The trans superior temporal gyrus approach for selective amygdalohippocamptectomy.

Background:Network level dysconnectivity has been studied in positive and negative symptoms of schizophrenia. Conceptual disorganization (CD) is a symptom subtype which predicts impaired real-world functioning in psychosis. Systematic reviews have reported aberrant connectivity in formal thought disorder, a construct related to CD. However, no studies have investigated whole-brain functional correlates of CD in psychosis. We sought to investigate brain regions explaining the severity of CD in patients with first-episode psychosis (FEPs) compared with healthy controls (HCs).Methods:We computed whole-brain binarized degree centrality maps of 31 FEPs, 25 HCs and characterized the patterns of network connectivity in the two groups. In FEPs, we related these findings to the severity of CD. We also studied the effect of positive and negative symptoms on altered network connectivity.Results:Compared to HCs, reduced hubness of a right superior temporal gyrus (rSTG) cluster was observed in the FEPs. In patients exhibiting high CD, increased hubness of a medial superior parietal (mSPL) cluster was observed, compared to patients exhibiting low CD. These two regions were strongly correlated with CD scores but not with other symptom scores.Discussion:Our observations are congruent with previous findings of reduced but not increased hubness. We observed increased hubness of mSPL suggesting that cortical reorganization occurs to provide alternate routes for information transfer.Conclusion:These findings provide insight into the underlying neural processes mediating the presentation of symptoms in untreated FEP. A longitudinal tracking of the symptom course will be useful to assess the mechanisms underlying these compensatory changes.

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Motor theory modulated by task load: strategies of phonological processing in frontal aphasia revealed by tDCS over the LIFG

10.31234/osf.io/xn9tf ◽

2019 ◽

Author(s):

Lílian Rodrigues de Almeida ◽

Paul A. Pope ◽

Peter Hansen

Keyword(s):

Speech Perception ◽

Speech Production ◽

Phonological Processing ◽

Inferior Frontal Gyrus ◽

Dorsal Stream ◽

Superior Temporal Gyrus ◽

Motor Theory ◽

Task Load ◽

Cathodal Tdcs ◽

The Individual

In our previous studies we supported the claim that the motor theory is modulated by task load. Motoric participation in phonological processing increases from speech perception to speech production, with the endpoints of the dorsal stream having changing and complementary weightings for processing: the left inferior frontal gyrus (LIFG) being increasingly relevant and the left superior temporal gyrus (LSTG) being decreasingly relevant. Our previous results for neurostimulation of the LIFG support this model. In this study we investigated whether our claim that the motor theory is modulated by task load holds in (frontal) aphasia. Person(s) with aphasia (PWA) after stroke typically have damage on brain areas responsible for phonological processing. They may present variable patterns of recovery and, consequently, variable strategies of phonological processing. Here these strategies were investigated in two PWA with simultaneous fMRI and tDCS of the LIFG during speech perception and speech production tasks. Anodal tDCS excitation and cathodal tDCS inhibition should increase with the relevance of the target for the task. Cathodal tDCS over a target of low relevance could also induce compensation by the remaining nodes. Responses of PWA to tDCS would further depend on their pattern of recovery. Responses would depend on the responsiveness of the perilesional area, and could be weaker than in controls due to an overall hypoactivation of the cortex. Results suggest that the analysis of motor codes for articulation during phonological processing remains in frontal aphasia and that tDCS is a promising diagnostic tool to investigate the individual processing strategies.

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Brain capillary structures of schizophrenia cases and controls show a correlation with their neuron structures

Scientific Reports ◽

10.1038/s41598-021-91233-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Rino Saiga ◽

Masayuki Uesugi ◽

Akihisa Takeuchi ◽

Kentaro Uesugi ◽

Yoshio Suzuki ◽

...

