07+Cassidy_GCBA_Embryo+Gross_Ear_2024_student.pdf

Transcript

Anatomy and Embryology of the Ear

Keely Cassidy, PhD
Wittson Hall 2006
[email protected] https://www.sciencedirect.com/science/article/abs/pii/S1010518217304493
 62 year old man
History of recurrent aseptic meningitis
Presented with fever and headache, developed
bilateral auricular swelling and redness

CSF analysis indicated aseptic meningitis
Auricular biopsy indicated inflammation from
relapsing polychondritis
In rare cases, other types of connective
tissue (here the meninges) can be affected

Corticosteroid treatment improved symptoms

Left ear, pre-treatment Left ear, post-treatment
Objectives
Describe the structure and components of the external ear.
Describe the structure and components of the middle ear and its relationship to surrounding
structures.
Describe the course of the facial nerve through the middle ear cavity including each of its intracranial
branches.
Describe the structural organization of the inner ear.
Explain the steps of auditory transduction.
Distinguish between the structures and functions of the vestibular and cochlear system.
Apply knowledge of the ear to explain the anatomical basis of a clinical problem or intervention (e.g.,
cauliflower ear, otitis media, tympanostomy tubes).
Assess how an ear infection could affect surrounding structures and function.

Describe the embryological origin of each component (external, middle, internal) of the ear.
Relate the stages of ear development with general embryogenesis.
Predict the embryological basis of common birth defects relating to the ear (e.g., auricular
malformations, congenital hearing loss).
 Inner ear (oval window to round window)
Regions of the Ear Petrous part of temporal bone

Vestibular Its receptors respond to
apparatus fluid waves for perception
of balance…
External ear
Cochlea Receive mechanical energy and
(through tympanic membrane) convert into fluid waves
Collect, funnel sound waves Its receptors respond to fluid
Protect tympanic membrane waves for perception of sounds…

Middle ear
(tympanic membrane to oval
and round windows)
Amplify and convert sound
waves into mechanical energy
Provide pressure release

Pharynx
External ear

Auricle
aka, Pinna Helix Triangular fossa
Elastic cartilage covered in skin
Location where sounds waves enter ear and begin
to be transferred into mechanical energy via
vibrations
Oriented to best detect sound from front and sides
Scaphoid fossa

Antihelix

Tragus
Concha
Cymba
Cavity
Lobule
Antitragus
External ear
lateral views

Auricle
Auricular muscles are fairly weak
innervation via CN VII

Arterial supply is robust and mainly
via posterior auricular artery
Comes superficially from skin and
dives deep to supply cartilage
Venous drainage is minimal

medial view
posterior view
Qualitative Analysis of Canine Guilt Based Upon Auricular Position:
Case Study of Gunner, a Generally Good Boi if a Bit of a Dumdum
Level of Guilt

This study was neither IRB approved nor peer-reviewed.
Participant compensation was provided in the form of noms.

Degree of Ear Retraction
Perichondrial hematoma (aka, Cauliflower ear)
Permanent, acquired deformity to external ear due to Process:
blunt trauma (often seen in wrestling and boxing) trauma → auricular hematoma, disruption of skin-
Treatment: cartilage connection → cartilage loses blood
Prevention via protective headgear supply, venous blood can’t drain due to
Drain asap, pack/compress, and hope for the best inflammation → cartilage dies → fibrotic scarring
Recurrence is common complication → shriveled, uneven, pale appearance of auricle

Draining an auricular hematoma Packing treatment
R L
External ear

External auditory canal
aka, External acoustic meatus Lined by skin with hair and glands that produce cerumen
~2.5 cm sigmoid canal angled anteroinferiorly Cerumen (aka, ear wax) is protective but can become
Walls of lateral 1/3 are cartilage, medial 2/3 are bone excessive and/or impacted
Embryologically develops from 1st pharyngeal cleft

Canal with excessive Canal with normal amount
cerumen of cerumen
External ear – Middle ear

Tympanic membrane
Known by laymen as “eardrum”
Visualized via otoscope examination

~1 cm diameter circular structure
Semitransparent, trilaminar membrane
External to internal: skin, connective tissue, mucus membrane Otoscopic view of tympanic membrane

Sounds waves vibrate the tympanic membrane
Oriented to best detect sound from front and sides

Embryologically develops from 1st pharyngeal membrane
External to internal: surface ectoderm, head mesoderm, endoderm

Endoscopic view of middle ear
via myringotomy

http://sydneyentclinic.com/sean-flanagan/patient-resources/hearing-loss/tympanic-membrane-perforation/
External ear – Middle ear

Tympanic membrane
Divided into quadrants

Pars flaccida ~11:00-1:00 region
Pars flaccida
Pars tensa everything else
– Malleolar stria – marks malleus’s manubrium
– Umbo – point of greatest concavity
Malleolar stria
– Cone of light – artifact of examination; projects
anteroinferiorly in healthy ear

Is this image from a right or left ear? ____________
Umbo

Deviation from these expected findings may indicate
retraction, bulging, inflammation, etc
Cone of light

Pars tensa
http://sydneyentclinic.com/sean-flanagan/patient-resources/hearing-loss/tympanic-membrane-perforation/
External ear – Middle ear
R ear, anterior view
Sensory Innervation (anterior wall removed)

Complex innervation due to embryological development
All pharyngeal arches are involved in some way
Great auricular nerve (C2, C3)
majority of auricle

Auriculotemporal nerve
(branch of CN V3)
tragus and superoanterior region; superior
and anterior walls of external acoustic
meatus; superoanterior 2/3 of external
surface of tympanic membrane

