Macula of utricle
Macula of utricle | |
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illustration of otolith organs showing detail of utricle, otoconia, endolymph, cupula, macula, hair cell filaments, and saccular nerve | |
Details | |
Latin | macula utriculi |
Identifiers | |
Gray's | p.1051 |
Dorlands /Elsevier | m_01/12509297 |
TA | A15.3.03.083 |
FMA | 74960 |
Anatomical terminology |
The portion of the utricle which is lodged in the recess forms a sort of pouch or cul-de-sac, the floor and anterior wall of which are thickened, and form the macula of utricle (or utricular macula), which receives the utricular filaments of the vestibulocochlear nerve.
The macula of utricle allows a person to perceive changes in longitudinal acceleration (in horizontal directions only).
Layers
The macula consists of three layers.
The bottom layer is made of sensory hair cells which are embedded in bottom of a gelatinous layer. Each hair cells consists of 40 to 70 steriocilia and a kinocilium, which lies in the middle of the steriocilia and is the most important receptor.
On top of this layer lie calcium carbonate crystals called statoconia or otoliths. The otoliths are relatively heavy, providing weight to the membrane as well as inertia. This allows for a greater sense of gravity and motion.
The gelatinous layer and the statoconia together are referred to as the otolithic membrane, where the tips of the stereocilia and kinocilium are embedded. When the head is tilted such that gravity pulls on the statoconia the gelatinous layer is pulled in the same direction also causing the sensory hairs to bend.
Signals
Unbent and at rest hairs in the macula have a base rate of depolarization of 90-100 action potentials a second. The brain suppresses this, and we ignore it and know that our body is stabilized. If the head moves or the body accelerates or decelerates, then bending occurs.
Depending on the direction of bending, the hair cells will either be excited or inhibited resulting in either an increase or decrease in firing frequency of the hair cells.
The macula is also sensitive to linear acceleration as the inertia possessed by the statoconia can also shift the gelatinous layer during increases and decreases in linear velocity.
References
This article incorporates text in the public domain from the 20th edition of Gray's Anatomy (1918)
External links
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