CONGENITAL AURAL ATRESIA - University of California, Los
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Transcript CONGENITAL AURAL ATRESIA - University of California, Los
CONGENITAL AURAL
ATRESIA
Dennis R. Maceri, M.D., F.A.C.S.
Associate Professor
Otolaryngology- Head and Neck Surgery
Keck School of Medicine
“ The better developed the
auricle the better the middle
ear”
Kountakis, 1995
Atresia
Epidemiology
1 in 10,000 to 15,000 births
Up to 50% of the time associated with some
craniofacial syndrome
Unilateral : Bilateral, about 3:1
30% are bilateral
Atresia : Microtia, 7:1
Slightly more common on the right
Male : Female, 2:1
Atresia
Aural atresia associated with 22/71 known
craniofacial syndromes
– Treacher Collins (Mandibulofacial Dysostosis)
– Nager Syndrome (Acrofacial Dysostosis)
– Cruzoun’s Craniofacial Dysostosis
– Goldenhar’s Syndrome
– Hemifacial Microsomia
Aresia Surgery
First attempt to surgically correct aural
atresia was by Thomson in 1843
Shambaugh, 1967, recommended
unilateral surgery only if the cochlear
reserve allowed hearing to improve by
25dB
Jahrsdoerfer, 1978, first large series using
the anterior approach
Embryology
8 Week Stage
Embryology
8 Week Stage
Embryology
The external ear forms earlier than the
middle ear
Microtia and Atresia imply an arrest in
development at any stage
The earlier the arrest, the less developed
the middle ear
Embryology
Inner ear and labyrinth develop at 3
weeks from an invagination of ectoderm
called the ottic placode
Middle ear space, mastoid, eustachian
tube and part of the drum develop from
the first pharyngeal pouch at 30 weeks
Mastoid air cells continue to develop up to
age 5
Embryology
First Branchial Arch-(Meckel’s)
– Malleus head, body, tensor tympani (V3)
– Short process of the Incus
Second Arch (Hyoid) (Reicherts)
– Manubrium of the malleus
– Stapes superstructure
– VIIth nerve
Foot plate from the otic capsule and 2nd
arch
Embryology
External ear (ectoderm) is derived from the 1st
branchial cleft. A solid core of epithelium
migrates inward toward the 1st branchial pouch
(endoderm)
Embryology
Solid core of
tissue migrates
inward
External canal
re-canalizes by
the 6th month
Embryology
The external canal starts to hollow out
(recanalize) during the 6th month and
progresses from medial to lateral
Arrest of recanalization process leads to
the various deformities seen in atresia
Formed tympanic membrane and bony
canal with a stenotic membranous canal
leads to canal cholesteatoma
Embryology
Arrested growth of the ossicles leaves
them in various stages of formation
– Stapes often malformed but mobile
– The incus and malleus are fused
– Altered course of facial nerve
Atresia
Embryology – 7th Month
Canalization complete
Mastoid separation from mandible
Normal
posterior-inferior
growth
Normal
No mastoid
growth
Atresia
Atresia
Embryology
Mastoid growth affects the facial nerve
position
Normal 120o
Curve
Acute Curve in
Atresia
Atresia
Classification of Deformities
After Colman-3 types
Minor Aplasia-incomplete recanalization
Moderate Aplasia- the tympanic bone has
developed but has failed to recanalize
Severe Aplasia-complete absence of the
external canal
Atresia
Classification-Severe Aplasia, no tympanic
bone
Atresia
Complete Atresia
Atresia
Complete Atresia
Atresia
Moderate Aplasia
The most common, solid mass of compact
bone that has failed to recanalize
Atresia
Minor Aplasia-partial recanalization
Middle space constricted, often with severe
ossicular abnormalities
Microtia
Types of Microtia (Based on Marx 1926)
Class I Mild deformity, auricle smaller, all
parts of ear identifiable
Class II ½ to 2/3 normal size with partially
retained structures
Class III Severely malformed, peanut
shaped
Radiological Evaluation
High resolution CT in coronal and axial
planes
Axial to delineate malleus, incus and I-S
joint and round window
Coronal to delineate stapes, oval window
and vestibule
3-D CT of little help
Timing indicated by timing of surgery
Grading System
Based on high
resolution CT scan
A score of 5 or less
denotes a poor
candidate
Microtia indicates an
