Dynamic Diaschisis: Anatomically Remote and Context-Sensitive Human Brain Lesions

Functional neuroimaging was used to investigate how lesions to the Broca's area impair neuronal responses in remote undamaged cortical regions. Four patients with speech output problems, but relatively preserved comprehension, were scanned while viewing words relative to consonant letter strings. In normal subjects, this results in left lateralized activation in the posterior inferior frontal, middle temporal, and posterior inferior temporal cortices. Each patient activated normally in the middle temporal region but abnormally in the damaged posterior inferior frontal cortex and the undamaged posterior inferior temporal cortex. In the damaged frontal region, activity was insensitive to the presence of words but in the undamaged posterior inferior temporal region, activity decreased in the presence of words rather than increasing as it did in the normal individuals. The reversal of responses in the left posterior inferior temporal region illustrate the context-sensitive nature of the abnormality and that failure to activate the left posterior temporal region could not simply be accounted for by insufficient demands on the underlying function. We propose that, in normal individuals, visual word presentation changes the effective connectivity among reading areas and, in patients, posterior temporal responses are abnormal when they depend upon inputs from the damaged inferior frontal cortex. Our results serve to introduce the concept of dynamic diaschisis; the anatomically remote and context-sensitive effects of focal brain lesions. Dynamic diaschisis reveals abnormalities of functional integration that may have profound implications for neuropsychological inference, functional anatomy and, vicariously, cognitive rehabilitation.

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Abnormal Brain Protein Synthesis in Language Areas of Children With Pervasive Developmental Disorder

Journal of Child Neurology ◽

10.1177/0883073811405200 ◽

2011 ◽

Vol 26 (11) ◽

pp. 1347-1354 ◽

Cited By ~ 6

Author(s):

Varun Shandal ◽

Senthil K. Sundaram ◽

Diane C. Chugani ◽

Ajay Kumar ◽

Michael E. Behen ◽

...

Keyword(s):

Protein Synthesis ◽

Developmental Delay ◽

Pervasive Developmental Disorder ◽

Developmental Disorder ◽

Rating Scale ◽

Synthesis Rate ◽

Protein Synthesis Rate ◽

Temporal Region ◽

Middle Temporal ◽

Left Posterior

This study was performed to evaluate the cerebral protein synthesis rate of language brain regions in children with developmental delay with and without pervasive developmental disorder. The authors performed L-[1-11C]-leucine positron emission tomography (PET) on 8 developmental delay children with pervasive developmental disorder (mean age, 76.25 months) and 8 developmental delay children without pervasive developmental disorder (mean age, 77.63 months). They found a higher protein synthesis rate in developmental delay children with pervasive developmental disorder in the left posterior middle temporal region ( P = .014). There was a significant correlation of the Gilliam Autism Rating Scale autism index score with the protein synthesis rate of the left posterior middle temporal region ( r = .496, P = .05). In addition, significant asymmetric protein synthesis (right > left) was observed in developmental delay children without pervasive developmental disorder in the middle frontal and posterior middle temporal regions ( P = .03 and P = .04, respectively). In conclusion, abnormal language area protein synthesis in developmentally delayed children may be related to pervasive symptoms.

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Cued Naming and the left inferior frontal cortex

10.1101/2021.02.10.430676 ◽

2021 ◽

Author(s):

Rachel Holland ◽

Jennifer T. Crinion

Keyword(s):

Frontal Cortex ◽

Acoustic Noise ◽

Anterior Insula ◽

Lexical Selection ◽

Supramarginal Gyrus ◽

Auditory Cues ◽

Healthy Older Adults ◽

Inferior Frontal Cortex ◽

Left Posterior ◽

Object Picture

AbstractClinical studies have shown that naming can be behaviorally facilitated by priming, e.g., phonemic cues reduce anomia. Rehabilitation of language is argued to rely upon the same processes of priming in healthy speakers. Here we show, in healthy older adults, the immediate facilitatory behavioral and neural priming elicited by phonemic cues presented during an fMRI experiment of overt naming; thus, bridging the gap between lesion and neuroimaging studies. Four types of auditory cues were presented concurrently with an object picture (e.g., cat): (i) word (i.e., the target name (/kat/), (ii) initial phoneme segment (e.g., /ka/), (iii) final phoneme segment (/at/), or (iv) acoustic (noise) control cue. Naming was significantly faster with word, initial and final phonemic cues compared to noise; and word and initial cues compared to final cues, with no difference between word and initial cues. A neural priming effect – a significant decrease in neural activity – was observed in the left inferior frontal cortex (LIFC, pars triangularis, BA45) and the anterior insula bilaterally consistent with theories of primed articulatory encoding and post-lexical selection. The reverse contrast revealed increased activation in left posterior dorsal supramarginal gyrus for word cues that, we argue, may reflect integration of semantic and phonology processing during word rather than phonemic conditions. Taken together, these data from unimpaired speakers identified nodes within the naming network affected by phonemic cues. Activity within these regions may act as a possible biomarker to index anomic individuals’ responsiveness to phonemically cued anomia treatment.

