The third ventricle is a narrow, laterally flattened, vaguely rectangular region, filled with
cerebrospinal fluid, and lined by
ependyma. It is connected at the superior anterior corner to the
lateral ventricles, by the
interventricular foramina, and becomes the
cerebral aqueduct (
aqueduct of Sylvius) at the posterior caudal corner. Since the interventricular foramina are on the lateral edge, the corner of the third ventricle itself forms a bulb, known as the
anterior recess (it is also known as the
bulb of the ventricle). The roof of the ventricle comprises
choroid plexus, forming the inferior central portion of the
tela choroidea; immediately above the superior central portion of the tela choroidea is the
fornix. The lateral side of the ventricle is marked by a
sulcus – the
hypothalamic sulcus – from the inferior side of the interventricular foramina to the anterior side of the cerebral aqueduct. The lateral border posterior/superior of the sulcus constitutes the
thalamus, while anterior/inferior of the sulcus it constitutes the
hypothalamus. The
interthalamic adhesion usually tunnels through the thalamic portion of the ventricle, joining together the left and right halves of the thalamus, although it is sometimes absent, or split into more than one tunnel through the ventricle; it is currently unknown whether any nerve fibres pass between the left and right thalamus via the adhesion (it has more resemblance to a
herniation than a
commissure). The posterior border of the ventricle primarily constitutes the
epithalamus. The superior part of the posterior border constitutes the
habenular commissure, while more centrally it the
pineal gland, which regulates sleep and reacts to light levels. Caudal of the pineal gland is the
posterior commissure; nerve fibres reach the posterior commissure from the adjacent midbrain, but their onward connection is currently uncertain. The commissures create concavity to the shape of the posterior ventricle border, causing the
suprapineal recess above the habenular, and the deeper pineal recess between the habenular and posterior commissures; the recesses being so-named due to the pineal recess being bordered by the pineal gland. The anterior wall of the ventricle forms the
lamina terminalis, within which the
vascular organ monitors and regulates the
osmotic concentration of the blood; the cerebrum lies beyond the lamina, and causes it to have a slightly concave shape. The
optic recess – marks the inferior end of the lamina terminalis, with the
optic chiasm forming the immediately adjacent floor. The portion of the floor immediately posterior of the optic chiasm distends inferiorly, and slightly anteriorly, to form a funnel (the
infundibulum); the recess leading to the funnel is known as the
infundibular recess. The border of the funnel is the
tuber cinereum, which constitutes a bundle of nerve fibres from the hypothalamus. The funnel ends in the
posterior lobe of the
pituitary gland, which is thus neurally connected to the hypothalamus via the tuber cinereum. A
venous sinus (the
circular sinus) surrounds the superior portion of the tuber cinereum; the
circular sinus is in fact simply a portion of the two lateral
cavernous sinuses, joined together by a posterior and anterior
intercavernous sinus. The
mammillary bodies form the floor posterior of the tuber cinereum, acting as the link between the fornix and the hypothalamus. Posterior of the mamillary bodies, the ventricle becomes the opening of the cerebral aqueduct, the inferior borders becoming the
crus cerebri (sometimes historically called the
cerebral peduncle) of the
midbrain. ==Development==