mental retardation

Chorioretinopathy with Microcephaly 1

Clinical Characteristics
Ocular Features: 

The ocular features have not been well described.  Small corneas, hyperopia, pale optic nerves and a variety of pigmentary changes in the retina have been reported.  The latter may consist of diffuse, fine or granular pigmentary changes.  Areas of pigmentary atrophy are often associated with patchy areas of pigmentary clumping.  These changes are usually located posterior to the equator.  Choroidal vessels may be sparse where the RPE is absent.  It has been suggested that the patchy pattern of retinal pigmentation resembles ocular toxoplasmosis.  Strabismus is common.  One report suggests microphthalmos in a patient.  Vision has been reported as subnormal from the first year of life but no quantitative data are available.

Systemic Features: 

Microcephaly is a consistent feature.  The forehead is steeply sloped but facial size appears normal.  The palate is highly arched.  Patients often have hyperactive deep tendon reflexes and walk with a shuffling gait.  Children are often hyperactive and highly social.  Intelligence quotients are usually subnormal. No lymphedema has been reported.  At least some patients have cutis marmorata.

On MRI diffuse pachygryria is seen.  The vermis is hypoplastic and the surface area of the corpus callosum is reduced to half of normal. 

Genetics

 Parental consanguinity was present in two reported families and pedigrees are consistent with autosomal recessive inheritance with homozygous mutations of TUBGCP6 (22p22) responsible.

This presumed recessive disorder appears to be different than the autosomal dominant disorder of lymphedema, microcephaly, and chorioretinal dysplasia  (MCLMR(152950) although molecular confirmation is lacking.

For somewhat similar disorder see Chorioretinopathy with Microcephaly 2 (616171).

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Treatment is supportive.

References
Article Title: 

Genetic mapping and exome sequencing identify variants associated with five novel diseases

Puffenberger EG, Jinks RN, Sougnez C, Cibulskis K, Willert RA, