microphthalmia

Cataracts, Congenital Zonular Pulverulent 1

Clinical Characteristics
Ocular Features: 

Bilateral lens opacities may be both nuclear and zonular.  The embryonic and fetal nuclei are usually involved and diffuse cortical opacities may also be seen in some patients.  The involved area is therefore larger than the somewhat similar Coppock-like cataract (604307) which is limited to the embryonic nucleus.  The lens opacities may be seen at birth or in early childhood and usually progress. There is considerable clinical variation in the degree and distribution of the usual dust-like opacities which may also be lamellar in distribution with a clear peripheral cortex and minimal nuclear involvement.  Microcornea has also been reported.  In mild cases the lens opacities are primarily clustered along the Y sutures resembling congenital zonular cataracts with sutural opacities (600881).

Three unrelated patients with mutations in GJA8 and total sclerocornea have been reported.  Two of these patients in addition had small abnormal lenses while the third had cataracts and micropthalmia.  Two of the three also develped glaucoma by one year of age.

The nature and morphology of the lens opacities in an adult have been studied by light and scanning electron microscopy.  They are located in the embryonic and fetal nuclei and appear "puffy" with lens fiber irregulaties and entanglement in adjacent areas. 

Systemic Features: 

None.

Genetics

Congenital zonular pulverulent cataracts are inherited in an autosomal dominant pattern resulting from missense mutations in the GJA8 gene (1q21.1) that codes for connexin 50.  These belong to a category of lens opacitites now designated "Cataract 1, Multiple Types" in OMIM (116200). They have been detected in multiple populations and ethnic groups around the world.

Mutations in CZP3 at 13q11-13 coding connexin 46 (601885) result in a similar phenotype (Cataracts, Congenital Zonular Pulverulent 3) suggesting that genetic heterogeneity is present.

This was the first disease locus to be linked on a human autosome, in this case to the Duffy blood group locus on chromosome 1.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Cataract surgery is indicated for visually significant lens opacities which may be required late in the first or early in the second decade of life.

References
Article Title: 

Microphthalmia, Isolated, with Cataract

Clinical Characteristics
Ocular Features: 

Isolated microphthalmia with cataract is clinically and genetically heterogeneous and remains to be fully delineated.  The cataracts occur congenitally.  Nystagmus was an additional feature in several individuals with MCOPCT2.  The basis for a third type of microphthalmia with cataract (MCOPCT3) is even less certain but microcornea was also present in several members of a single family.  Globe dimensions have not been reported, however, and the criterion for the diagnosis of microphthalmia in reported families is unknown.

Systemic Features: 

Several patients with MCOPCT1 have had mental retardation.

Genetics

Based on genetic data at least three entities may exist but they are discussed in this database as a group because so few families have been reported.  MCOPCT1 follows an autosomal dominant pattern and segregates with a single unknown mutation at 16p13.3.  Another family with a reciprocal translocation t(2;16)(p22.3;p13.3)  involving a breakpoint in the 16p13.3 region seems to support the idea that an altered gene in this location is responsible for the phenotype.  MCOPCT2 also usually follows an autosomal dominant pattern and seems to be caused by mutations in the SIX6 gene (14q23.1).  The mode of inheritance in MCOPCT3 is uncertain since the transmission pattern in one family suggested X-linked dominance while in another family only males were affected.  No mutation or locus has been identified.  

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Cataract surgery may be beneficial when vision is significantly compromised.

References
Article Title: 

Oculoauricular Syndrome

Clinical Characteristics
Ocular Features: 

This rare malformation syndrome affects primarily the eyes and ears.  The globes are small and usually have colobomas of both anterior and posterior segments.  The corneas likewise are small and often have opacities.  The anterior segment is dysplastic with anterior and/or posterior synechiae.  Glaucoma may be present.  The lenses may be small and often become cataractous.  There is a progressive rod-cone dystrophy associated with a pigmentary retinopathy.  Chorioretinal lacunae have been seen in the equatorial region.  The retinal degeneration is progressive, beginning with rod dysfunction but followed by deterioration of all receptors.  The onset in early childhood results in poor vision and nystagmus. 

