cleft palate

Goldenhar Syndrome Spectrum

Clinical Characteristics
Ocular Features: 

There is considerable clinical heterogeneity in this syndrome.  Upper eyelid colobomas and ocular dermoids or lipdermoids are the primary ocular signs (lower lid colobomas are more common in Treacher Collins-Franceschetti syndrome [154500]).  The caruncles may be dysplastic, displaced or even bilobed.  Iris, optic nerve and chorioretinal colobomas also occur.  Microphthalmia is uncommon.  All ocular features are usually unilateral but are bilateral in a minority of cases.

Systemic Features: 

The facial asymmetry (hemifacial microsomia) can be a striking feature.  The side with microsomia may have a malformed external auricle, preauricular tags, pretragal fistulas, and microtia or even atresia of the external auditory canal.  A wide variety of other anomalies are often found including left lip and palate, mandibular hypoplasia, vertebral anomalies, facial nerve paralysis, congenital heart defects, and conductive hearing loss.  Mental deficits are often present along with features of the autism spectrum in 11%.

Genetics

Most cases are sporadic but other family patterns support autosomal recessive and autosomal dominant inheritance with the latter being the most common.  A locus at 14q32 has been associated with OAVS but so far no mutant gene has been identified.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Some patients benefit from scoliosis and cosmetic surgery.  Assistive hearing devices can be helpful and children especially should be monitored for physical and cognitive development.

References
Article Title: 

Oculo-auriculo-vertebral spectrum: clinical and molecular analysis of 51 patients

Beleza-Meireles A, Hart R, Clayton-Smith J, Oliveira R, Reis CF, Venancio M, Ramos F, Sa J, Ramos L, Cunha E, Pires LM, Carreira IM, Scholey R, Wright R, Urquhart JE, Briggs TA, Kerr B, Kingston H, Metcalfe K, Donnai D, Newman WG, Saraiva JM, Tassabehji M. Oculo-auriculo-vertebral spectrum: clinical and molecular analysis of 51 patients. Eur J Med Genet. 2015 Sep;58(9):455-65.

PubMed ID: 
26206081

Saethre-Chotzen Syndrome

Clinical Characteristics
Ocular Features: 

The lids are often ptotic and asymmetrically so in keeping with the skull asymmetry.  Strabismus is common.  Optic atrophy, downward slanting lid fissures, epicanthal folds, and dacryostenosis have also been reported.

Systemic Features: 

The skull is acrocephalic and asymmetrical.  The frontal hairline is low.  The external ear and especially the crus of the ear are malformed and the latter is sometimes considered a valuable diagnostic sign.  There is frequently mild soft tissue syndactyly of the third, fourth and fifth toes, and the distal phalanges of the hallux may be bifid.  Syndactyly of the fingers is sometimes present as well.  Clefting of the soft and hard palates is commonly present and a few patients have had joint contractures.  Hearing loss of all types has been reported.  Mental development seems to be normal.  An increased risk of breast cancer has been found among Swedish patients.

SCS is considered to be one of the more common types of syndromic craniosynostosis.

Genetics

Saethre-Chotzen syndrome is caused by mutations in the TWIST1 (10q26) and possibly FGFR2 genes suggesting genetic heterogeneity.  There is also a great deal of clinical heterogeneity.  This syndrome is sometimes confused with Gorlin-Chaudhry-Moss syndrome (233500).  Pedigrees are consistent with autosomal dominant inheritance.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no known treatment except for cranioplasty and repair of palate clefting.

References
Article Title: 

Spondyloepiphyseal Dysplasia Congenita

Clinical Characteristics
Ocular Features: 

Patients characteristically have vitreous abnormalities described as veils or stands.  The central vitreous may undergo liquefaction and the peripheral vitreous sometimes creates traction on the retina.  High myopia with progression is common and a significant proportion of patients suffer detachments of the retina even in the absence of myopia.  Lattice degeneration is frequently seen.  Most patients have 20/50 or better vision.

