Difference between revisions of "Equine Special Senses - Horse Anatomy"

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The inner ear is located within the '''petrous temporal bone'''.  The inner ear contains the '''membranous labyrinth''', which is surrounded by the '''bony labyrinth'''. The membranous labyrinth is an interconnected group of fluid-filled membranous sacs. The fluid contained within it is known as '''endolymph'''. It is the movement of the endolymph that stimulates the sensory cells within the membranous wall.
 
The inner ear is located within the '''petrous temporal bone'''.  The inner ear contains the '''membranous labyrinth''', which is surrounded by the '''bony labyrinth'''. The membranous labyrinth is an interconnected group of fluid-filled membranous sacs. The fluid contained within it is known as '''endolymph'''. It is the movement of the endolymph that stimulates the sensory cells within the membranous wall.
 
The membranous labyrinth consists of:
 
The membranous labyrinth consists of:
*''vestibular labyrinth'': contains the receptor organ involved with balance, containing the '''saccule, utricle''' and the '''semicircular ducts'''. The saccule and utricle contain sensory '''maculae''' within their walls, and there's a sensory '''crista''' within the '''ampullae''' of the semicircular ducts. The maculae and ampullae sense and conduct impulses concerned with balance via the '''vestibular nerve'''. The three semicircular ducts arise from the utricle, and the cochlear duct arises from the saccule.
+
*'''''vestibular labyrinth''''': contains the receptor organ involved with balance, containing the '''saccule, utricle''' and the '''semicircular ducts'''. The saccule and utricle contain sensory '''maculae''' within their walls, and there's a sensory '''crista''' within the '''ampullae''' of the semicircular ducts. The maculae and ampullae sense and conduct impulses concerned with balance via the '''vestibular nerve'''. The three semicircular ducts arise from the utricle, and the cochlear duct arises from the saccule.
*''cochlear labyrinth'': contains the organ involved with hearing. It consists of the '''organ of Corti''', within the cochlear duct. The cochlear duct is fluid-filled, the fluid being endolymph. The organ of Corti contains the receptor cells for hearing.
+
*'''''cochlear labyrinth''''': contains the organ involved with hearing. It consists of the '''organ of Corti''', within the cochlear duct. The cochlear duct is fluid-filled, the fluid being endolymph. The organ of Corti contains the receptor cells for hearing.
*''ductus reuniens'': this is the duct through which the above two labyrinths communicate
+
*'''''ductus reuniens''''': this is the duct through which the above two labyrinths communicate
  
 
The bony labyrinth consists of:
 
The bony labyrinth consists of:
*''vestibule'': a chamber in the centre of the bony labyrinth, which communicates with both the cochlea and the semicircular canals. The '''oval''' and the '''round windows''' are both located in the lateral wall of the vestibule.
+
*'''''vestibule''''': a chamber in the centre of the bony labyrinth, which communicates with both the cochlea and the semicircular canals. The '''oval''' and the '''round windows''' are both located in the lateral wall of the vestibule.
*''semicircular canals'': contain the '''semicircular ducts''', which have arisen from the utricle of the vestibular labyrinth. There are three '''semicircular canals''', corresponding to the three dimensions in which you can move, so they are almost at right angles with each other. Each duct has two '''crura''' (leg-like parts). One crus of each duct has an '''ampulla''', which is an expansion of the duct. Movement of endolymph stimulates receptor cells within the ampullae.  
+
*'''''semicircular canals''''': contain the '''semicircular ducts''', which have arisen from the utricle of the vestibular labyrinth. There are three '''semicircular canals''', corresponding to the three dimensions in which you can move, so they are almost at right angles with each other. Each duct has two '''crura''' (leg-like parts). One crus of each duct has an '''ampulla''', which is an expansion of the duct. Movement of endolymph stimulates receptor cells within the ampullae.  
*''cochlea'': forms a spiral around a central hollow core of bone, called the '''modiolus''',which contains the '''cochlear nerve'''. The '''spiral lamina''' projects into the '''spiral canal''', partially bisecting the lumen into two parts, which are called the '''scala tympani''' and the '''scala vestibuli'''. The ''scala media'' (the cochlear duct) is between these two parts. In the horse, the cochlea makes 2.5 turns.
+
*'''''cochlea''''': forms a spiral around a central hollow core of bone, called the '''modiolus''',which contains the '''cochlear nerve'''. The '''spiral lamina''' projects into the '''spiral canal''', partially bisecting the lumen into two parts, which are called the '''scala tympani''' and the '''scala vestibuli'''. The ''scala media'' (the cochlear duct) is between these two parts. In the horse, the cochlea makes 2.5 turns.
  