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Speaking in the Brain: The Interaction between Words and Syntax in Sentence Production

Journal of Cognitive Neuroscience ◽

10.1162/jocn_a_01563 ◽

2020 ◽

Vol 32 (8) ◽

pp. 1466-1483

Author(s):

Atsuko Takashima ◽

Agnieszka Konopka ◽

Antje Meyer ◽

Peter Hagoort ◽

Kirsten Weber

Keyword(s):

Language Production ◽

Inferior Frontal Gyrus ◽

Sentence Production ◽

Angular Gyrus ◽

Middle Temporal Gyrus ◽

Temporal Region ◽

Middle Temporal ◽

Sentence Level ◽

Left Posterior ◽

Language Network

This neuroimaging study investigated the neural infrastructure of sentence-level language production. We compared brain activation patterns, as measured with BOLD-fMRI, during production of sentences that differed in verb argument structures (intransitives, transitives, ditransitives) and the lexical status of the verb (known verbs or pseudoverbs). The experiment consisted of 30 mini-blocks of six sentences each. Each mini-block started with an example for the type of sentence to be produced in that block. On each trial in the mini-blocks, participants were first given the (pseudo-)verb followed by three geometric shapes to serve as verb arguments in the sentences. Production of sentences with known verbs yielded greater activation compared to sentences with pseudoverbs in the core language network of the left inferior frontal gyrus, the left posterior middle temporal gyrus, and a more posterior middle temporal region extending into the angular gyrus, analogous to effects observed in language comprehension. Increasing the number of verb arguments led to greater activation in an overlapping left posterior middle temporal gyrus/angular gyrus area, particularly for known verbs, as well as in the bilateral precuneus. Thus, producing sentences with more complex structures using existing verbs leads to increased activation in the language network, suggesting some reliance on memory retrieval of stored lexical–syntactic information during sentence production. This study thus provides evidence from sentence-level language production in line with functional models of the language network that have so far been mainly based on single-word production, comprehension, and language processing in aphasia.

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FUNCTIONAL INTEGRATION BETWEEN THE ANTERIOR HIPPOCAMPUS AND INFERIOR FRONTAL CORTEX IS IMPAIRED IN BOTH SCHIZOPHRENIA AND THE “AT RISK MENTAL STATE”

Schizophrenia Research ◽

10.1016/s0920-9964(08)70293-7 ◽

2008 ◽

Vol 102 (1-3) ◽

pp. 97

Author(s):

Stefania Benetti ◽

Andrea Mechelli ◽

Marco Picchioni ◽

Pall Matthiasson ◽

Matthew R Broome ◽

...

Keyword(s):

At Risk ◽

Frontal Cortex ◽

Mental State ◽

Functional Integration ◽

Inferior Frontal Cortex ◽

At Risk Mental State

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Faculty Opinions recommendation of Transcranial direct current stimulation over left inferior frontal cortex improves speech fluency in adults who stutter.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.732595992.793544083 ◽

2018 ◽

Author(s):

Kristina Simonyan

Keyword(s):

Frontal Cortex ◽

Direct Current ◽

Transcranial Direct Current Stimulation ◽

Direct Current Stimulation ◽

Speech Fluency ◽

Inferior Frontal Cortex ◽

Adults Who Stutter

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An active role of inferior frontal cortex in conscious experience

Current Biology ◽

10.1016/j.cub.2021.04.043 ◽

2021 ◽

Author(s):

Veith Weilnhammer ◽

Merve Fritsch ◽

Meera Chikermane ◽

Anna-Lena Eckert ◽

Katharina Kanthak ◽

...

Keyword(s):

Frontal Cortex ◽

Conscious Experience ◽

Active Role ◽

Inferior Frontal Cortex

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Decreased event-related theta power and phase-synchrony in young binge drinkers during target detection: An anatomically-constrained MEG approach

Journal of Psychopharmacology ◽

10.1177/0269881118805498 ◽

2018 ◽

Vol 33 (3) ◽

pp. 335-346 ◽

Cited By ~ 8

Author(s):

A Correas ◽

E López-Caneda ◽

L Beaton ◽

S Rodríguez Holguín ◽

LM García-Moreno ◽

...

Keyword(s):

Alcohol Consumption ◽

Frontal Cortex ◽

Binge Drinking ◽

Target Detection ◽

Attentional Control ◽

Theta Power ◽

Inferior Frontal Cortex ◽

Binge Drinkers ◽

The Right ◽

Integrative Processing

Background: The prevalence of binge drinking has risen in recent years. It is associated with a range of neurocognitive deficits among adolescents and young emerging adults who are especially vulnerable to alcohol use. Attention is an essential dimension of executive functioning and attentional disturbances may be associated with hazardous drinking. The aim of the study was to examine the oscillatory neural dynamics of attentional control during visual target detection in emerging young adults as a function of binge drinking. Method: In total, 51 first-year university students (18 ± 0.6 years) were assigned to light drinking ( n = 26), and binge drinking ( n = 25) groups based on their alcohol consumption patterns. A high-density magnetoencephalography signal was combined with structural magnetic resonance imaging in an anatomically constrained magnetoencephalography model to estimate event-related source power in a theta (4–7 Hz) frequency band. Phase-locked co-oscillations were further estimated between the principally activated regions during task performance. Results: Overall, the greatest event-related theta power was elicited by targets in the right inferior frontal cortex and it correlated with performance accuracy and selective attention scores. Binge drinkers exhibited lower theta power and dysregulated oscillatory synchrony to targets in the right inferior frontal cortex, which correlated with higher levels of alcohol consumption. Conclusions: These results confirm that a highly interactive network in the right inferior frontal cortex subserves attentional control, revealing the importance of theta oscillations and neural synchrony for attentional capture and contextual maintenance. Attenuation of theta power and synchronous interactions in binge drinkers may indicate early stages of suboptimal integrative processing in young, highly functioning binge drinkers.

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