Corpus callosum

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The corpus callosum ~~(CC)~~ isis the largest of the commissural fibres, linking the cerebral cortex of the left and right cerebral hemisphere. It is the largest fibre pathway in the brain.

Gross anatomy

The corpus callosum is approximately 10 cm in length and is C-shaped, like most of the supratentorial structures, in a gentle upwardly convex arch. It becomes thicker posteriorly.

It is divided into four parts (anterior to posterior):

rostrum (continuous with the lamina terminalis)
genu
trunk/body
splenium

Relations

Immediately above the body of the CCcorpus callosum, lies the interhemispheric fissure in which runs the falx cerebri, the anterior cerebral vessels. The superior surface of the CCcorpus callosum is covered by a thin layer of grey matter known as the indusium griseum.

On either side, the body is separated from the cingulate gyrus by the callosal sulcus.

Attached to the concave undersurface of the CCcorpus callosum is the septum pellucidum anteriorly, and the fornix and its commissure posteriorly.

Fibre tracts

Although the CC can be seen as a single large fibre bundle connecting the two hemispheres, a number of individual fibre tracts can be identified. These include:

genu: forceps minor connects medial and lateral surfaces of the frontal lobes
rostrum: connecting the orbital surfaces of the frontal lobes
trunk (body): pass through the corona radiata to the surfaces of the hemispheres
trunk and splenium: tapetum;extends along the lateral surface of the occipital and temporal horns of the lateral ventricle
splenium: forceps major; connect the occipital lobes

These connections can also be divided into:

homotopic connections: those that link similar regions on each side (e.g. visual fields of motor/sensory areas of the trunk)
heterotopic connections: those that link dysimilar areas

Blood supply

The corpus callosum (CC) has a rich blood supply, relatively constant and is uncommonly involved by infarcts. The majority of the CC is supplied by the pericallosal arteries (the small branches and accompanying veins forming the pericallosal moustache) and the posterior pericallosal arteries, branches from the anterior and posterior cerebral respectively. In 80% of patients, additional supply comes from the anterior communicating artery, via either the subcallosal artery or median callosal artery.

subcallosal artery (50% of patients) is essentially a large version of a ~~hypothalmic~~hypothalamic branch, which in addition to supplying part of the hypothalamus also supplies the medial portions of the rostrum and genu

median callosal artery (30% of patients) can be thought of as a more extended version of the subcallosal artery, in that it travels along the same course, supplies the same structures but additionally reaches the body of the corpus callosum

posterior pericallosal artery (also known as the splenial artery) supplies a variable portion of the ~~splenieum~~splenium. Its origin is inconstant, arising from P3 or branches thereof

Development

The development of the corpus callosum occurs between the 12^th and 16-20^th weeks of gestation ⁶. It begins with the genu and then continues posteriorly along the body to the splenium. The rostrum is the last part to be formed.

Myelination of the corpus callosum occurs in the opposite direction, from the splenium forwards.