 
The external ear receives sounds, which cause vibrations of the tympanic membrane. These vibrations move along the ossicles of the middle ear, to be transmitted to the inner ear. The stapes is connected to the oval window, so when the stapes transmits vibrations, this causes movement of '''perilymph''' that is in the inner ear. The movement of the perilymph is transmitted via the '''scala vestibuli''' and the '''scala tympani''', to the '''round window''', where it induces movement of the '''secondary tympanic membrane'''. This results in the movement of the '''endolymph''' of the '''cochlear duct''',  causing pressure on the '''tectorial membrane''', which then induces pressure on the sensory hairs, stimulating the receptor cells within the cochlear duct to send impulses to the '''spiral ganglion'''. The axons of the spiral ganglion form part of the '''vestibulocochlear nerve'''.
 
The external ear receives sounds, which cause vibrations of the tympanic membrane. These vibrations move along the ossicles of the middle ear, to be transmitted to the inner ear. The stapes is connected to the oval window, so when the stapes transmits vibrations, this causes movement of '''perilymph''' that is in the inner ear. The movement of the perilymph is transmitted via the '''scala vestibuli''' and the '''scala tympani''', to the '''round window''', where it induces movement of the '''secondary tympanic membrane'''. This results in the movement of the '''endolymph''' of the '''cochlear duct''',  causing pressure on the '''tectorial membrane''', which then induces pressure on the sensory hairs, stimulating the receptor cells within the cochlear duct to send impulses to the '''spiral ganglion'''. The axons of the spiral ganglion form part of the '''vestibulocochlear nerve'''.

Revision as of 12:03, 22 November 2012

Template:Incomplete

Vision and Eyes

Hearing and Ears

Ear

The ear is a paired sensory organ, that is involved in both hearing and balance. For this reason, the ear is known as the vestibulocochlear organ. Sound waves that are transmitted into the ear provide a mechanical stimulus. These mechanical stimuli are then transferred into electrical signals by the cochlea. Neuroreceptors in the ear allow the horse to gain a perception of position and movement. Anatomically, the ear can be looked at in three parts:

1. Outer ear - pinna and auditory canal

2. Middle ear - contains the malleus, incus and stapes bones - known as the ossicles

3. Inner ear - contains the membranous and bony labyrinths, and the cochlea

Outer Ear

Outer Ear - Copyright David Bainbridge

The pinna (or auricle) is defined as the outer projecting part of the ear, that is the part of the ear that can be seen. It consists of the auricular cartilage, surrounded by skin, which allows for flexibility and elasticity. The auricular cartilage connects to scutiform cartilage, which itself connects to annular cartilage, which allows for articulation. These cartilages fit into the bony passage of the ear canal - also called the external auditory meatus, which leads to the tympanic membrane. This is the deepest boundary of the outer ear. Muscles around the base of the ear that are attached to the skull allow movement of the pinna, so the ear can be directed to the source of sound:

Muscle Origin Innervation Function
Preauricular Deep temporal fascia Auriculopalpebral branch of facial nerve

(cranial nerve VII)

Moves the ear cranio-laterally, so the pinna is facing forwards
Ventroauricular Laryngeal fascia Retroauricular branch of facial nerve

(cranial nerve VII)

Moves the ear laterally
Postauricular Medial cervical raphe Retroauricular branch of facial nerve

(cranial nerve VII)

Moves the ear caudo-laterally, so the pinna is facing backwards

Middle Ear

Middle Ear - Copyright David Bainbridge

The middle ear consists of the tympanic cavity, the auditory ossicles and the eustachian tube. The boundary between the middle and inner ear is the oval window. The auditory ossicles are attached to the wall of the tympanic cavity by many ligaments and mucosal folds. The tympanic cavity is located within the petrous temporal bone, and can be divided into dorsal, middle and ventral parts:

  • Dorsal: contains the auricular ossicle
  • Middle: contians the tympanic membrane within its lateral wall, and opens rostrally into the nasopharynx via the eustachian tube
  • Ventral: the tympanic bulla - a thin-walled, bulbous expansion of the temporal bone, which houses an extension of the tympanic cavity

The oval window is positioned rostrodorsally, to which one end of the stapes is attached by an annular ligament. It functions to connect the tympanic cavity with the inner ear. The round window is positioned more caudally, and leads to the cavity of the cochlea.