Systemic Features: 

Dwarfism with kyphosis and a barrel chest are characteristic.  The vertebrae are often flattened and malformed and the neck is short.  Delayed ossification in the epiphyses and the os pubis is common.  The disorder can be evident at birth but the full syndrome may not be evident until 3 or 4 years of age.  Radiologic studies are important in making the diagnosis.

Genetics

This is generally considered an autosomal dominant disorder secondary to mutations in the COL2A1 gene impacting type II collagen.  This type of collagen is found primarily in cartilage and vitreous and a number of type II collagenopathy disorders are associated with vitreoretinopathy and joint disease of which Stickler syndrome type I (609508, 108300) is the most common.  Other disorders in this database caused by mutations in COL2A1 are: Kniest dysplasia (156550), Stickler syndromes type I (609508, 108300 ) and II (604841), vitreoretinopathy with epiphyseal dysplasia (120140), and spondyloepiphyseal dysplasia congenita (183900).

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Cervical fusion is sometimes used when odontoid hypoplasia leads to hypermobility of the cervical vertebrae.  Retinal detachments, of course, need to be repaired.

References
Article Title: 

Marshall Syndrome

Clinical Characteristics
Ocular Features: 

Myopia is a common feature.  The globes appear prominent with evident hypertelorism, perhaps in part due to shallow orbits.  The vitreous is abnormally fluid.  The beaded vitreous pattern seen in Stickler syndrome type II (604841), with which Marshall syndrome is sometimes confused, is not seen in Marshall syndrome, nor is the same frequency of retinal detachments.  Congenital or juvenile cataracts were present in Marshall’s original family.

Systemic Features: 

The midface is flat with some features of the Pierre-Robin phenotype.  The nasal root is flat and the nares anteverted.  Patients tend to be short in stature and joints are often stiff.  Small iliac wings and a thickened calvarium can be seen radiologically together with other bone deformities.  Abnormal frontal sinuses and intracranial calcifications have also been reported.  Sensorineural hearing loss may be noted during the first year of life with age-related progression.  Osteoarthritis of the knees and lumbosacral spine begins in the 4th and 5th decades.  Features of anhidrotic ectodermal dysplasia such as hypohidrosis and hypotrichosis are present in some patients.  Individuals may have linear areas of hyperpigmentation on the trunk and limbs.

Genetics

The syndromal status of Marshall syndrome as a unique entity remains uncertain inasmuch as there are many overlapping clinical features with Stickler syndrome type II (604841) and both result from mutations in the COL11A1 gene (1p21).  Autosomal dominant inheritance is common to both although autosomal recessive inheritance has been proposed for a few families with presumed Marshall syndrome. Stickler syndrome type II (604841) and Marshall syndrome may be allelic or even the same disorder.

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

No treatment is available for this disorder beyond cataract removal.  Patients need to be monitored for retinal breaks and detachments.

References
Article Title: 

Stickler Syndrome, Type II

Clinical Characteristics
Ocular Features: 

Virtually all (85%) patients have a nonprogresssive axial myopia.  The vitreous degeneration has a beaded pattern without the veils of type I, claimed by some to be important in the distinction of the two types.  Paravascular lattice retinopathy is seen in 38% of patients and 64% have cataracts, sometimes with wedge opacities similar to those in type I Stickler syndrome.  Nearly half (42%) of patients are reported to have retinal detachments.

Systemic Features: 

Hearing loss occurs early and many individuals (80%) eventually require hearing aids.    Midline clefting is present frequently with bifid uvula, a highly arched palate, or an actual cleft palate.  Joint laxity is common.

Genetics

There are reasons to classify type II Stickler syndrome as a unique disorder apart from type I (108300).  In addition to phenotypic evidence (vitreoretinal disease, amount of hearing loss, and degree of epiphyseal disease), mutation in two different genes are involved.  Type II results from a mutation in the COL11A1 (1p21) and type I (108300) in COL2A1.  Both types are inherited in autosomal dominant patterns.

