Ampullary cupula: Difference between revisions
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==Ampullary Cupula== | |||
The '''ampullary cupula''' is a gelatinous structure located within the [[inner ear]] of vertebrates, playing a crucial role in the detection of [[angular acceleration]] and [[balance]]. It is part of the [[vestibular system]], which is responsible for maintaining [[equilibrium]] and spatial orientation. | |||
==Anatomy== | |||
The ampullary cupula is situated within the [[ampulla]] of each of the three [[semicircular canals]] in the inner ear. Each semicircular canal is oriented in a different plane, allowing for the detection of rotational movements in three-dimensional space. The ampulla is a widened area at the base of each canal, and it houses the [[crista ampullaris]], a sensory epithelium that contains hair cells. | |||
The cupula itself is a gelatinous, dome-shaped structure that extends from the crista ampullaris to the roof of the ampulla. It is composed of a glycoprotein matrix and is buoyant in the surrounding [[endolymph]], the fluid that fills the semicircular canals. | |||
==Function== | |||
The primary function of the ampullary cupula is to detect changes in head rotation. When the head rotates, the inertia of the endolymph causes it to lag behind the movement of the canal walls. This relative motion of the endolymph exerts a force on the cupula, causing it to bend. | |||
The bending of the cupula results in the deflection of the [[stereocilia]] and [[kinocilium]] on the hair cells of the crista ampullaris. This mechanical deformation opens ion channels in the hair cells, leading to a change in the rate of neurotransmitter release and the generation of nerve impulses. These impulses are transmitted via the [[vestibular nerve]] to the [[brain]], where they are integrated with other sensory information to maintain balance and spatial orientation. | |||
==Clinical Significance== | |||
Disorders affecting the ampullary cupula can lead to [[vestibular dysfunction]], resulting in symptoms such as [[vertigo]], [[dizziness]], and [[balance disorders]]. Conditions such as [[benign paroxysmal positional vertigo]] (BPPV) can occur when debris, known as [[otoconia]], dislodges and affects the normal function of the cupula. | |||
==Related Pages== | |||
* [[Vestibular system]] | |||
* [[Semicircular canals]] | |||
* [[Crista ampullaris]] | |||
* [[Endolymph]] | |||
* [[Vestibular nerve]] | |||
{{Anatomy-stub}} | |||
[[Category:Vestibular system]] | |||
[[Category:Human anatomy]] | |||
Latest revision as of 00:41, 19 February 2025
Ampullary cupula[edit]
Ampullary Cupula[edit]
The ampullary cupula is a gelatinous structure located within the inner ear of vertebrates, playing a crucial role in the detection of angular acceleration and balance. It is part of the vestibular system, which is responsible for maintaining equilibrium and spatial orientation.
Anatomy[edit]
The ampullary cupula is situated within the ampulla of each of the three semicircular canals in the inner ear. Each semicircular canal is oriented in a different plane, allowing for the detection of rotational movements in three-dimensional space. The ampulla is a widened area at the base of each canal, and it houses the crista ampullaris, a sensory epithelium that contains hair cells.
The cupula itself is a gelatinous, dome-shaped structure that extends from the crista ampullaris to the roof of the ampulla. It is composed of a glycoprotein matrix and is buoyant in the surrounding endolymph, the fluid that fills the semicircular canals.
Function[edit]
The primary function of the ampullary cupula is to detect changes in head rotation. When the head rotates, the inertia of the endolymph causes it to lag behind the movement of the canal walls. This relative motion of the endolymph exerts a force on the cupula, causing it to bend.
The bending of the cupula results in the deflection of the stereocilia and kinocilium on the hair cells of the crista ampullaris. This mechanical deformation opens ion channels in the hair cells, leading to a change in the rate of neurotransmitter release and the generation of nerve impulses. These impulses are transmitted via the vestibular nerve to the brain, where they are integrated with other sensory information to maintain balance and spatial orientation.
Clinical Significance[edit]
Disorders affecting the ampullary cupula can lead to vestibular dysfunction, resulting in symptoms such as vertigo, dizziness, and balance disorders. Conditions such as benign paroxysmal positional vertigo (BPPV) can occur when debris, known as otoconia, dislodges and affects the normal function of the cupula.