Auricular nerve (branch of CN X)
concha; posterior and inferior walls of
external acoustic meatus; posteroinferior 1/3
of external surface of tympanic membrane

CN VII
eminence of concha

CN IX (not pictured) R tympanic membrane,
internal surface of tympanic membrane external surface
Middle ear

Middle Ear
In petrous part of temporal bone
Air filled cuboidal chamber lined with mucous membrane
Contains many important and delicate structures
Embryologically develops from 1st pharyngeal pouch
anterior view

Important connections:

to nasopharynx, via auditory tube
aka, pharyngotympanic tube, Eustachian tube
Equalizes pressure between middle ear and pharynx
Allows drainage (route for URTI movement)
Pharyngeal tonsils adjacent to pharyngeal opening
(when inflamed → adenoids)

to mastoid air cells, via mastoid antrum
Protect inner ear from temperature and pressure
fluctuations

superior view
Middle ear

Middle Ear

Contains significant bones, muscles, nerves
Contains minor vessels, mucus membrane

Epitympanic recess
space superior to plane of tympanic membrane
contains mastoid antrum

Tympanic cavity (proper)
space directly internal to tympanic membrane

Understanding anatomical relationships to surrounding
structures is clinically relevant because
_______________________________.
anterior view
Middle ear

3
If you are sitting in the tympanic cavity, there are four exits:

1. Push through a membrane and walk into a tunnel…
External auditory canal 1
2. Slide down a wet tunnel…
Auditory tube

3. Climb out a tiny hole…
Mastoid antrum → Mastoid air cells

4. Wiggle out through a round window… 3
Round window → Cochlea
2
4

Endoscopic view of middle ear
via myringotomy
Middle ear

If you are sitting in the tympanic cavity, there are six walls:

Direction Wall Related anatomical structures
Superior (roof) Tegmental middle cranial fossa (meninges,
temporal lobe, pituitary gland)
Inferior (floor) Jugular internal jugular vein
sigmoid sinus
posterior cranial fossa
(meninges, cerebellum, some
CNs)
Lateral Membranous tympanic membrane
external acoustic meatus
Medial Labyrinthine inner ear
CN VII
Anterior Carotid auditory tube
(not shown in image) internal carotid artery
Posterior Mastoid mastoid air cells
CN VII
anterior view
Middle ear
Contents of Middle Ear: Auditory Ossicles
Three extremely dense bones covered by mucous membrane
(not periosteum) and connected via synovial joints

Numerous ligamentous and muscular attachments to walls

Embryologically develop from 1st (malleus, incus) or 2nd (stapes)
pharyngeal arches’ cartilage

Malleus hammer
Handle/manubrium embedded in tympanic
membrane

Incus anvil

Stapes stirrup
Footplate attached to oval window
Middle ear
Function of Auditory Ossicles

1. Sound waves encounter the tympanic membrane and are
converted into mechanical energy (waves)

2. Waves are progressively amplified (10x) through ossicular
chain before entering the inner ear at the oval window

3. If waves persist after the inner ear, that pressure is released
back into the middle ear via the round window.

The auditory ossicles are a very reliable source of ancient DNA
because of their strength and location (compared to cochlea).
Middle ear
Contents of Middle Ear: Muscles
Two muscles attach auditory ossicles to middle ear walls,
on opposite sides

Embryologically develop from 1st (tensor tympani) or 2nd
(stapedius) pharyngeal arches’ muscle

Tensor tympani
Attaches anterior wall to malleus’ manubrium
Innervated by CN V3

Stapedius
Attaches posterior wall to stapes
Innervated by CN VII

R ear, superolateral view (very deep)
Middle ear
Function of Middle Ear Muscles
Contract reflexively in response to loud auditory stimuli
(acoustic startle response)
High-pass filter = higher frequencies are allowed in easier than
low frequencies

Tensor tympani
Action: To tense the tympanic membrane
= Decrease waves moving through ossicular chain
16% of humans can voluntarily contract the tensor tympani

Stapedius
Action: To tense the ossicular chain
= Decrease waves moving through ossicular chain
Middle ear
Contents of Middle Ear: Nerves
Chorda tympani nerve
Branch of CN VII that crosses between malleus and incus
Does not have any protection within tympanic cavity
Vulnerable!
After tympanic cavity, eventually merges with lingual nerve
(branch of CN V3)
Actions:
Convey taste sensation from anterior 2/3 of tongue
Carry preganglionic parasympathetic fibers to the
submandibular ganglion

Tympanic plexus
Branches of CN IX on medial wall of tympanic cavity
After tympanic cavity, forms lesser petrosal nerve
Action:
Carry preganglionic parasympathetic fibers to the
otic ganglion

Injury to these nerves during otological surgeries have
the capacity to affect taste and/or salivatory abilities.
https://meetingarchive.ami.org/2020/project/chorda-tympani-pathway/
Otitis media (aka, Middle ear infection)
Collection of pus and fluid in middle ear, inflammation of
mucous membranes
Often secondary to upper respiratory tract infections

Potential consequences:
Earache
Bulging, red tympanic membrane
Blockage of auditory tube
Ruptured tympanic membrane
Time lapse of progression of otitis media
Hearing loss due to scarring on auditory ossicles
Fracture wall(s) of tympanic cavity and spread of infection

Note the changes
to the cone of light.

Healthy tympanic membrane Inflamed tympanic membranes with mild, moderate, and severe bulging.
Tympanostomy tubes (aka, pressure equalization/grommet/myringotomy tubes)
Small tubes placed in tympanic membrane to keep Children