arrest in development
and abnormalities of
the middle ear
Variable
Points
Stapes Present
2
Oval Window Open
1
Facial Nerve
1
Middle Ear Space
1
Mastoid Pneumatization
1
Malleus/Incus Complex
1
Incudostapedial Joint
1
Round Window
1
External Ear Appearance
1
Total Points
Kountakis, Helidonis and Jahrsdoerfer Arch. Oto 1995
10
Atresia
Grade of Microtia as an Indicator of ME
Development
Microtia Grade
Radiological Score
I
8.5
II
7.2
III
5.9
Kountakis Arch Otolaryngol 1995
Radiological Evaluation
Good middle ear
and mastoid
aeration
Prominent
ossicular mass
with incus and
malleus fused
Open oval
window
Score of 8
Radiological Evaluation
Score of 8
2-stapes & OW
2-I-S joint, Incus
1-Aerated ME space
1-Bony cover on VII
1-Aerated mastoid
1-Pinna
Radiological Evaluation
Poor middle ear and
mastoid development
No definable ossicular
mass
Closed oval window
Not a good candidate
A score of 3
Microtia
Microtia Repair
Audiological Evaluation
50-60 dB conductive loss
Usually normal sensorineural function
Unilateral- behavioral audiometry
ABR for infants
Bilateral atresia presents a masking dilemma
Bone conduction ABR can help resolve the
masking problem (Wave I on stimulated ear)
Surgical Considerations
Most consider repair in bilateral atresia
Many are reluctant to operate on unilateral
cases
– Not simply the hearing loss
– Expectations of hearing recovery
– Lifetime care of mastoid cavity
– Potential risks to facial nerve and labyrinth
– 55-65% achieve 25 dB speech-hearing level
Surgical Considerations
Most surgeons choose the anterior
approach to avoid the mastoid cavity
40% of patients with unilateral atresia are
not surgical candidates such as those with
severe aplasia as in Treacher Collins
syndrome
Bilateral atresia- best ear by CT done as
child approaches school age
Surgical Considerations
Timing of surgery
Usually performed after age 6 or 7 years
This allows for microtia repair to be done
first (If Medpor used,canalplasty done
first)
Canal cholesteatoma in the stenotic ear
usually develops in canals less than 2mm
in diameter. If ear unfavorable, canalplasty
alone is offered
Canal Cholesteatoma
Usually in ears with minor aplasia
Canal <4mm, 50% incidence
Surgical Technique
Minor aplasia- canal widening and middle
ear ossicular work with tympanoplasty
Moderate Aplasia
– Mastoid or posterior approach
– Anterior approach
Surgical Technique
Anterior Approach
Middle ear approached through the atretic
bone with a limited mastoid opening
Surgical Technique
The posterior wall of the
glenoid fossa becomes
the anterior wall of the
new ear canal
The epitympanum is the
first part of the middle
ear encountered
Fused ossicles identified
Surgical Technique
Atretic bone removed at times with a curette
Globular mass separated from the stapes to
avoid cochlear trauma
Course of facial nerve determined
Ossiculoplasty performed
Tympanic membrane grafted
Meatoplasty
Split thickness skin graft (.008-.010 inches)
lines the canal
Surgical Technique
The Meatoplasty must be aligned with the
newly created bony canal
Surgical Technique
4cm X 6cm split
thickness skin graft
The graft is positioned
in the canal and sewn
to the meatal margin
Graft stabilized with
Merocel wicks and
hydrated with ear
drops
Hearing Results
Post-op hearing level of 30 dB or better In
50-75% of patients with moderate or
severe aplasia
20 dB or better in 15-20%
– Bellucci 20 dB in 50% @ 2 years
– Schuknect similar results at 1.3 years
– De La Cruz 56 patients 53% @ 20 dB at 6 mo.
– Lambert early 60% @25 dB, 46% >1 yr.
Alternatives to Surgery
Bone anchored hearing aid (BAHA)
BAHA
Hearing results better than with BC aids
Surgical Complications
Persistent or recurrent conductive hearing loss
– Lateralization of graft
– Scar tissue
SNHL
VIIth Nerve injury
30 % revision rate
– Re-stenosis
– Graft migration
– Inadequate hearing
Chronic cavity infection
Summary
Choose your patients carefully
Realize your potential v. patient
expectations
Appropriate radiographic studies
Accurate audiological analysis
Facial nerve monitoring
Know when NOT to operate