302 clinical medicine, Supramarginal gyrus, Parvocellular cell, Humans, 0501 psychology and cognitive sciences, Visual Pathways, Vision for perception and vision for action, Analysis of Variance, Brain Mapping, 05 social sciences, Brain, Magnetic Resonance Imaging, Oxygen, nervous system, Cerebrovascular Circulation, Visual Perception, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery

Abstract

Visual processing of complex objects is supported by the ventral visual pathway in the service of object identification and by the dorsal visual pathway in the service of object-directed reaching and grasping. Here, we address how these two streams interact during tool processing, by exploiting the known asymmetry in projections of subcortical magnocellular and parvocellular inputs to the dorsal and ventral streams. The ventral visual pathway receives both parvocellular and magnocellular input, whereas the dorsal visual pathway receives largely magnocellular input. We used fMRI to measure tool preferences in parietal cortex when the images were presented at either high or low temporal frequencies, exploiting the fact that parvocellular channels project principally to the ventral but not dorsal visual pathway. We reason that regions of parietal cortex that exhibit tool preferences for stimuli presented at frequencies characteristic of the parvocellular pathway receive their inputs from the ventral stream. We found that the left inferior parietal lobule, in the vicinity of the supramarginal gyrus, exhibited tool preferences for images presented at low temporal frequencies, whereas superior and posterior parietal regions exhibited tool preferences for images present at high temporal frequencies. These data indicate that object identity, processed within the ventral stream, is communicated to the left inferior parietal lobule and may there combine with inputs from the dorsal visual pathway to allow for functionally appropriate object manipulation.

Published

2016

23. Resilience to the contralateral visual field bias as a window into object representations

Author

Stephanie Kristensen, Jorge Almeida, Frank E. Garcea, and Bradford Z. Mahon

Subjects

Adult, Male, Visual N1, genetic structures, Cognitive Neuroscience, Posterior parietal cortex, Experimental and Cognitive Psychology, Visual system, 050105 experimental psychology, Article, Visual processing, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Visual memory, Bias, Parietal Lobe, Humans, 0501 psychology and cognitive sciences, Visual Pathways, Vision for perception and vision for action, Communication, Brain Mapping, business.industry, 05 social sciences, Parietal lobe, Magnetic Resonance Imaging, Visual field, Neuropsychology and Physiological Psychology, Pattern Recognition, Visual, Female, Visual Fields, Psychology, business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Viewing images of manipulable objects elicits differential blood oxygen level-dependent (BOLD) contrast across parietal and dorsal occipital areas of the human brain that support object-directed reaching, grasping, and complex object manipulation. However, it is unknown which object-selective regions of parietal cortex receive their principal inputs from the ventral object-processing pathway and which receive their inputs from the dorsal object-processing pathway. Parietal areas that receive their inputs from the ventral visual pathway, rather than from the dorsal stream, will have inputs that are already filtered through object categorization and identification processes. This predicts that parietal regions that receive inputs from the ventral visual pathway should exhibit object-selective responses that are resilient to contralateral visual field biases. To test this hypothesis, adult participants viewed images of tools and animals that were presented to the left or right visual fields during functional magnetic resonance imaging (fMRI). We found that the left inferior parietal lobule showed robust tool preferences independently of the visual field in which tool stimuli were presented. In contrast, a region in posterior parietal/dorsal occipital cortex in the right hemisphere exhibited an interaction between visual field and category: tool-preferences were strongest contralateral to the stimulus. These findings suggest that action knowledge accessed in the left inferior parietal lobule operates over inputs that are abstracted from the visual input and is contingent on analysis by the ventral visual pathway, consistent with its putative role in supporting object manipulation knowledge.

