Congenital Fibrosis of the Extraocular Muscles (CFEOM)
Congenital fibrosis of the extraocular muscles (CFEOM)
Congenital fibrosis of the extraocular muscles (CFEOM) is a rare congenital syndrome characterized by non-progressive unilateral or bilateral restrictive strabismus with or without ptosis. Various phenotypes of CFEOM have been described, which all result from fibrosis of the extraocular muscles causing restricted ocular motility, especially restricted ocular elevation. Patients classically present with a chin up head position to compensate for poor ocular elevation and ptosis, although presentations may vary.
Common ocular findings include:
- Ocular motility restriction, usually upgaze
- Orthophoria, hypotropia, esotropia, or exotropia in primary gaze
- Unilateral or bilateral ptosis
- Compensatory head position, usually chin up
- Generally poor visual acuity due to deprivation amblyopia from congenital ptosis
Other ocular findings may include:
- Optic nerve hypoplasia
- Ganglion cell and photoreceptor layer thinning
- Marcus Gunn jaw-winking phenomenon and other forms of aberrant innervation
- High refractive error, especially astigmatism
Non-ocular findings may include:
- Central nervous system abnormalities (in CFEOM3)
- Limb abnormalities (in CFEOM4)
The following genes have been implicated in CFEOM: COL25A1, KIF21A, PHOX2A, TUBA1A, TUBB2B, TUBB3. These mutations are most commonly inherited in an autosomal dominant or autosomal recessive fashion, although sporadic mutations can also occur.
Summary of CFEOM subtypes
|Subtype||Inheritance||Clinical Characteristics||Associated Genes|
(full penetrance, variable expressivity)
||KIF21A gene encoding kinesin protein
Rarely TUBB3 gene
||PHOX2A gene encoding homeodomain transcription factor|
(full penetrance, variable expressivity)
||TUBB3 encoding neuron-specific β-tubulin isotype III
|CFEOM4 (Tukel Syndrome)9||Autosomal Recessive||
||Unknown, suspected to be on chromosome 21|
||COL25A1 gene encoding a transmembrane protein10|
|CFEOM3 with polymicrogyria||Autosomal dominant||
||TUBB2B11 encoding a beta isoform of tubulin|
CFEOM is a rare disorder with a minimum prevalence of 1/250,000
- CFEOM1: has been described in diverse ethnic populations and is the most commonly encountered in the United States and other Western countries
- CFEOM2: has been described most commonly in families of Turkish, Saudi Arabian, and Iran descent.
The abnormal innervation of the extraocular muscles results in fibrosis and atrophy of the associated extraocular muscles.
- The Myogenic Theory: supported by earlier studies, this theory postulated that CFEOM is due to a primary myopathy with fibrosis of the extraocular muscles.
- The Neurogenic Theory: now more commonly accepted, this theory postulates that fibrosis of the extraocular muscles in CFEOM is due to the congenital absence, hypoplasia, or misrouting of cranial nerves, most commonly the oculomotor nerve. This theory is supported by autopsy and high-resolution MRI studies, which have demonstrated the congenital absence, hypoplasia, and/or misrouting of orbital motor nerves (cranial nerves III, IV, VI) to their corresponding extraocular muscles in affected patients.
The diagnosis of CFEOM is made clinically. However, identifying the specific form of CFEOM through genetic testing may be important for counseling and prognosis.
- Medical History: should include prenatal and perinatal developmental history, with history of developmental delay being suggestive of CFEOM3.
- Physical Examination: should include a neurological exam and examination of the extremities. Examiners should be mindful that due to the limited ability to examine infants, findings may be falsely considered new or progressive if they were challenging to identify during infancy. The physical exam should include measurements of the following:
- Visual acuity
- Anomalous head position
- Levator function
- Ocular alignment
- Ductions and versions
- Cycloplegic refraction
- Dilated fundus exam
- Genetic Testing: can be taken by one of two approaches:
- A multigene panel: is a targeted approach wherein the physician hypothesizes potentially involved genes. The panel should include COL25A1, KIF21A2, PHOX2A, TUBA1A, TUBB2B, & TUBB3
- Exome sequencing or genome sequencing: this form of testing does not require the physician to hypothesize which genes are most likely involved. This is often used as a last resort which bypasses the hypothesis driven approach.
The differential diagnosis of CFEOM includes other causes of ophthalmoplegia, including but not limited to Monocular Elevation Deficit, Congenital Third Nerve Palsy, Brown Syndrome, Congenital Myasthenic Syndrome, and Chronic Progressive External Ophthalmoplegia (CPEO).
Non-surgical management includes close monitoring of refractive error and treatment of amblyopia. It should be kept in mind that patients can have high degrees of astigmatism and that refractive error may change significantly following strabismus or ptosis surgery.
Surgical management includes strabismus surgery and ptosis repair in order to achieve more acceptable appearance and to relieve highly anomalous head postures. However, surgery poses a challenge as full functionality of the extraocular muscles cannot be restored and typical surgical dose charts do not apply to these cases. Stepwise correction of strabismus should occur before ptosis surgery.
Indications for surgery may include:
- Unacceptable degree of compensatory anomalous head posture.
- Strabismus either causing amblyopia or interfering with daily function
- Ptosis that is either aesthetically unacceptable or interferes with daily function
General surgical considerations in CFEOM:
- Strabismus surgery:
- Forced duction testing should be performed at the beginning of surgery and be repeated throughout the surgery.
- Large recessions to relieve restriction are often required. When restriction remains after a large recession, a conjunctival recession or traction suture to the orbital wall may be helpful.
- Resections may be required, especially in the cases of poor elevation to achieve proper alignment.
- Hangback sutures have not been found to be helpful, especially in cases with absence counteracting forces by the antagonist muscle.
- The innervation abnormality affects the whole orbit and even when the tight muscles are detached from the eye, sometimes forced duction tests may be restricted. 
- At surgery, fibrous bands may be seen between the muscles and the surrounding connective tissues of the orbit
- Ptosis surgery:
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