Systemic Features: 

The external ears are abnormal.  The earlobes may have colobomas or may be aplastic.  The intertragic notch is often underdeveloped.  Audiograms and vestibular function tests, however, show normal function and MRI of the middle and inner ears likewise reveals no anatomic abnormalities.       

Among the few patients reported, dental anomalies, spina bifida oculta, and mild dyscrania have been noted in individual patients.

Genetics

This rare disorder has been reported in only a few families.  Based on parental consanguinity and homozygosity of mutations in the HMX1 gene (4p16.1) in affected sibs, this is an autosomal recessive disorder.  In one family there was a homozygous 26 bp deletion and in another a homozygous missense mutation.  The parents are heterozygous for the deletion.

HMX1 is a homeobox gene and the deletion abolishes its function by establishing a stop codon at position 112.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment is available for the extraocular malformations.  Glaucoma treatment and cataract surgery should be considered although permanent visual rehabilitation is unlikely given the progressive nature of the rod-cone dystrophy.

References
Article Title: 

Microphthalmia, Syndromic 1

Clinical Characteristics
Ocular Features: 

Microphthalmia is often a part of other ocular and systemic anomalies.  The full range of essential features of Lenz microphthalmia remains unknown but is often diagnosed in males when colobomas and microcornea are associated with mental deficits together with urogenital and skeletal anomalies.  Microphthalmos may be unilateral and ocular cysts are common.  The globes may be sufficiently small that anophthalmia is sometimes diagnosed but this is a misnomer as some ocular tissue is always present.   Sixty per cent of eyes have colobomas which are often bilateral and may involve the optic disc, choroid, ciliary body, and iris.  Blindness is common.  

Systemic Features: 

A large number of associated systemic anomalies have been reported with this type of microphthalmia.  Skeletal features include microcephaly, spinal deformities, high arched palate, pectus excavatum, absent or dysplastic clavicles (accounting for the narrow or sagging shoulders), and digital anomalies including syndactyly, duplicated thumbs and clinodactyly.  Physical growth retardation is evident by shortness of stature.   Urogenital malformations are present in 77% of individuals and include hypospadius, cryptorchidism, hydroureter, and renal dysgenesis.  Dental anomalies include oligodontia and irregular lower incisors that may be widely spaced.  Some degree of intellectual disability is present in 63%.  The ears may be abnormally shaped, low-set, rotated posteriorly, and anteverted. 

Genetics

This is a rare X-linked disorder that is apparently due to an unknown mutation at Xq27-Xq28.  No male-to-male transmission has been observed but affected males rarely reproduce as a result of various urogenital anomalies.

A somewhat similar X-linked syndrome of microphthalmia, sometimes called OFCD syndrome (syndromic 2 microphthalmia; 300166) has been reported to be caused by mutations in BCOR (Xp11.4).  This MCOPS2 disorder is often considered to be X-linked dominant with lethality in males.

Another X-linked non-syndromic form of microphthalmia with colobomas has been reported (Microphthalmia with Coloboma, X-Linked; 300345).  In addition there is a similar disorder of simple Microphthalmia with Coloboma that is inherited either in an autosomal dominant or autosomal recessive pattern (605738, 610092, 611638, 613703, 251505 ).

Pedigree: 
X-linked recessive, carrier mother
X-linked recessive, father affected
Treatment
Treatment Options: 

There is no treatment beyond supportive care for specific health issues. 

References
Article Title: 

Microphthalmia with Retinitis Pigmentosa

Clinical Characteristics
Ocular Features: 

A decrease in visual acuity with night blindness begins in the third decade of life.  The axial length is decreased resulting in high hyperopia.  There is diffuse scleral thickening, macular schisis of the outer retinal layers, and drusen may be present in the optic nerve.  The retinal pigment epithelium is abnormal with both pigment clumping and bone-spicule formation.  Areas of hypo- and hyperfluorescence are seen on fluorescein angiograms.  The cornea is normal-sized with shallow anterior chambers but narrow angles were not reported.  Intraocular pressures were normal.  On ERG recordings rod responses are missing while cone tracings are severely diminished. 

Systemic Features: 

No systemic disease is associated. 