Published

2016

24. What is in a tool concept? Dissociating manipulation knowledge from function knowledge

Author

Frank E. Garcea and Bradford Z. Mahon

Subjects

Adult, Male, Adolescent, genetic structures, Concept Formation, Object (grammar), Experimental and Cognitive Psychology, behavioral disciplines and activities, Apraxia, Article, Young Adult, Cognition, Arts and Humanities (miscellaneous), Memory, Concept learning, medicine, Humans, Semantic memory, Cognitive science, medicine.diagnostic_test, Memoria, Neuropsychological test, medicine.disease, Semantics, Knowledge, Neuropsychology and Physiological Psychology, Embodied cognition, Female, Psychology, Psychomotor Performance, Cognitive psychology

Abstract

Research on patients with apraxia, a deficit in skilled action, has shown that the ability to use objects may be differentially impaired relative to knowledge about object function. Here we show, using a modified neuropsychological test, that similar dissociations can be observed in response times in healthy adults. Participants were asked to decide which two of three presented objects shared the same manipulation or the same function; triads were presented in picture and word format, and responses were made manually (button press) or with a basic-level naming response (verbally). For manual responses (Experiment 1), participants were slower to make manipulation judgments for word stimuli than for picture stimuli, while there was no difference between word and picture stimuli for function judgments. For verbal-naming responses (Experiment 2), participants were again slower for manipulation judgments over word stimuli, as compared with picture stimuli; however, and in contrast to Experiment 1, function judgments over word stimuli were faster than function judgments over picture stimuli. These data support the hypotheses that knowledge of object function and knowledge of object manipulation correspond to dissociable types of object knowledge and that simulation over motor information is not necessary in order to retrieve knowledge of object function.

Published

2012

25. Picture–word interference and the Response-Exclusion Hypothesis: A response to Mulatti and Coltheart

Author

Frank E. Garcea, Bradford Z. Mahon, and Eduardo Navarrete

Subjects

Speech production, Cognitive Neuroscience, Experimental and Cognitive Psychology, Neuropsychological Tests, Article, Neuropsychology and Physiological Psychology, Stroop Test, Word recognition, Humans, Misattribution of memory, Psychology, Social psychology, Word (computer architecture), Stroop effect, Cognitive psychology

Abstract

Mulatti and Coltheart (2011, this issue) review and summarize several findings from the picture-word interference paradigm that the authors argue challenge the Response Exclusion Hypothesis. However, the hypothesis they take to be the Response Exclusion Hypothesis is not that theory—it is an account developed by Mulatti and Coltheart that holds that target naming latencies in the picture-word paradigm are affected only by the process of excluding the distractor word (and by nothing else). We consider some of the background assumptions implicit in Mulatti and Coltheart’s discussion that may have led to this misattribution. Finally, we report a replication of an effect originally described by Dalrymple-Alford (1972) that serves as an empirical basis for reiterating the main points of our proposal and outlining the challenges that lie ahead.

Published

2012

26. When concepts lose their color: A case of object color knowledge impairment

Author

Alena Stasenko, Mary L. Dombovy, Frank E. Garcea, and Bradford Z. Mahon

Subjects

Male, genetic structures, Color vision, Cognitive Neuroscience, Concept Formation, Experimental and Cognitive Psychology, Sensory system, Semantic domain, Neuropsychological Tests, Article, Visual processing, Concept learning, Semantic memory, Humans, Communication, Modality (human–computer interaction), business.industry, Middle Aged, Object (philosophy), Neuropsychology and Physiological Psychology, Knowledge, business, Psychology, Cognition Disorders, Intracranial Hemorrhages, Color Perception, Cognitive psychology

Abstract

Color is important in our daily interactions with objects, and plays a role in both low- and high-level visual processing. Previous neuropsychological studies have shown that color perception and object-color knowledge can doubly dissociate, and that both can dissociate from processing of object form. We present a case study of an individual who displayed an impairment for knowledge of the typical colors of objects, with preserved color perception and color naming. Our case also presented with a pattern of, if anything, worse performance for naming living items compared to non-living things. The findings of the experimental investigation are evaluated in light of two theories of conceptual organization in the brain: the Sensory/Functional Theory and the Domain-Specific Hypothesis. The dissociations observed in this case compel a model in which sensory/motor modality and semantic domain jointly constrain the organization of object knowledge.