Keyword(s):

Blood Vessels ◽

Structural Parameters ◽

Three Dimensional ◽

Superior Temporal Gyrus ◽

Anterior Cingulate ◽

Dimensional Structure ◽

Constant Diameter ◽

The Mean ◽

Cartesian Coordinate ◽

Micrometer Scale

AbstractBrain blood vessels constitute a micrometer-scale vascular network responsible for supply of oxygen and nutrition. In this study, we analyzed cerebral tissues of the anterior cingulate cortex and superior temporal gyrus of schizophrenia cases and age/gender-matched controls by using synchrotron radiation microtomography or micro-CT in order to examine the three-dimensional structure of cerebral vessels. Over 1 m of cerebral blood vessels was traced to build Cartesian-coordinate models, which were then used for calculating structural parameters including the diameter and curvature of the vessels. The distribution of vessel outer diameters showed a peak at 7–9 μm, corresponding to the diameter of the capillaries. Mean curvatures of the capillary vessels showed a significant correlation to the mean curvatures of neurites, while the mean capillary diameter was almost constant, independent of the cases. Our previous studies indicated that the neurites of schizophrenia cases are thin and tortuous compared to controls. The curved capillaries with a constant diameter should occupy a nearly constant volume, while neurons suffering from neurite thinning should have reduced volumes, resulting in a volumetric imbalance between the neurons and the vessels. We suggest that the observed structural correlation between neurons and blood vessels is related to neurovascular abnormalities in schizophrenia.

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Provocation and prediction of visual peripersonal neglect-like symptoms in preoperative planning and during awake brain surgery

Acta Neurochirurgica ◽

10.1007/s00701-021-04822-2 ◽

2021 ◽

Author(s):

Viktória Tamás ◽

Gabriella Sebestyén ◽

Szilvia Anett Nagy ◽

Péter Zsolt Horváth ◽

Ákos Mérei ◽

...

Keyword(s):

Preoperative Planning ◽

Right Hemisphere ◽

Superior Temporal Gyrus ◽

Low Grade ◽

Navigated Transcranial Magnetic Stimulation ◽

Resonance Imaging ◽

Parietal Area ◽

Routine Magnetic Resonance Imaging ◽

Visuospatial Functions ◽

The Right

AbstractNeglect is a severe neuropsychological/neurological deficit that usually develops due to lesions of the posterior inferior parietal area of the right hemisphere and is characterized by a lack of attention to the left side. Our case is a proven right-handed, 30-year-old female patient with a low-grade glioma, which was located in the temporo-opercular region and also in the superior temporal gyrus of the right hemisphere. Upon presurgical planning, the motor, language, and visuospatial functions were mapped. In order to achieve this, the protocol for routine magnetic resonance imaging and navigated transcranial magnetic stimulation has been expanded, accordingly.

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Dissociable Mechanisms of Verbal Working Memory Revealed through Multivariate Lesion Mapping

Cerebral Cortex ◽

10.1093/cercor/bhz259 ◽

2019 ◽

Vol 30 (4) ◽

pp. 2542-2554 ◽

Cited By ~ 2

Author(s):

Maryam Ghaleh ◽

Elizabeth H Lacey ◽

Mackenzie E Fama ◽

Zainab Anbari ◽

Andrew T DeMarco ◽

...

Keyword(s):

Working Memory ◽

Spatial Working Memory ◽

Superior Temporal Gyrus ◽

Verbal Working Memory ◽

Brain Structures ◽

Brain Regions ◽

Task Demands ◽

Auditory Information ◽

Verbal Information ◽

Task Conditions

Abstract Two maintenance mechanisms with separate neural systems have been suggested for verbal working memory: articulatory-rehearsal and non-articulatory maintenance. Although lesion data would be key to understanding the essential neural substrates of these systems, there is little evidence from lesion studies that the two proposed mechanisms crucially rely on different neuroanatomical substrates. We examined 39 healthy adults and 71 individuals with chronic left-hemisphere stroke to determine if verbal working memory tasks with varying demands would rely on dissociable brain structures. Multivariate lesion–symptom mapping was used to identify the brain regions involved in each task, controlling for spatial working memory scores. Maintenance of verbal information relied on distinct brain regions depending on task demands: sensorimotor cortex under higher demands and superior temporal gyrus (STG) under lower demands. Inferior parietal cortex and posterior STG were involved under both low and high demands. These results suggest that maintenance of auditory information preferentially relies on auditory-phonological storage in the STG via a nonarticulatory maintenance when demands are low. Under higher demands, sensorimotor regions are crucial for the articulatory rehearsal process, which reduces the reliance on STG for maintenance. Lesions to either of these regions impair maintenance of verbal information preferentially under the appropriate task conditions.