Sound vibrations are transmitted from the tympanic membrane, across the tympanic cavity, via the ossicles (malleus, incus, then stapes). The ossicles, as well as transmitting sound vibrations from the tympanic membrane, also magnify the vibrations by about 20 times. This is necessary for initiating waves in the endolymph of the cochlea. The magnification is achieved by the action of two muscles that are attached to the ossicles, and which act as antagonists of each other. These two muscles are the tensor tympani muscle and the stapedius muscle. The tensor tympani muscle originates within the tympanic cavity, and inserts on the malleus. The contraction of this muscle creates tension of the ossicles, and therefore also of the tympanic membrane, all of which results in greater sensitivity. The stapedius muscle originates from the wall of the tympanic cavity, and inserts on the stapes. Contraction of this muscle pulls the end of the stapes away from the oval window, thereby reducing the fource of the transmission of sound vibrations.

The eustachian tube connects the tympanic cavity to the nasopharynx, which mark the beginning and end of the eustachian tube, respectively. The eustachian tube functions to equalise pressure on either side of the tympanic cavity, by opening while yawning or swallowing, for example. In the horse, the guttural pouch is a paired diverticulum of the eustacian tube that is unique to this species. This is of clinical importance.

Inner Ear

Inner, Membranous Labyrinth - Copyright David Bainbridge
Outer, Bony Labyrinth - Copyright David Bainbridge
Section through a Cochlear Turn - Copyright David Bainbridge

The inner ear is located within the petrous temporal bone. The inner ear contains the membranous labyrinth, which is surrounded by the bony labyrinth. The membranous labyrinth is an interconnected group of fluid-filled membranous sacs. The fluid contained within it is known as endolymph. It is the movement of the endolymph that stimulates the sensory cells within the membranous wall. The membranous labyrinth consists of:

  • vestibular labyrinth: contains the receptor organ involved with balance, containing the saccule, utricle and the semicircular ducts. The saccule and utricle contain sensory maculae within their walls, and there's a sensory crista within the ampullae of the semicircular ducts. The maculae and ampullae sense and conduct impulses concerned with balance via the vestibular nerve. The three semicircular ducts arise from the utricle, and the cochlear duct arises from the saccule.
  • cochlear labyrinth: contains the organ involved with hearing. It consists of the organ of Corti, within the cochlear duct. The cochlear duct is fluid-filled, the fluid being endolymph. The organ of Corti contains the receptor cells for hearing.
  • ductus reuniens: this is the duct through which the above two labyrinths communicate

The bony labyrinth consists of:

  • vestibule: a chamber in the centre of the bony labyrinth, which communicates with both the cochlea and the semicircular canals. The oval and the round windows are both located in the lateral wall of the vestibule.
  • semicircular canals: contain the semicircular ducts, which have arisen from the utricle of the vestibular labyrinth. There are three semicircular canals, corresponding to the three dimensions in which you can move, so they are almost at right angles with each other. Each duct has two crura (leg-like parts). One crus of each duct has an ampulla, which is an expansion of the duct. Movement of endolymph stimulates receptor cells within the ampullae.
  • cochlea: forms a spiral around a central hollow core of bone, called the modiolus,which contains the cochlear nerve. The spiral lamina projects into the spiral canal, partially bisecting the lumen into two parts, which are called the scala tympani and the scala vestibuli. The scala media (the cochlear duct) is between these two parts. In the horse, the cochlea makes 2.5 turns.

The external ear receives sounds, which cause vibrations of the tympanic membrane. These vibrations move along the ossicles of the middle ear, to be transmitted to the inner ear. The stapes is connected to the oval window, so when the stapes transmits vibrations, this causes movement of perilymph that is in the inner ear. The movement of the perilymph is transmitted via the scala vestibuli and the scala tympani, to the round window, where it induces movement of the secondary tympanic membrane. This results in the movement of the endolymph of the cochlear duct, causing pressure on the tectorial membrane, which then induces pressure on the sensory hairs, stimulating the receptor cells within the cochlear duct to send impulses to the spiral ganglion. The axons of the spiral ganglion form part of the vestibulocochlear nerve.

Hearing

The Outer and Middle Ear

The Cochlea

The Hair Cell Receptor

Hair Cell Resting Potentials
Cochlear Microphonics
Tone
Direction Discrimination

Deafness=

Central Auditory Pathways

===Vestibular Receptors and Balance

Unilateral Vestibular Signs

Central Vestibular Pathways

Vasculature

Innervation

Equine Guttural Pouch

Olfaction and Nose

Taste and Tongue