Biomedical Sensors appendix: Sensory Haircell as a natural

Intro. To. BMEIntro. To. BME

Biomedical SensorsBiomedical Sensorsappendix: appendix:

Sensory Sensory HaircellHaircellas a natural transduceras a natural transducer

Functional Anatomy of the Auditory System

•Reference : - Eric R. Kandel et. al, “Principal of Neural Science”, 4th

edition, p590-624

The Ear has Three Functional Parts

External EarInner Ear

Middle Ear

The Middle Ear

• The Middle Ear Cavity

• The Eustachian tube

• Ossicles- malleus(hammer)- incus(anvil) - stapes(stirrup)

The first two ossiclesserved as jaw in reptiles?

Middle ear cavity

Eustachian tube

IncusMalleusStapes

Oval window

Round window

Tympanum

The Inner Ear

• Cochlear consisting of Semicircular Canals

• Slightly less than 3 turns• About 9 mm across • Embedded in temporal bone• Canals - Scala Vestibuli

- Scala Media- Scala Tympani

• Perilymph(s.t.and s.v.)and endolymph(s.m.)

The Organ of Corti- Hair Cells- Supporting cells

• Membranes - Basilar membrane- Reissner ‘s membrane- Tectorial membrane

Fluidic motion in cochlea

• Acqueous perilymph is not

compresible—stapes’ motion is to

displace the s.v. fluid toward elastic

cochlear partition.—this up-down motion

increases pressure in s.t.

The Basilar Membrane

(Stapes) (Helicotrema)

Thin, floppy apical end

Thick, tat basal end

5x breadth at base

Motion of the Basilar Membrane

Place Code

• Demonstrated by Georg von Bekesy

under stroboscopic illumination.

• Certain place of the membrane responds

to certain frequency

• Traveling wave motion.

• Tonotopic Map

• Logalithmic relation

TectorialMembrane

InnerHair cell Outer

Hair cell

Bony wallof Chohlea

Tectorialmembrane

Outer haircell

Spiral ganglion

Innerhair cell

ScalaVestibuli

Scalatympani

Basilar membrane

The Organ of the Corti

Inner hair cells

Outer hair cells

The Hair Cells

Hair cell as mechanoelectrical transducer

• 16000 hair cells and 30000 afferent fibers each side.

• Hair cells are also tonotopically mapped .

• This seemingly redundancy is necessary for the traveling wave nature of

the membrane selectivity.

• IHC 3500 cells in one row

• OHC 12000 cells in three rows

• Shearing motion is between the basal and tectorial membranes.

• Deflection magnitude sensitive: Receptor potential as large as 25mV.

• Also direction sensitive: upward movement of basilar membrane leads to

depolarization, while the opposite leads to hyperpolarization.

• Figure 30-7 : V-shape tuning curves are obtained by measuring

minimum acoustic stimulus for a receptor potential at 1mV.

Structure of the Hair Cells

The Mechanical Deflection of the Hair Bundle

Tectorial membrane

Basilar membrane

Inner hair cell

Oval window

Excitation

Resting

Inhibition

Mechanical Sensitivity of a Hair Cell

The Mechanism of Mechanoelectrical Transduction by Hair Cel

A Scanning Electron Micrograph of the Stereocilia

( 3nm )

Outer Hair cell as Mechanical Amplifer

• The above operation seems too simple to explain the

sensitivity and freq. Selectivity of sound perception.

• Being active is evidenced by non-linear membrane

sensitivity to the input magnitude, evoked

otoacoustical emissions, and spontaneous

otoacoustical emission.

• Large population of efferent fibers at OHC.

• Motility of OHC gives mechanical amplification.

Innervation of Nerve Fibers

• Afferent: 90 % in IHC.

• Each IHC has an avg of 10 axons while one axon

innervates several OHC’s.

• Efferent: Most in the OHC’s. very sparse in IHC.

Sound Processing

• presence of tonotopicity in cochlear nucleus.

• Spiral pattern is sustained in the 8th nerve, then is

preserved in different pattern in the cochlear nucleus.

SNU Stimulating Electrode for Auditory Prosthesis

(A) A diagram of the spiralling of the auditory nerve fibers with an electrode array passing along the length of the nerve. T h e d a t a b a s e d on the finding of Sando(1965).

(B) The silicon electrode inserted into the cat cochlear nerve, but illustrating the need for adequate fixation and closure of the opening into the subarachnoid space. AN-a u d i t o r y nerve ; E-depth type SNU silicon electrode

(A) (B)

The Central Auditory Pathway

The Auditory Areas of the Temporal Cortex

Information pathway

• Sounds -> Tympanum -> Middle Ear ->

Ossicles -> Basilar membrane -> Hair

Cells -> Afferent Nerve -> Eighth cranial

nerve -> Central Auditory Pathway ->

Auditory Cortex -> Analyze -> Speech

Biomedical Sensors appendix: Sensory Haircell as a natural

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