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Temporal Encoding of the Voice Onset Time Phonetic Parameter by Field Potentials Recorded Directly From Human Auditory Cortex

Journal of Neurophysiology ◽

10.1152/jn.1999.82.5.2346 ◽

1999 ◽

Vol 82 (5) ◽

pp. 2346-2357 ◽

Cited By ~ 120

Author(s):

Mitchell Steinschneider ◽

Igor O. Volkov ◽

M. Daniel Noh ◽

P. Charles Garell ◽

Matthew A. Howard

Keyword(s):

Auditory Cortex ◽

Voice Onset Time ◽

Onset Time ◽

Stop Consonant ◽

Superior Temporal Gyrus ◽

Response Patterns ◽

Stop Consonants ◽

Field Potentials ◽

Heschl’S Gyrus ◽

Heschl's Gyrus

Voice onset time (VOT) is an important parameter of speech that denotes the time interval between consonant onset and the onset of low-frequency periodicity generated by rhythmic vocal cord vibration. Voiced stop consonants (/b/, /g/, and /d/) in syllable initial position are characterized by short VOTs, whereas unvoiced stop consonants (/p/, /k/, and t/) contain prolonged VOTs. As the VOT is increased in incremental steps, perception rapidly changes from a voiced stop consonant to an unvoiced consonant at an interval of 20–40 ms. This abrupt change in consonant identification is an example of categorical speech perception and is a central feature of phonetic discrimination. This study tested the hypothesis that VOT is represented within auditory cortex by transient responses time-locked to consonant and voicing onset. Auditory evoked potentials (AEPs) elicited by stop consonant-vowel (CV) syllables were recorded directly from Heschl's gyrus, the planum temporale, and the superior temporal gyrus in three patients undergoing evaluation for surgical remediation of medically intractable epilepsy. Voiced CV syllables elicited a triphasic sequence of field potentials within Heschl's gyrus. AEPs evoked by unvoiced CV syllables contained additional response components time-locked to voicing onset. Syllables with a VOT of 40, 60, or 80 ms evoked components time-locked to consonant release and voicing onset. In contrast, the syllable with a VOT of 20 ms evoked a markedly diminished response to voicing onset and elicited an AEP very similar in morphology to that evoked by the syllable with a 0-ms VOT. Similar response features were observed in the AEPs evoked by click trains. In this case, there was a marked decrease in amplitude of the transient response to the second click in trains with interpulse intervals of 20–25 ms. Speech-evoked AEPs recorded from the posterior superior temporal gyrus lateral to Heschl's gyrus displayed comparable response features, whereas field potentials recorded from three locations in the planum temporale did not contain components time-locked to voicing onset. This study demonstrates that VOT at least partially is represented in primary and specific secondary auditory cortical fields by synchronized activity time-locked to consonant release and voicing onset. Furthermore, AEPs exhibit features that may facilitate categorical perception of stop consonants, and these response patterns appear to be based on temporal processing limitations within auditory cortex. Demonstrations of similar speech-evoked response patterns in animals support a role for these experimental models in clarifying selected features of speech encoding.

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M146. NEUROCHEMICAL MODULATION OF AUDITORY CORTEX FUNCTIONAL CONNECTIVITY IN PATIENTS WITH AUDITORY VERBAL HALLUCINATIONS

Schizophrenia Bulletin ◽

10.1093/schbul/sbaa030.458 ◽

2020 ◽

Vol 46 (Supplement_1) ◽

pp. S191-S191

Author(s):

Sarah Weber ◽

Helene Hjelmervik ◽

Alexander R Craven ◽

Erik Johnsen ◽

Rune Kroken ◽

...

