Sylvian Fissure

Sylvian Fissure or Lateral Sulcus

Ashley Davidoff MD

  The Common Vein Copyright 2010

Definition

 The Sylvian fissure or lateral sulcus is one the most prominent and most easily recognized fissures of the brain contributes to the defining and well recognized shape of the external brain.  It lies between the temporal lobe inferiorly amd the frontal and parieta lobe superiorly.

Basic Concept

Sylvian Fissure (thin red line)

This artistic rendition of the brain reflects the vectors of the major parts of the brain revealing the major border forming fissures and sulci. The central sulcus (bright green line) divides the frontal lobe from the parietal lobe (light mauve). The region of the parieto-occipital fissure (pink line) divides the parietal lobe from the occipital lobe (purple), and the Sylvian fissure (thin red line)divides the temporal lobe from the frontal and parietal lobe

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External Sagittal View

Sylvian Fissure in Red

This is a diagram looking at the forebrain from the side showing the anteriorly placed frontal lobe, separated from the inferiorly placed temporal lobe by the Sylvian fissure (red), and separated from the parietal lobe by the central sulcus (green). The parietal lobe is also separated from the temporal lobe by the Sylvian fissure and from the occipital lobe by the parieto-occipital fissure (pink).

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The Sylvian Fissure and the Operculum

The Sylvian fissure (red) lies in close association to the the insula (purple).  The upper lid of the operculum is part of the parietal cortex (pink) as well as parts of the frontal cortex, and the lower lid of the operculum (green) is part of the temporal lobe.

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The Sylvian Fissure, the Frontoparietal region and the Temporal Lobe

The coronal T1 weighted image of the brain reveals the relationship of the Sylvian Fissure to the insular cortex.   The lateral somatosensory cortex is centered around the Sylvian fissure (red) It incorporates the insula (purple) the upper lid of the operculum which is part of the parietal cortex (pink) as well as parts of the frontal cortex, and the lower lid of the operculum (green) which is part of the temporal lobe.

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Conceptual Drawing of the Sylvian Fissure in Axial Projection

At this level the parietooccipital fissure (pink) defines the anterior edge of the occipital lobe posteriorly (purple). The Sylvian fissure (bright red lines) defines the temporal lobes (light red)

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Sylvian Fissure in Axial Projection

The axial image is intended to demonstrate ttwo important fissures; the Sylvian fissure (in red) the parieto-occipital fissure (pink) in order to demonstrate the border between the frontal and temporal lobe in the axial plane and the junction of the temporal and occipital lobe

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Sylvian Fissure in Coronal Projection

In this T2 weighted MRI image – the forebrain (green is seen centered aroubnd the ventriclar system. The red linees indicate the Sylvian fissures which in this instance in a relatively posterior cut reflect the parietal lobe superiorly and the temporal lobes inferiorly (darker green) The temporal lobes rest of the tentorium (white curvilinear convex lines). below the tenntorium is the midbrain and hind brain

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The Sylvian Fissure as a Border between the Frontoparietal region and the Temporal Lobe

In the same cut the fissural landmarks enable us to divide the brain into the two hemispheres (blue interhemispheric fissure) and the Sylvian fissure (red) divides the frontoparietal region in the anterior craial fossa from the temporal lobe in the middle cranial fossa.

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Applied Biology – Diseases Around the Fissure

Acute Lenticulostriate Infarction – Subinsular and Deep to the Sylvian Fissure

The CT and MRI images are from an 82 year old make with acute neurological deficit. An acute infarction is shown that involves territory within and beyond the basal ganglia. In the CTscan two low density regions are seen medial to the Sylvian fissure and medial to the insular cortex, likely involving the putamen and the part of the right caudate nucleus as well as some white matter in right middle cerebra;l territory. In the second image a high intensity region in the putamen and part of the caudate nucleus is shown together with an area that does not involve the basal ganglia more posteriorly, likely part of the white matter of the right parietal lobe shown in an axial projection on DWI consistent with an acute infarction. The third image is an axial FLAIR sequence and shows the area of parenchymal edema with presumed central necrosis, while the image at low right shows the periventricular disease to better advantage. The constellation of findings is consistent with an acute infarction with distribution of the lenticulostriate vessels arising from the right middle cerebral territory

Courtesy Ashley Davidoff MD Copyright 2010 All rights reserved 89367c01.8s

Chric Infarction of the Insula Cortex with Secondary Enlargement of the Sylvian Fissure

The non contrast CTscan is from elderly patient and reveals volume loss in the region of the insular cortex (insula) with secondary enlargement of the Sylvian fissure as a result of loss of tissue, caused by gliosis and encephalomalacia of the insular cortex. The process may involve the claustrum as well A low density lesion in the left caudate nucleus represents an old infarct. (lacune)

Courtesy Ashley Davidoff MD Copyright 2010 All rights reserved 89384.8s

Chronic Infarction in the Region of the Sylvian Fissure

The MRI from a 91 year old male patient with a chronic infarction in the region of the Sylvian fissure. Image a shows a coronal T1 weighted image with an expanded Sylvian fissure due to volume loss in the region of the insular cortex (insula) with secondary enlargement of the Sylvian fissure as a result of loss of tissue, caused by gliosis and encephalomalacia of the insular cortex. In image b an axial T2 weighted image shows the hyperintense expanded Sylvian fissure surrounded by the less intense chronic infarct in the cerebral tissue. The border between the expanded fissure and the infarcted tissue is ill defined. Image c is a coronal FLAIR image showing the process of gliosis and FLAIR intensity of chronic infarction, and this is seen again in the FLAIR image in axial projection 9D) where the distinction between the expanded Sylvian fissure and the diseased cerebral tissue is quite clear. The deformity of the lateral ventricle indicates ex vacuo change and encephalomalacia male brain cerebrum right frontal lobe extending between the Sylvian fissure and precentral gyrus white matter and medially to the surface of the lateral ventricle

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