Genetics

Based on consanguinity in the parents of the single family reported, this seems to be an autosomal recessive disorder.  Molecular studies confirm that the four affected sibs are homozygous for mutations in the MFRP gene (11q23) while the parents are both heterozygous.

Another disorder of small eyes but with classical findings of nanophthalmos and retinitis pigmentosa has also been described (267760) (nanophthalmos with retinopathy) and may be the same disorder especially since no molecular mutation has been identified.  

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Low vision aids may be helpful, at least in early stages of the disease. 

References
Article Title: 

Walker-Warburg Syndrome

Clinical Characteristics
Ocular Features: 

The eyes are usually small and contain either retinal dysplasia or a congenital retinal detachment.  Colobomas, PHPV, cataracts, glaucoma, buphthalmos, anterior chamber dysgenesis, optic atrophy, and optic nerve hypoplasia have also been reported. 

Systemic Features: 

Hydrocephalus and congenital muscular dystrophy are the most important systemic features of these syndromes.  A Dandy-Walker malformation is often present.  Type II lissencephaly, cerebellar malformations and severe mental retardation are other features.  More variable signs include macro- or microcephaly, ventricular dilatation, cleft lip and/or palate, and congenital contractures.  WWS has a severe phenotype and death often occurs in the first year of life.  Brain histology shows severely disorganized cytoarchitecture and suggests a neuronal migration disorder. Microtia has been reported in several patients.

Most developmental milestones are delayed or never achieved and death may occur in early childhood. 

Genetics

The MDDGs (muscular dystrophy dystroglycanopathies) comprise a genetically and clinically heterogeneous group of disorders (sometimes called muscle-eye-brain disease) of which the A types are more severe than the B types.  The mutant genes responsible are involved in glycosylation of DAG1 (alpha-dystroglycan). 

Types A1 (MDDGA1; 236670), B1 (MDDGB1; 613155) and C1 (MDDGC1; 609308) result from mutations in a gene known as POMT1 (9p34.1).  The muscular dystrophy in type C1 is of the limb-girdle type LGMD2K.

A2 (MDDGA2; 613150) is caused by mutations in POMT2 (14q24.3).  Mutations in POMT2 may also cause the less severe muscle-eye-brain disease (MEB) type B2 (MDDGB2; 613156), and a similar disease (C2) in which the muscle dystrophy is of the limb-girdle type LGMD2N and eye findings may be absent (MDDGC2; 613158).

Mutations in POMGNT1 (1p34-p33) cause type A3 (MDDGA3; 253280) and type B3 (MDDGB3; 613151).  The muscular dystrophy in B3 is of the limb-girdle type.  POMGNT1 mutations may be associated with congenital glaucoma, retinal dysplasia, and high myopia. Type C3 (MDDGC3; 613157), also with a limb-girdle type of muscular dystrophy (LGMD2O), is caused by mutations in POMGNT1 as well.

FKTN mutations cause type A4 MDDG (MDDGA4; 253800) associated with the Fukuyama type of congenital muscular dystrophy but they can also cause type B4 (MDDGB4; 613152) which does not have mental retardation, and type C4 (MDDGC4; 611588) with seizures and a limb-girdle type (LGMD2M) of muscular dystrophy.

Types A5 (MDDG5A; 613153) and B5 (MDDGB5; 606612) are the result of mutations in the FKRP gene (19q13.3).  Of the two the latter is the less severe and the muscular dystrophy is of the limb-girdle type.  The eyes may be microphthalmic and have retinal pigmentary changes and congenital glaucoma.

Type A6 (MDDGA6; 613154) and B6 (MGGDB6; 608840) are caused by mutations in the LARGE gene (22q12.3).  MDDGA7, or type A7 (614643) results from homozygous or compound heterozygous mutations in the ISPD gene.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No effective treatment is available but early indications are that FKRP gene therapy restores functional glycosylation and improves muscle functions.

References
Article Title: 

Congenital muscular dystrophies with defective glycosylation of dystroglycan: a population study

Mercuri E, Messina S, Bruno C, Mora M, Pegoraro E, Comi GP, D'Amico A, Aiello C, Biancheri R, Berardinelli A, Boffi P, Cassandrini D, Laverda A, Moggio M, Morandi L, Moroni I, Pane M, Pezzani R, Pichiecchio A, Pini A, Minetti C, Mongini T, Mottarelli E, Ricci E, Ruggieri A, Saredi S, Scuderi C, Tessa A, Toscano A, Tortorella G, Trevisan CP, Uggetti C, Vasco G, Santorelli FM, Bertini E. Congenital muscular dystrophies with defective glycosylation of dystroglycan: a population study. Neurology. 2009 May 26;72(21):1802-9.