Type IV (614234) with vitreoretinal changes, myopia, and a high risk of retinal detachment is inherited in an autsomal recessive pattern.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Patients with type II Stickler disease need lifelong ophthalmologic monitoring because of the risk of retinal detachments and cataracts with treatment as indicated.
 

References
Article Title: 

Clinical features of type 2 Stickler syndrome

Poulson AV, Hooymans JM, Richards AJ, Bearcroft P, Murthy R, Baguley DM, Scott JD, Snead MP. Clinical features of type 2 Stickler syndrome. J Med Genet. 2004 Aug;41(8):e107.

PubMed ID: 
15286167

Kniest Dysplasia

Clinical Characteristics
Ocular Features: 

High myopia and vitreoretinal degeneration are characteristic ocular features in this disorder.   The myopia is in the range of -7.5 to -15.25 with most patients having about -11 diopters.  Acuity may be normal but inoperable retinal detachments can lead to blindness.  The vitreous demonstrates liquefaction and syneresis and often detaches posteriorly forming a retrolental curtain.  About half of affected eyes have perivascular lattice degeneration and the same proportion of patients at some point develop a retinal detachment.  Giant tears and retinal dialysis are commonly the cause.  The lens is often dislocated and cataracts are common.

Systemic Features: 

Short stature, cleft palate, stiff joints, and conductive hearing loss are characteristic extraocular features of Kniest dysplasia.  Some patients develop frank joint contractures and many are unable to make a tight fist due to inflexibility of the interphalangeal joints.  Lumber kyphoscoliosis is common.  Epiphyseal cartilage has a 'Swiss cheese appearance' with prominent lacunae.  The facies are round and the midface is underdeveloped with a flat nasal bridge.  Mild psychomotor retardation is sometimes seen.  

High levels of keratin sulfate are found in the urine.

Genetics

Mutations in the COL2A1 gene (12q13.11-q13.2) coding for type II collagen is responsible for this autosomal dominant disorder. This is one of a number of disorders known as type II collagenopathies (see Stickler syndrome I [609508]).  The clinical features arise from a defect in type II procollagen.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no treatment for the dysplasia.  Displaced lenses can be removed but the myopia and degenerated vitreous require a cautious approach.  Rhegmatogenous detachments demand prompt attention.

References
Article Title: 

Ophthalmic and molecular genetic findings in Kniest dysplasia

Sergouniotis PI, Fincham GS, McNinch AM, Spickett C, Poulson AV, Richards AJ, Snead MP. Ophthalmic and molecular genetic findings in Kniest dysplasia. Eye (Lond). 2015 Jan 16. doi: 10.1038/eye.2014.334. [Epub ahead of print].

PubMed ID: 
25592122

The Kniest syndrome

Siggers CD, Rimoin DL, Dorst JP, Doty SB, Williams BR, Hollister DW, Silberberg R, Cranley RE, Kaufman RL, McKusick VA. The Kniest syndrome. Birth Defects Orig Artic Ser. 1974;10(9):193-208.

PubMed ID: 
4214536

Stickler Syndrome, Type I

Clinical Characteristics
Ocular Features: 

High myopia and vitreous degeneration dominate the ocular manifestations of Stickler syndrome, type I.  The vitreous often appears optically empty as it liquefies and the fibrils degenerate.  The vitreous is sometimes seen to form 'veils', especially in the retrolenticular region but they may also float throughout the posterior chamber.  They are often attached to areas of lattice degeneration in the retina as well as other areas.  Posterior vitreous detachments are common.  Vitreoretinal degeneration is progressive and by the second decade rhegmatogenous detachments occur in half of affected patients.  As many as three quarters of adult patients have retinal breaks.  The retina has pigmentary changes with deposition circumferentially near the equator and more peripherally.  Hypopigmentation is more common early creating a tessellated appearance.  Lenticular opacities occur also early with cortical flecks and wedge-shaped changes.

The ERG may be normal early but evidence of rod and cone dysfunction soon appears and is progressive.  Dark adaptation is defective later in the course of the disease.  The EOG is virtually always depressed.  The visual field is constricted and may show a ring scotoma coincident with the equatorial chorioretinal atrophy.

