The Global-First Topological Definition of Perceptual Objects, and Its Neural Correlation in Anterior Temporal Lobe

The anterior temporal lobe (ATL) sits at the confluence of auditory, visual, olfactory, transmodal, and limbic processing hierarchies. In keeping with this anatomical heterogeneity, the ATL has been implicated in numerous functional domains, including language, semantic memory, social cognition, and facial identification. One question that has attracted considerable discussion is whether the ATL contains a mosaic of differentially specialized areas or whether it provides a domain-independent amodal hub. In the current study, based on task-free fMRI in right-handed neurologically intact participants, we found that the left lateral ATL is interconnected with hubs of the temporosylvian language network, including the inferior frontal gyrus and middle temporal gyrus of the ipsilateral hemisphere and, to a lesser extent, with homotopic areas of the contralateral hemisphere. In contrast, the right lateral ATL had much weaker functional connectivity with these regions in either hemisphere. Together with evidence that has been gathered in lesion-mapping and event-related neuroimaging studies, this asymmetry of functional connectivity supports the inclusion of the left ATL within the language network, a relationship that had been overlooked by classic aphasiology. The asymmetric domain selectivity for language of the left ATL, together with the absence of such an affiliation in the right ATL, is inconsistent with a strict definition of domain-independent amodal functionality in this region of the brain.

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Faculty Opinions recommendation of Impaired familiarity with preserved recollection after anterior temporal-lobe resection that spares the hippocampus.

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

10.3410/f.1091350.545784 ◽

2007 ◽

Author(s):

Howard Eichenbaum

Keyword(s):

Temporal Lobe ◽

Anterior Temporal Lobe ◽

Temporal Lobe Resection

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Faculty Opinions recommendation of Anterior temporal lobe connectivity correlates with functional outcome after aphasic stroke.

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

10.3410/f.2102957.1696055 ◽

2010 ◽

Author(s):

Jean-Francois Demonet

Keyword(s):

Functional Outcome ◽

Temporal Lobe ◽

Anterior Temporal Lobe

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Cerebral trauma-induced dyschromatopsia in the left hemifield: case presentation

BMC Ophthalmology ◽

10.1186/s12886-020-01800-7 ◽

2021 ◽

Vol 21 (1) ◽

Author(s):

Yoko Mase ◽

Yoshitsugu Matsui ◽

Eriko Uchiyama ◽

Hisashi Matsubara ◽

Masahiko Sugimoto ◽

...

Keyword(s):

Visual Field ◽

Color Vision ◽

Temporal Lobe ◽

Fusiform Gyrus ◽

Ganglion Cell Complex ◽

Automated Perimetry ◽

Subjective Symptoms ◽

Anterior Temporal Lobe ◽

Case Presentation ◽

Cerebral Trauma

Abstract Background Acquired color anomalies caused by cerebral trauma are classified as either achromatopsias or dyschromatopsias (Zeki, Brain 113:1721–1777, 1990). The three main brain regions stimulated by color are V1, the lingual gyrus, which was designated as human V4 (hV4), and the fusiform gyrus, designated as V4α. (Zeki, Brain 113:1721–1777, 1990). An acquired cerebral color anomaly is often accompanied by visual field loss (hemi- and quadrantanopia), facial agnosia, prosopagnosia, visual agnosia, and anosognosia depending on the underlying pathology (Bartels and Zeki, Eur J Neurosci 12:172–193, 2000), (Meadows, Brain 97:615–632, 1974), (Pearman et al., Ann Neurol 5:253–261, 1979). The purpose of this study was to determine the characteristics of a patient who developed dyschromatopsia following a traumatic injury to her brain. Case presentation The patient was a 24-year-old woman who had a contusion to her right anterior temporal lobe. After the injury, she noticed color distortion and that blue objects appeared green in the left half of the visual field. Although conventional color vision tests did not detect any color vision abnormalities, short wavelength automated perimetry (SWAP) showed a decrease in sensitivity consistent with a left hemi-dyschromatopsia. Magnetic resonance imaging (MRI) detected abnormalities in the right fusiform gyrus, a part of the anterior temporal lobe. At follow-up 14 months later, subjective symptoms had disappeared, but the SWAP abnormalities persisted and a thinning of the sectorial ganglion cell complex (GCC) was detected. Conclusion The results indicate that although the subjective symptoms resolved early, a reduced sensitivity of SWAP remained and the optical coherence tomography (OCT) showed GCC thinning. We conclude that local abnormalities in the anterior section of fusiform gyrus can cause mild cerebral dyschromatopsia without other symptoms. These findings indicate that it is important to listen to the symptoms of the patient and perform appropriate tests including the SWAP and OCT at the early stage to objectively prove the presence of acquired cerebral color anomaly.

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