Variant anatomy

dysgenesis of the corpus callosum

-<p>The <strong>corpus callosum</strong> <strong>(CC)</strong> is the largest of the commissural fibres, linking the <a href="/articles/cerebral-cortex">cerebral cortex</a> of the left and right <a href="/articles/cerebral-hemisphere">cerebral hemisphere</a>. It is the largest fibre pathway in the <a href="/articles/brain">brain</a>.</p><h4>Gross anatomy</h4><p>The corpus callosum is approximately 10 cm in length and is C-shaped, like most of the supratentorial structures, in a gentle upwardly convex arch. It becomes thicker posteriorly.</p><p>It is divided into four parts (anterior to posterior):</p><ul>
+<p>The <strong>corpus callosum</strong> is the largest of the commissural fibres, linking the <a href="/articles/cerebral-cortex">cerebral cortex</a> of the left and right <a href="/articles/cerebral-hemisphere">cerebral hemisphere</a>. It is the largest fibre pathway in the <a href="/articles/brain">brain</a>.</p><h4>Gross anatomy</h4><p>The corpus callosum is approximately 10 cm in length and is C-shaped, like most of the supratentorial structures, in a gentle upwardly convex arch. It becomes thicker posteriorly.</p><p>It is divided into four parts (anterior to posterior):</p><ul>
-</ul><h5>Relations</h5><p>Immediately above the body of the CC, lies the interhemispheric fissure in which runs the falx cerebri, the anterior cerebral vessels. The superior surface of the CC is covered by a thin layer of grey matter known as the <a href="/articles/indusium-griseum-2">indusium griseum</a>.</p><p>On either side, the body is separated from the <a href="/articles/cingulate-gyrus">cingulate gyrus</a> by the callosal sulcus.</p><p>Attached to the concave undersurface of the CC is the septum pellucidum anteriorly, and the fornix and its commissure posteriorly.</p><h5>Fibre tracts</h5><p>Although the CC can be seen as a single large fibre bundle connecting the two hemispheres, a number of individual fibre tracts can be identified. These include:</p><ul>
+</ul><h5>Relations</h5><p>Immediately above the body of the corpus callosum, lies the interhemispheric fissure in which runs the falx cerebri, the anterior cerebral vessels. The superior surface of the corpus callosum is covered by a thin layer of grey matter known as the <a href="/articles/indusium-griseum-2">indusium griseum</a>.</p><p>On either side, the body is separated from the <a href="/articles/cingulate-gyrus">cingulate gyrus</a> by the callosal sulcus.</p><p>Attached to the concave undersurface of the corpus callosum is the septum pellucidum anteriorly, and the fornix and its commissure posteriorly.</p><h5>Fibre tracts</h5><p>Although the CC can be seen as a single large fibre bundle connecting the two hemispheres, a number of individual fibre tracts can be identified. These include:</p><ul>
-</ul><h4>Blood supply</h4><p>The corpus callosum (CC) has a rich blood supply, relatively constant and is uncommonly involved by infarcts. The majority of the CC is supplied by the <a href="/articles/pericallosal-artery">pericallosal arteries</a> (the small branches and accompanying veins forming the <a href="/articles/pericallosal-moustache">pericallosal moustache</a>) and the posterior pericallosal arteries, branches from the anterior and posterior cerebral respectively. In 80% of patients additional supply comes from the anterior communicating artery, via either subcallosal artery or median callosal artery.</p><ul><li>
-<a href="/articles/subcallosal-artery">subcallosal artery</a> (50% of patients) is essentially a large version of a hypothalmic branch, which in addition to supplying part of the hypothalamus also supplies the medial portions of the rostrum and genu</li></ul><ul><li>
+</ul><h4>Blood supply</h4><p>The corpus callosum (CC) has a rich blood supply, relatively constant and is uncommonly involved by infarcts. The majority of the CC is supplied by the <a href="/articles/pericallosal-artery">pericallosal arteries</a> (the small branches and accompanying veins forming the <a href="/articles/pericallosal-moustache">pericallosal moustache</a>) and the posterior pericallosal arteries, branches from the anterior and posterior cerebral respectively. In 80% of patients, additional supply comes from the anterior communicating artery, via either the subcallosal artery or median callosal artery.</p><ul><li>
+<a href="/articles/subcallosal-artery">subcallosal artery</a> (50% of patients) is essentially a large version of a hypothalamic branch, which in addition to supplying part of the hypothalamus also supplies the medial portions of the rostrum and genu</li></ul><ul><li>
-<a href="/articles/posterior-pericallosal-artery">posterior pericallosal artery</a> (also known as splenial artery) supplies a variable portion of the splenieum. Its origin is inconstant, arising from P3 or branches thereof</li></ul><h4>Development</h4><p>The development of the <a href="/articles/corpus-callosum">corpus callosum</a> occurs between the 12<sup>th</sup> and 16-20<sup>th</sup> weeks of gestation <sup>6</sup>. It begins with the genu and then continues posteriorly along the body to the splenium. The rostrum is the last part to be formed.</p><p>Myelination of the corpus callosum occurs in the opposite direction, from the splenium forwards.</p><h4>Variant anatomy</h4><ul><li><a href="/articles/dysgenesis-of-the-corpus-callosum">dysgenesis of the corpus callosum</a></li></ul>
+<a href="/articles/posterior-pericallosal-artery">posterior pericallosal artery</a> (also known as the splenial artery) supplies a variable portion of the splenium. Its origin is inconstant, arising from P3 or branches thereof</li></ul><h4>Development</h4><p>The development of the <a href="/articles/corpus-callosum">corpus callosum</a> occurs between the 12<sup>th</sup> and 16-20<sup>th</sup> weeks of gestation <sup>6</sup>. It begins with the genu and then continues posteriorly along the body to the splenium. The rostrum is the last part to be formed.</p><p>Myelination of the corpus callosum occurs in the opposite direction, from the splenium forwards.</p><h4>Variant anatomy</h4><ul><li><a href="/articles/dysgenesis-of-the-corpus-callosum">dysgenesis of the corpus callosum</a></li></ul>

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