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Evaluation of Congenital Midline Nasal Masses

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Title: Evaluation of Congenital Midline Nasal Masses


1
Evaluation of Congenital Midline Nasal Masses
  • Camysha H. Wright, MD, Resident
  • Matthew Ryan, MD, Faculty
  • UTMB Dept of Otolaryngology
  • Grand Rounds
  • June 7, 2006

2
Outline
  • Embryology of the nose
  • Dermoid cysts
  • Glioma
  • Encephalocele/Meningocele
  • Evaluation of Nasal Mass
  • Imaging Studies
  • Surgical Intervention
  • Conclusion

3
Embryology
  • The critical period in nasal development is in
    first twelve weeks of fetal development
  • Abnormalities of development are believed to
    cause gliomas, dermoids, and encephaloceles

4
Embryology
  • Neural tube develops between the third and fourth
    week of gestation
  • Closure of the neural tube occurs from the
    midline and extends cranially and caudally
  • Neural tube then gives rise to neural crest cells

5
Embryology
  • As the neural tube closes neural crest cells
    migrate anteriorly and laterally around the eyes
    to the frontonasal process
  • Nose formed from the medial and lateral
    prominence and invagination of the nasal pit

6
Embryology
  • In most of the body neural crest cells are
    involved in ectodermal components, in the face
    the primary role is in the formation of
    mesenchymal cells
  • Bone, cartilage, and muscles of the face are all
    derivatives of neural crest cells

7
Embryology
  • Nose develops from frontonasal processes and 2
    nasal placodes
  • Medial processes fuse
  • Nasomaxillary groove becomes the nasolacrimal duct

8
Embryology
  • Scanning electron micrograph

9
Embryology
  • During formation of skull base and nose,
    mesenchymal structures are formed from several
    centers which will eventually fuse and ossify.
  • Before their fusion, there are recognized spaces
    which are important in the development of
    congenital midline nasal masses
  • Fonticulus frontalis
  • Prenasal space
  • Foramen cecum

10
Embyrology
  • Fonticulus frontalis space between the frontal
    and nasal bones
  • Eventually fuses with foramen cecum to create a
    separation between intracranial and extracranial
    structures
  • Prenasal space is between the nasal bones and the
    nasal capsule (precursor of the septum and nasal
    cartilages)

11
Pediatric Anatomic Considerations
  • Neonates can suffer from respiratory distress
    with nasal obstruction
  • Pediatric airway differs from adults in that
    neonates are nasal breathers
  • Epiglottis abuts nasal surface of the soft palate
    forming anatomic divide between the airway and
    digestive tracts
  • Food from oral cavity is shunted laterally into
    esophagus via the pyriform sinuses
  • Neonates can functionally eat and breathe
    concurrently

12
Pediatric Airway
13
Nasal Masses
  • Differential Diagnoses
  • Inflammatory lesions (abscess)
  • Traumatic deformity
  • Benign neoplasms (polyps, JNA)
  • Malignant neoplasms (rhabdomyosarcoma)
  • Congenital masses (teratomas, hemangiomas)

14
Nasal Dermoids
  • Can occur as cyst or sinus
  • Most common congenital midline nasal mass
  • 1-3 of all dermoids
  • 10 dermoids of head and neck

15
Nasal Dermoid
  • Has ectodermal and mesodermal components
  • (ectodermal components only epidermal cyst,
    ectoderm, mesoderm and endoderm - teratoma)
  • May present as midline nasal pit, fistula, or
    infected mass anywhere from glabella to columella
  • Sometimes presents as single cutaneous tract with
    hair at opening
  • May secrete pus or sebaceous material

16
Nasal Dermoid
  • Superonasal dermoid

17
Nasal Dermoid
  • CNS connection variably reported (4-45)
  • Associated congenital anomalies (5-41), however
    not found to be associated with syndromes

Aural atresia Mental retardation Spinal column abn hydrocephalus Hypertelorism Hemifacial microsomia
albinism Corpus callosum agenesis Cerebral atrophy Lumbar lipoma Dermal cyst of the frontal lobe Coronary artery anomaly
Cleft lip/palate Tracheo-esophageal fistulas Cardiac anomalies Genital anomalies Cerebral anomalies
18
Nasal Dermoid
  • Complications
  • Intermittent inflammation
  • Abscess
  • Osteomyelitis
  • Broaden nasal root
  • Meningitis
  • Cerebral abscess

19
Nasal Dermoid abscess
  • Abscess formation

20
Dermoid Cyst
  • Development
  • During development a projection of dura projects
    through the foramen cecum and attaches to skin
  • Dura normally separates from nasal skin and
    retracts through foramen cecum losing connection
  • If skin maintains attachment to underlying
    fibrous tissue, nasal capsule, or dura
    ,epithelial elements may be pulled into the
    prenasal space with or without dural connection

21
Dermoid Cyst Development
22
Glioma
  • Glial cells in a connective tissue matrix
  • Firm, noncompressible
  • Red or bluish lump
  • Can be found at glabella, at nasomaxillary
    suture, intranasally
  • No connection with subarachnoid space
  • Do not enlarge with crying
  • Do not transilluminate
  • May have telangiectasias

23
Glioma
  • Intranasal glioma

24
Glioma
  • Extranasal - 60
  • Intranasal - 30
  • Both - 10
  • Dural connection - 35 intranasal, 9 extranasal
  • Overall 15 dural connection
  • CSF rhinorrhea, meningitis possible, if dural
    connection exists

25
Glioma Formation Hypotheses
  • Similar to that of nasal dermoids
  • Develop from extracranial rests of glial tissue
  • Abnormal closure of fonticulus nasofrontalis
  • Another theory is that they are possibly
    encephaloceles which have lost CSF connection

