no edit summary
Line 1: Line 1:  
{{Incomplete}}
 
{{Incomplete}}
==Vision and Eyes==
+
==Eye==
==Hearing and Ears==
   
==Ear==
 
==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.
 
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.
Line 76: Line 75:  
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'''.
   −
===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==
+
 
 +
==Gustatory System==
4,503

edits