PubMed ID: 
19299310

RAB18 Deficiency

Clinical Characteristics
Ocular Features: 

Microphthalmia with microcornea, lens opacities, small and unresponsive pupils, and optic atrophy are the outstanding ocular features of this syndrome.  The eyes appear deeply set.  Some but not all have ERG evidence of rod and cone dysfunction.  The VEP is usually abnormal.  Short palpebral fissures have been described. 

Systemic Features: 

Patients with the micro syndrome have many somatic and neurologic abnormalities.  Infants usually have feeding problems that is sometimes accompanied by gastroesophageal reflux.  Some degree of psychomotor retardation and developmental delays is common.  Both spasticity and hypotonia have been described.  Some patients have seizures.  Facial hypertrichosis, anteverted ears, and a broad nasal bridge are often noted.   There may be absence of the corpus callosum while diffuse cortical and subcortical atrophy, microgyria, and pachygyria may be evident on MRI imaging.  Hypogenitalism may be a feature in both sexes.  Males may also have cryptorchidism and a micropenis while females can have hypoplasia of the labia minora and clitoris and a small introitus.  Microcephaly is inconsistently present. 

Genetics

This is a clinically and genetically heterogeneous disorder caused by homozygous mutations in at least 4 genes: RAB3GAP1 (WARBM1), RAB3GAP2 (WARBM2), RAB18 (WARBM3), and TBC1D20 (WARBM4).

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No effective treatment is available.  Vision remains subnormal even after cataracts are removed.  Nutrition may be improved with placement of a gastrostomy tube.

References
Article Title: 

New RAB3GAP1 mutations in patients with Warburg Micro Syndrome from different ethnic backgrounds and a possible founder effect in the Danish

Morris-Rosendahl DJ, Segel R, Born AP, Conrad C, Loeys B, Brooks SS, M?oller L,Zeschnigk C, Botti C, Rabinowitz R, Uyanik G, Crocq MA, Kraus U, Degen I, Faes F. New RAB3GAP1 mutations in patients with Warburg Micro Syndrome from different ethnic backgrounds and a possible founder effect in the Danish. Eur J Hum Genet. 2010 Oct;18(10):1100-6.

PubMed ID: 
20512159

Microphthalmia with Coloboma, AD

Clinical Characteristics
Ocular Features: 

Isolated colobomatous microphthalmia is uncommon compared with the syndromal conditions of which there are more than 100.  The clinical findings are confined to the eye in this condition.  The globe is abnormally small (defined by some as less than 20 mm in length in at least one eye).   Incomplete penetrance and variable expression are typical but often the cornea is small and may be cloudy with anterior synechiae suggesting that anterior chamber dysgenesis may also be a feature in some cases.  One or both eyes may be involved.  Visual acuity depends on the structures involved.

It is not uncommon for other ocular abnormalities to occur in association with the malformed globes, such as cataracts, microcornea, sclerocornea and optic nerve dysplasia. 

Systemic Features: 

None.

Genetics

The majority of isolated microphthalmos with coloboma are inherited in an autosomal dominant pattern [see also microphthalmia with coloboma, X-linked (MCOPCB1; 300345)].  Reports are mostly of single kinships.  At least 5 additional genes are involved: MCOPCB2 (605738) results from mutations in a locus at 15q12-q15, MCOPCB3 (610092) is caused by mutations in the CHX10 (VSX2) gene (14q24), MCOPCB4 (251505) frequently has a cystic malformation as well and is likely an autosomal recessive condition but the mutation and its location remain unknown, MCOPCB5 (611638) is caused by a mutation in SHH (7q36), and MCOPCB6 (613703) results from mutations in the GDF3 gene (12p13.1).

