Conduction deafness: ossification of ossicle articulations Attenuation reflex protects cochlea from large vibrations = loud sounds Fluid behind tympanum “Popping ears” and equalization of pressure across tympanic membrane. Otitis media = middle ear infection “tube” to relieve pressure and allow drainage.
Scala vestibuli Scala tympani Scala media
Endolymph Organ of Corti
Mechanosensitive K+ channels in Stereocilia Composition of endolymph
Open K+ channels Depolarize Open Voltage- gated Ca++ channels Release of NT from synaptic vesicles Stereocilia with mechanically- gated K+ channels
Activity of Hair Cells Depolarization leads to more NT release Hyperpolarization leads to less NT release
All hair cells nearly identical Basilar membrane thickens toward the apex
Tonotopy in Cochlea Base Apex
Coding for Pitch = frequency = tone & Intensity Base.... high pitch (treble) Apex.... low pitch (bass) Pitch coded by location of vibrations of Organ of Corti : Which hair cells are stimulated…which set of sensory axons have action potentials Intensity coded by degree of displacement of stereocilia of hair cells and ultimately the frequency of action potentials in those axons that are active
Auditory Range Humans: ,000 Hz; optimal Hz Demo of auditory range and presbycusia
Audiogram Decibel = unit for expressing relative loudness on a log scale “Nerve deafness” cause by damage to hair cells.
Fourier Analysis of Complex Waves Complex wave Pure sine waves
Pathway to Temporal Lobe VIII cranial nerve Medial geniculate nucleus of thalamus Organ of Corti Hair Cells Organ of Corti Hair Cells Cochlear Ganglion = Spiral Ganglion Cochlear Ganglion = Spiral Ganglion Cochlear Nuclei Cochlear Nuclei MG of Thalamus MG of Thalamus Auditory Cortex Auditory Cortex Superior Olive Superior Olive In Brainstem
Sound Localization Low frequency by delay in arrival of soundwave between ears High frequency by attenuation of intensity Processed in Superior Olive Practical Applications? L or R speaker w/ hi and lo frequency tone
Tonotopy in Auditory Cortex
Organs of Equilibrium
Semicircular Canal Angular acceleration Three semicircular canals per ear in 3 planes
Utricle and Saccule For static equilibrium (orentation to gravity)
Vestibular Apparatus Hair cells NT release dependent upon degree of bending of kinocilium and microvilli For ampula of semi-circular canals: cupula For utricle and saccule: otolith membrane Stereocilia in Endolymph (Hi K+, low Na+)
Additional Topics Information on cochlear implantscochlear implants Hearing Aids Understanding Speaker Frequency Response by Polk Audio’s Marketing ManagerUnderstanding Speaker Frequency Response Noise cancelling technology