Published

2014

27. Parcellation of left parietal tool representations by functional connectivity

Author

Bradford Z. Mahon and Frank E. Garcea

Subjects

Adult, Cognitive Neuroscience, Posterior parietal cortex, Experimental and Cognitive Psychology, Intraparietal sulcus, Article, Premotor cortex, Behavioral Neuroscience, Young Adult, Cortex (anatomy), Parietal Lobe, medicine, Humans, Mirror neuron, Brain Mapping, medicine.diagnostic_test, Tool Use Behavior, Working memory, Parietal lobe, Brain, Magnetic Resonance Imaging, medicine.anatomical_structure, Visual Perception, Nerve Net, Psychology, Functional magnetic resonance imaging, Neuroscience

Abstract

Manipulating a tool according to its function requires the integration of visual, conceptual, and motor information, a process subserved in part by left parietal cortex. How these different types of information are integrated and how their integration is reflected in neural responses in the parietal lobule remains an open question. Here, participants viewed images of tools and animals during functional magnetic resonance imaging (fMRI). k-Means clustering over time series data was used to parcellate left parietal cortex into subregions based on functional connectivity to a whole brain network of regions involved in tool processing. One cluster, in the inferior parietal cortex, expressed privileged functional connectivity to the left ventral premotor cortex. A second cluster, in the vicinity of the anterior intraparietal sulcus, expressed privileged functional connectivity with the left medial fusiform gyrus. A third cluster in the superior parietal lobe expressed privileged functional connectivity with dorsal occipital cortex. Control analyses using Monte Carlo style permutation tests demonstrated that the clustering solutions were outside the range of what would be observed based on chance ‘lumpiness’ in random data, or mere anatomical proximity. Finally, hierarchical clustering analyses were used to formally relate the resulting parcellation scheme of left parietal tool representations to previous work that has parcellated the left parietal lobule on purely anatomical grounds. These findings demonstrate significant heterogeneity in the functional organization of manipulable object representations in left parietal cortex, and outline a framework that generates novel predictions about the causes of some forms of upper limb apraxia.

Published

2013

28. A right visual field advantage for visual processing of manipulable objects

Author

Jorge Almeida, Frank E. Garcea, and Bradford Z. Mahon

Subjects

Adult, Male, Adolescent, Cognitive Neuroscience, Speech recognition, Object (grammar), Poison control, Article, Functional Laterality, 050105 experimental psychology, Lateralization of brain function, Visual processing, Young Adult, 03 medical and health sciences, Behavioral Neuroscience, Discrimination, Psychological, 0302 clinical medicine, Reaction Time, Humans, Visual Pathways, 0501 psychology and cognitive sciences, Analysis of Variance, Communication, business.industry, 05 social sciences, Cognitive neuroscience of visual object recognition, Recognition, Psychology, Semantics, Categorization, Laterality, Visual Perception, Female, Visual Fields, Psychology, business, Priming (psychology), 030217 neurology & neurosurgery

Abstract

Information about object-associated manipulations is lateralized to left parietal regions, while information about the visual form of tools is represented bilaterally in ventral occipito-temporal cortex. It is unknown how lateralization of motor-relevant information in left-hemisphere dorsal stream regions may affect the visual processing of manipulable objects. We used a lateralized masked priming paradigm to test for a right visual field (RVF) advantage in tool processing. Target stimuli were tools and animals, and briefly presented primes were identical to or scrambled versions of the targets. In Experiment 1, primes were presented either to the left or to the right of the centrally presented target, while in Experiment 2, primes were presented in one of eight locations arranged radially around the target. In both experiments, there was a RVF advantage in priming effects for tool but not for animal targets. Control experiments showed that participants were at chance for matching the identity of the lateralized primes in a picture-word matching experiment and also ruled out a general RVF speed-of-processing advantage for tool images. These results indicate that the overrepresentation of tool knowledge in the left hemisphere affects visual object recognition and suggests that interactions between the dorsal and ventral streams occurs during object categorization.

Published

2012