For an X-linked form of non-syndromic microphthalmia with coloboma, see Microphthalmia with Coloboma (300345 ).  For a syndromal form of X-linked microphthalmia, see Microphthalmia, Syndromic 1 (309800 ). 

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

No treatment is available for the basic malformation. 

References
Article Title: 

Vitreoretinochoroidopathy

Clinical Characteristics
Ocular Features: 

Clinical features are variable in this ocular disorder. Small corneas and shallow anterior chambers have been described in some patients.  Chronic narrow angle glaucoma or frank angle closure glaucoma attacks may occur.  Microphthalmia has been reported but nanophthalmos has not been documented.  Presenile cataracts, nystagmus, and strabismus are sometimes present.  Some patients have normal vision but others have a severe reduction in acuity, even blindness.

The vitreous is often liquefied and some patients have a fibrillary vitreous with pleocytosis.  Preretinal white dots and neovascularization are often seen, even in children.  Peripapillary atrophy may extend to the macula which may have cystic edema.  Peripherally in annular fashion there is often a pigmentary retinopathy extending to an equatorial demarcation line at the posterior border.  The ERG is usually moderately abnormal with evidence of rod and cone dystrophy generally in older patients in which some degree of dyschromatopsia is often present.  Some patients demonstrate a concentric reduction in visual field that progresses with age.  A reduced light/dark ratio has also been documented in several families.  Retinal detachment is a risk.  A posterior staphylomas has been noted in a few patients. 

Systemic Features: 

No systemic abnormalities have been reported. 

Genetics

This is an autosomal dominant disorder resulting from mutations in BEST1 (11q13), which is also responsible for Best vitelliform macular dystrophy (153700). 

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No prophylactic treatment has been reported but patients need lifelong monitoring to detect and treat glaucoma, retinal neovascularization, and detachments. 

References
Article Title: 

Mutations of VMD2 splicing regulators cause nanophthalmos and autosomal dominant vitreoretinochoroidopathy (ADVIRC)

Yardley J, Leroy BP, Hart-Holden N, Lafaut BA, Loeys B, Messiaen LM, Perveen R, Reddy MA, Bhattacharya SS, Traboulsi E, Baralle D, De Laey JJ, Puech B, Kestelyn P, Moore AT, Manson FD, Black GC. Mutations of VMD2 splicing regulators cause nanophthalmos and autosomal dominant vitreoretinochoroidopathy (ADVIRC). Invest Ophthalmol Vis Sci. 2004 Oct;45(10):3683-9.

PubMed ID: 
15452077

Oculodentodigital Dysplasia

Clinical Characteristics
Ocular Features: 

The eyes have been reported as small and sometimes appear deep-set.  The epicanthal folds are prominent and the lid fissures are small.  Microcornea and evidence of anterior chamber dysplasia including posterior synechiae, anterior displacement of Schwalbe’s line, and stromal hypoplasia in the peripupillary area may be present.  Many eyes have some persistence of the pupillary membrane. Nystagmus and strabismus has been seen in some individuals.  A few patients have evidence of a persistent hyperplastic primary vitreous, even bilaterally. Cataracts may be present as well and a few patients have been reported with open angle glaucoma.  Most patients have normal or near normal visual acuity.

Systemic Features: 

The clinical features of this syndrome are highly variable.  Hair is sparse and the nails are usually dysplastic.  The nose appears small and peaked with underdevelopment of the nasal alae, and the mandible may be broad.  The cranial bones are often hyperostotic and the long bones as well as the ribs and clavicle are widened.  The middle phalanges of the digits are usually hypoplastic or may be absent.  Syndactyly of fingers and toes is often a feature and camptodactyly is common.  The teeth are small and carious with evidence of enamel dysplasia.   Hair often grows slowly and is sparse.  A variety of neurological deficits have been reported but no consistent pattern has been recognized.  However, white matter lesions and basal ganglia changes have been documented on MRI.

Genetics

Both autosomal recessive and autosomal dominant inheritance have been proposed but in both cases the mutations are in the same gene, GJA1, located at 6q21-q23.2.

This disorder is allelic to Hallermann-Streiff syndrome (234100).

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

No treatment for the general condition is available.  Cataracts and glaucoma require attention when present, of course.

References
Article Title: 

Pages

Subscribe to RSS - microphthalmia