26
Glioma Development
27
Encephaloceles
  • Extracranial herniation of meninges and/or brain
  • Connection with subarachnoid space
  • Rare at 135,000 births
  • 30-40 associated anomalies
  • microcephaly, hydrocephalus, microopthalmia,
    anopthalmia, agenesis of the corpus callosum,
    porencephaly, cortical atrophy, ventricular
    dilations

28
Encephaloceles
  • Bluish, soft, compressible, transilluminate,
    pulsatile
  • Enlarge with crying
  • Positive Furstenberg test (enlarge with bilateral
    compression of internal jugular veins)
  • Originate medially in the nose (cannot pass probe
    medially to this mass, versus with glioma
    generally can as they originate laterally often)
  • May have associated CSF leak

29
Encephaloceles
  • Large nasal encephalocele

30
Encephaloceles
  • Divided into three categories
  • Occipital 75
  • Sincipital 15
  • Basal 10
  • Sincipital-anterior or frontonasal (dorsum of
    nose, orbits, forehead)
  • Basal-intranasal mass, nasopharynx, posterior
    orbit because they herniate through the cribiform
    plate or posterior to it (potential for airway
    obstruction in neonate)

31
Encephaloceles
  • Basal Encephaloceles
  • Transethmoidal-through cribiform plate into
    middle meatus
  • Sphenoethmoidal-extends through cranial defect
    between posterior ethmoids and sphenoid to
    nasopharynx
  • Transsphenoidal-presents in nasopharynx
  • Sphenomaxillary-through superior and inferior
    orbital fissures to sphenomaxillary fossa

32
Encephalocele
  • Development
  • Dural projection through fonticulus nasofrontalis
  • Abnormal closure results in herniated
    meninges/brain
  • May be closely related to glioma

33
Encephalocele Development
34
Nasal MassesEvaluation
  • Most often infants and children
  • Dermoids-fistula tract, hair, pus or sebum,
    midline
  • Gliomas-firm, noncompressible, does not
    transilluminate, telangiectasias
  • Encephaloceles-soft, compressible, bluish or red,
    enlarge with crying, positive Furstenburg test
  • Do not biopsy extra or intranasal mass in a child
    before imaging (Risk of meningitis or CSF leak if
    there is an intracranial connection)

35
Imaging
  • CT and MRI most used
  • CT findings include fluid filled cyst, soft
    tissue mass, intracranial mass, enlargement of
    foramen cecum, distortion of crista galli
  • CT findings suggestive of intracranial extension
    are enlarged foramen cecum and bifidity of crista
    galli
  • Findings valuable if absent, (when present may be
    false positive)

36
CT Imaging
  • Nasal Dermoid axial ct with dermoid anterior to
    nasal and maxillary bones, no bony dehiscence or
    abnormalities noted

37
Nasal Dermoid with Intracranial Extension
38
CT Imaging
  • Encephalocele with defect noted in cribiform
    plate and herniation of brain tissue

39
MRI
  • Better delineates soft tissue
  • Ability to visualize in the sagittal plane
  • Denoyelle 36 children with dermoids, 2 patients
    had CT suggestive of intracranial involvement not
    found at surgery.
  • Recommended CT followed by MRI to confirm
    intracranial connection

40
MRI Imaging
  • Nasal dermoid cyst

41
MRI-Glioma
  • Saggital T1

42
MRI-Glioma
  • Sagittal T2

43
MRI-Glioma
  • Coronal T2

44
MRI-Encephalocele
  • Coronal T2 weighted and sagittal T1 weighted
    image of sphenoid encephalocele

45
Workup
  • History/Physical Examination
  • Nasal obstruction, polypoid intranasal mass, CSF
    leak, presence of hair or fistulous tract,
    compressible or firm, presence of pulsations,
    enlargement with crying or internal jugular
    compression
  • Radiologic Evaluation (CT and/or MRI)
  • No Intracranial Extension (Dermoid/Glioma)
  • Intracranial Extension

46
Treatment
  • Surgical Treatment
  • Complete excision (open-transcranial vs
    extracranial, vs endoscopic approaches
    described)
  • Perform early to avoid nasal distortion, bony
    atrophy, osteomyelitis, meningitis
  • dermoids-must excise entire tract to prevent
    recurrence

47
Dermoid
  • Can be removed endoscopically or via open
    approach
  • Transverse rhinotomy has been described
  • Small to moderately sized lesions
  • Avoids vertical scar and splaying

48
Nasal Dermoid with intracranial extension. Meher
R, Singh I, et al. J Postgrad Med 20055139-40.
  • Dermoid cyst with intracranial extension without
    craniotomy
  • Nasal bones removed along with anterior part of
    the frontal bone
  • Followed sac through cribiform plate, incised
    wall of sac and evacuated contents, and removed
    all except for its base where it was attached to
    dura
  • Destroyed secretory epithelial surface of remnant
    of sac with bipolar, replaced bone and closed
    wound in layers
  • Pt did well postoperative and no recurrence noted
    during 2 year follow up.

49
Glioma
  • Can be removed via open or endoscopic approach
  • Lateral rhinotomy or alar incisions may be used
    for intranasal gliomas or combined
    intra-extranasal gliomas
  • Several authors have reported isolated cases of
    endoscopic excision of small gliomas with and
    without evidence of intracranial extension.

50
Encephaloceles
  • In the past required combined approach with
    neurosurgery
  • Frontal craniotomy is performed, intracranial
    mass excised, bone-dura defect is repaired
  • Extracranial mass is then removed
  • More reports describing endoscopic removal

51
Conclusion
  • Midline nasal masses are rare but must be
    remembered in the differential
  • Furstenbergs test
  • Dont biopsy without imaging
  • Surgical intervention necessity

52
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