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Clinical anatomy

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Clinical anatomy & physiology of the ear YANG Jun, MD, Ph.D. 09/18/09 * ... – PowerPoint PPT presentation

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Title: Clinical anatomy


1
  • Clinical anatomy physiology of the ear
  • YANG
    Jun, MD, Ph.D.

  • 09/18/09

2
Otology neurotology
  • Surgical management on hearing loss
  • Conductive hearing loss tympanoplasty, ossicular
    chain reconstruction, stapes surgery
  • Sensorineural hearing loss  implantable
    hearing-aids, cochlear implatation
  • Tumor in the lateral skull base,such as acoustic
    neuroma
  • Facial nerve facial paralysis, facial spasm
  • Surgical management on vertigo
  • Trigeminal neuralgia
  • Repaire of CSF leakage

3
  • Temporal bone
  • Location  lateral skull
  • Neighbour  parietal bone, sphenoid bone,
    occipital bone
  • Composition squamous part, tympanic part, pars
    mastoidea, petrosal part

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5
Anatomy of the external ear
  • auricle
  • anterior notch of ear-an incision can be made
  • less subcutaneous tissue
  • difficult absorption of hematoma
  • prone to cold injury

6
Anatomy of the auricle
7
Anatomy of the external ear
  • external auditory canal
  • 2.5-3.5cm
  • outer1/3cartilage
  • inner2/3bone
  • Stenosis juncture of bone and cartilage, bony
    part (0.5cm from the tympanic anulus)

8
Anatomy of the middle ear
  • Tympanic cavity
  • Eustachian tube
  • Tympanic sinus
  • Mastoid cavity

9
Tympanic cavity
  • Attic, mesotympanum, hypotympanum
  • Six walls interior, exterior, anterior,
    posterior, superior, inferior

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Tympanic cavity
12
Exterior wall-tympanic membrane
  • Tympanic membrane
  • Semi-transparent film, 1cm2, 1mm
  • Upper is pars flaccid, lower is pars tensa
  • Three layer construction epithelial lamina,
    fibrous lamina, mucous layer

13
tympanic membrane
14
Interior wall
  • Namely exterior wall of the inner ear
  • Center-promontorium tympani
  • Post-superior  vestibular window-vestibule
  • Post-inferior  cochlear window-scala tympani
  • horizontal part of facial nerve canal
  • prominence of lateral semicircular canal
  • cochleariform process

15
Anterior wall
  • Namely carotid wall
  • Inferior part is separated with the carotid
    artery
  • Two openings at the superior part semicanal for
    tensor tympani (upper), semicanal for auditory
    tube (lower)

16
Posterior wall
  • Minipore at the posterior wall- aditus ad antrum
    tympanicum
  • incudal fossa- juncture of horizontal part and
    perpendicular part
  • pyramidal eminence-about at height of vestibular
    window
  • facial recess-posterior tympanotomy

17
Superior wall
  • Namely tegmen tympani
  • Be separated with the temporal lobe of the
    cerebrum in the middle fossa
  • The petrosquamous fissure in infant is not
    closed-one of the route by which infection from
    the middle ear could get into

18
Inferior wall
  • Namely jugular wall
  • Be separated with the jugular bulb
  • blue drum

19
Content in the tympanic cavity
  • ossicles(smallest bone in the human body)
    malleus, incus, stapes- ossicular chain
  • ligamenta ossiculorum auditus ligament of the
    malleus, incus and stapes
  • muscle in the tympanic cavity tensor tympani
    muscle, stapedial muscle
  • chorda tympani nerve

20
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21
Ossicular chain
22
Eustachian tube
  • Passageway between tympanic cavity and
    nasopharynx, outer 1/3-bony part, inner 2/3-
    cartilaginous part. Isthmic portion-junction of
    bony part and cartilaginous part.
  • The opening at the nasopharynx is open when
    muscle contraction in order to adjust air
    pressure in the tympanic cavity.
  • Infection is prone to enter the tympanic cavity
    because of Horizontal, short and wide Eustachian
    tube in child.