Glaucoma is not uncommon and may be infantile in onset and difficult to control.  

Phthisis is a significant risk especially for individuals who have multiple surgical procedures for retinal detachments. 

Systemic Features: 

It has been suggested that there is a nonsyndromic or ocular type of Stickler syndrome lacking many of the extraocular features characteristic of the complete syndrome.  However, the evidence for the ocular type described here as a distinct entity remains slim and the clinical picture may simply reflect variable expressivity of mutations in the same gene.  Type I Stickler syndrome has multiple systemic features such as cleft palate, hearing impairment, premature arthritis, micrognathia, kyphoscoliosis, and some signs such as arachnodactyly that are found in the Marfan syndrome.

Genetics

This is an autosomal dominant disease of collagen formation as a result of mutations in the COL2A1 gene (12q13.11-q13.2). The mutations causing both syndromal and the suggested nonsyndromal ocular type of Stickler disease are in the same gene.  Mutations in the same gene are known to cause autosomal dominant rhegmatogenous retinal detachments in patients who have none of the systemic clinical signs (609508).  These patients may lack the signs of vitreous degeneration seen in Kniest dysplasia (156550)  and in the disorder described here.

There is better evidence for a second type of Stickler syndrome, STL2 or type II (604841) based on phenotypic differences and the fact that a second locus (1p21) containing mutations in COL11A1 has been linked to it. 

Type III is caused by mutations in COL11A2 and has systemic features similar to types I and II but lacks the eye findings since this gene is not expressed in the eye.

Type IV also has important ocular features but is an autosomal recessive disorder caused by mutations in COL9A2.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

The combination of progressive vitreoretinal degeneration, frequency of posterior vitreous detachments, and axial myopia creates a lifelong threat of retinal tears and detachments.   Half to three quarters of all patients develop retinal tears and detachments.  Certainly all patients with Stickler syndrome deserve repeated and thorough retinal exams throughout their lives.  In addition to prompt treatment of tears and detachments, some have advocated prophylactic scleral banding to reduce vitreous traction, or applying 360 degree cryotherapy.

References
Article Title: 

Stickler syndrome in children: a radiological review

McArthur N, Rehm A, Shenker N, Richards AJ, McNinch AM, Poulson AV, Tanner J, Snead MP, Bearcroft PWP. Stickler syndrome in children: a radiological review. Clin Radiol. 2018 Apr 13. pii: S0009-9260(18)30118-1. doi: 10.1016/j.crad.2018.03.004. [Epub ahead of print].

PubMed ID: 
29661559

High efficiency of mutation detection in type 1 stickler syndrome using a two-stage approach: vitreoretinal assessment coupled with exon sequencing for screening COL2A1

Richards AJ, Laidlaw M, Whittaker J, Treacy B, Rai H, Bearcroft P, Baguley DM, Poulson A, Ang A, Scott JD, Snead MP. High efficiency of mutation detection in type 1 stickler syndrome using a two-stage approach: vitreoretinal assessment coupled with exon sequencing for screening COL2A1. Hum Mutat. 2006 Jul;27(7):696-704. Erratum in: Hum Mutat. 2006 Nov;27(11):1156.

PubMed ID: 
16752401

Lymphedema-Distichiasis Syndrome

Clinical Characteristics
Ocular Features: 

This form of lymphedema is associated with distichiasis, often with trichiasis and significant corneal damage in about 75% of patients.  Onset of symptoms may occur at any age but usually during childhood or adolescence.  Photophobia, epiphora, corneal erosions, ptosis, and partial ectropion of the lids may also be seen.  The secondary symptoms of trichiasis are not always present and slit lamp examination of the lashes may be necessary to see the duplicated row of lashes.  The lashes often grow out of the Meibomian orifices.