Keyword(s):

Functional Connectivity ◽

Temporal Lobe ◽

Superior Temporal Gyrus ◽

Underlying Mechanism ◽

Auditory Hallucinations ◽

Anterior Cingulate ◽

Gamma Aminobutyric Acid ◽

Auditory Verbal Hallucinations ◽

Left And Right ◽

Neurochemical Correlates

Abstract Background Auditory hallucinations have been linked to aberrant functioning of the left superior temporal gyrus (STG) and are associated with impaired cognitive control regulated by areas in the prefrontal cortex. However, the mechanisms behind these dysfunctions are still unclear. Methods The current study combined resting state connectivity fMRI with MR spectroscopy (MRS) in a sample of 81 psychosis patients to explore how neurochemical correlates of auditory hallucinations modulate left STG functioning. The analyses were focused on glutamate (Glu) and gamma-aminobutyric acid (GABA), two neurotransmitters with excitatory and inhibitory functions, respectively, since these have previously been implicated in psychosis. Results Glu and GABA showed differential relationships with left STG connectivity in patients with and without hallucinations. Specifically, Glu concentration in the anterior cingulate cortex (ACC) was positively related to functional connectivity between the left and right temporal lobe in hallucinating patients only. In contrast, GABA concentration in the ACC was negatively related to connectivity between the left and right temporal lobe in non-hallucinating patients only. Discussion These findings support a recently proposed model of interhemispheric temporal lobe miscommunication in auditory hallucinations and indicate prefrontal neurochemical modulation as a potential underlying mechanism. The results can further be integrated with previously suggested excitatory/inhibitory imbalances as neurochemical modulators in AVH.

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Stereological study of pyramidal neurons in the human superior temporal gyrus from childhood to adulthood

The Journal of Comparative Neurology ◽

10.1002/cne.23707 ◽

2015 ◽

Vol 523 (7) ◽

pp. 1054-1072 ◽

Cited By ~ 9

Author(s):

Nicole Barger ◽

Matthew F. Sheley ◽

Cynthia M. Schumann

Keyword(s):

Pyramidal Neurons ◽

Superior Temporal Gyrus

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Neural deficits in auditory phonological processing in Chinese children with English reading impairment

Bilingualism Language and Cognition ◽

10.1017/s1366728915000073 ◽

2015 ◽

Vol 19 (2) ◽

pp. 331-346 ◽

Cited By ~ 4

Author(s):

XIANGZHI MENG ◽

HANLIN YOU ◽

MEIXIA SONG ◽

AMY S. DESROCHES ◽

ZHENGKE WANG ◽

...

Keyword(s):

Second Language ◽

Phonological Processing ◽

Inferior Frontal Gyrus ◽

Superior Temporal Gyrus ◽

Neural Mechanism ◽

Reading Impairment ◽

English Reading ◽

L2 Learners ◽

L1 And L2 ◽

Esl Learners

Auditory phonological processing skills are critical for successful reading development in English not only in native (L1) speakers but also in second language (L2) learners. However, the neural deficits of auditory phonological processing remain unknown in English-as-the-second-language (ESL) learners with reading difficulties. Here we investigated neural responses during spoken word rhyme judgments in typical and impaired ESL readers in China. The impaired readers showed comparable activation in the left superior temporal gyrus (LSTG), but reduced activation in the left inferior frontal gyrus (LIFG) and left fusiform and reduced connectivity between the LSTG and left fusiform when compared to typical readers. These findings suggest that impaired ESL readers have relative intact representations but impaired manipulation of phonology and reduced or absent automatic access to orthographic representations. This is consistent with previous findings in native English speakers and suggests a common neural mechanism underlying English impairment across the L1 and L2 learners.

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