23
Tympanic sinus and mastoid cavity
  • Tympanic sinus pneumatic space and passage
    between the attic and mastoid cavity
  • Mastoid cavity cells in the temporal
    bone-pneumatic type, diploetic type, constrictive
    type and mixed type

24
CT scan of temporal bone
25
Anatomy of the inner ear
  • Also labyrinth, containing apparatus responsible
    for hearing and balance
  • The inner ear is divided into bony labyrinth and
    membranous labyrinth
  • Perilymph is full of the space between bony
    labyrinth and membranous labyrinth, endolymph is
    full of the membranous labyrinth
  •  

26
bony labyrinth
  • Compact bone
  • Vestibule, semicircular canal, cochlea

27
Vestibule
  • Between the cochlea and the semicircular canal
  • Five openings from three bony semicircular canals
  • saccular recess, utricular recess
  • Exterior wall- vestibular window sealed by
    footplate of the stapes

28
Bony semicircular canals
  • Three curved bony ducts that form right angle
    mutually- lateral, superior and posterior
    semicircular canal
  • A common crus is formed by the superior and
    posterior semicircular canal, therefore, five
    openings from three semicircular canals enter the
    vestibule

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30
Membranous labyrinth
  • Composed of membranous duct and membranous sac
  • fixation at bony labyrinth by fiber bundle
  • dividing into utricle, saccule, membranous
    semicircular canal and membranous cochlea (scala
    media)
  • cross-connection each other

31
Membranous labyrinth
  • Utricle
  • Utricular recess
  • Macula utriculi-sense of balance
  • Five openings in the posterior wall connect with
    three semicircular canals
  • Connection with the utriculosaccular duct and
    endolymphatic duct in the anterior wall.
    Vestibular aqueduct. Endolymphytic sac (within
    dura behind the petrosal part of the temporal
    bone)

32
Membranous labyrinth
  • Saccule
  • Saccular recess
  • Macula sacculi-sense of balance
  • Connection with utriculosaccular duct and
    endolymphatic duct

33
Membranous labyrinth
  • Membranous semicircular canal
  • Connection with the utricle

34
Membranous labyrinth
  • Membranous cochlea (scala media)
  • Between the osseous spiral lamina and the lateral
    wall of the osseous cochlear canal, also between
    scala vestibuli and scala tympani, containing
    endolymph
  • Basilar membrane from free edge of the osseous
    spiral lamina
  • Organ of Corti  hearing receptor composed of
    outer hair cells and inner hair cells

35
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36
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38
Physiology of the ear
  • Hearing
  • Balance

39
Route of sound conducting
  • Air conduction
  • Sound wave auricle external auditory
    canal vestibular window perilymph/endolymph
    organ of Corti auditory nerve nucleus
    auditory cortex

40




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42
Route of sound conducting
  • Bone conduction
  • Sound wave makes the perilymph vibrate through
    skull route, then stimulates the organ of Corti
    by which hearing generate.
  • Translatory mode of bone conduction
  • Compressional mode of bone conduction

43
Physiological functions of the external ear
  • Gathering sound
  • Discriminating direction
  • Resonance
  • Protection
  • Sound wave pressurizing

44
Physiological functions of the middle ear
  • Transformation and gain
  • Structure for sound transmission and
    transformation tympanic membrane and ossicular
    chain

45
Physiological functions of the tympanic membrane
  • Valid area of vibration  55 mm2
  • Area of the footplate 3.2 mm2
    17times

46
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47
Physiological functions of the ossicular chain
  • Lever manubrium of malleus
  • long crus of incus
    1.31
  • 1.31722.1 27dB

48
  • Function of Middle earpressure
    amplification-ossicles
  • Energy loss at air-fluid interface-99.9 loss
    (-30 dB)
  • Malleus longer than incus-amplify pressure 1.7X
    (2 dB)

49
Physiological functions of muscles in the
tympanic cavity
  • stapedial muscle decreasing pressure of perilymph

50
Physiological functions of muscles in the
Eustachian tube
  • Keeping balance of pressure in the middle ear
  • Drainage
  • Prevention of retrograde infection
  • Noise abatement

51
Auditory physiology
  • Transmission
  • Sensation

52
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53
Basilar membrane displacement for a 250 Hz tone
Basilar membrane displacement for a 1 kHz tone
Basilar membrane displacement for a 4 kHz tone
54
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55
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56
Model of organ of Corti Responds to OHC
Electromotility
57
OHC contracts in-phase with deflection of the
hair bundle toward the tallest stereocilia. The
current through the cell increases with
deflection in this direction. If the current is
modulated slowly (compared to 1 kHz), then the
voltage across the lateral membrane will be
in-phase with the current. Conformational changes
in many voltage sensitive molecules situated
within the lateral membrane cause the length of
the cell to change. The diameter of the cell
increases slightly as the cell contracts to
maintain constant cell volume.
58
Balance physiology
  • Semicircular canal Perception of positive or
    negative angular acceleration
  • Saccule and utricle  Perception of linear
    acceleration
  • Macula sacculi Perception of static balancing
    and linear acceleration on the coronal plane
  • Macula utriculi Perception of static balancing
    and linear acceleration on the vertical plane
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