Systemic Features: 

Cardiac defects, cleft palate, and spinal extradural cysts occur in some families.  Type II diabetes and interstitial nephritis have been reported.  The lymph channels in the lower extremities may be normal or increased in number, especially below the knee where pitting edema is most often first seen, even as early as the first decade of life.  Lymphedema occurs earlier in males and secondary cellulitis is a greater risk. It is usually confined to the lower extremities and is often asymmetrical.  Not all patients have the complete syndrome, while lymphedema and distichiasis can be inherited as individual disorders without being associated.  Males are more likely to have the complete syndrome.

Several families with this syndrome secondary to mutations in the FOXC2 have been reported to have renal anomalies ranging from kidney agenesis to malrotation. 

Genetics

This disorder is inherited in an autosomal dominant pattern and several families have been found to have mutations in the FOXC2 gene on chromosome 16 (16q24.3).  A Chinese family with an affected father and two affected offspring (one male and one female) has been reported with distichiasis but no lymphedema.  A premature stop codon was found in the FOXC2 transcription gene (16q24.1) in these family members suggesting that they may have had the lymphedema-distichiasis syndrome instead.

Blatt distichiasis is a unique disorder without the lymphedema (126300). 

Double rows of eyelashes are also part of the blepharocheilodontic syndrome (119580).

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Electrolysis of individual misdirected lashes can be applied.  Prompt treatment of lid cellulitis is important. Surgical repair of scarred lid tissue can restore cosmesis lid function and improve cosmesis.

References
Article Title: 

Renal anomalies and lymphedema distichiasis syndrome

Jones GE, Richmond AK, Navti O, Mousa HA, Abbs S, Thompson E, Mansour S, Vasudevan PC. Renal anomalies and lymphedema distichiasis syndrome. A rare association? Am J Med Genet A. 2017 May;173(8):2251-2256.

PubMed ID: 
28544699

Hereditary lymphedema and distichiasis

Kolin T, Johns KJ, Wadlington WB, Butler MG, Sunalp MA, Wright KW. Hereditary lymphedema and distichiasis. Arch Ophthalmol. 1991 Jul;109(7):980-1.

PubMed ID: 
2064580

Peters-Plus Syndrome

Clinical Characteristics
Ocular Features: 

Peters anomaly (306229) usually occurs as an isolated ocular malformation and is often unilateral.  However, in some patients with bilateral involvement it is part of a systemic syndrome or other congenital conditions such as chromosomal deletions and the fetal alcohol syndrome.  It is called Peters Plus syndrome in the condition described here because of the association of a specific combination of systemic features.

The ocular features are consistent with dysgenesis of the anterior chamber.  The clinical picture is highly variable but generally consists of iris adhesions to the cornea centrally (classical Peters anomaly), occasionally lenticular adhesions as well, and thinning of the central corneal stroma.  As a result, the cornea may become edematous, cataracts may develop, and glaucoma is common.

Systemic Features: 

Peters-plus syndrome consists of Peters anomaly plus various degrees of developmental delays and intellectual deficits, short digits and short stature, and cleft lip and palate.  The facies is said to be characteristic due to a prominent forehead, narrow palpebral fissures, and a cupid's bow-shaped upperlip. There may be preauricular pits present and the neck is often broad.  The ears may be prominent.  Congenital heart defects are present in a third of patients and a few have genitourinary anomalies.

Genetics

This is an autosomal recessive disorder of glycosylation caused by a mutation in the B3GALTL gene on chromosome 13 (13q12.3).  At least some patients have a splicing mutation in this gene leading to a skipping of exon 8.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Treatment is directed at sight preservation by correcting the major ocular defects such as glaucoma and iridocorneal adhesions.  Corneal transplants and cataract removal are sometimes required.  Releasing the anterior synechiae can lead to significant clearing of the corneal edema.  Growth hormone replacement therapy may be beneficial.

References
Article Title: 

The Peters' plus syndrome: a review

Maillette de Buy Wenniger-Prick LJ, Hennekam RC. The Peters' plus syndrome: a review. Ann Genet. 2002 Apr-Jun;45(2):97-103. Review.

PubMed ID: 
12119218

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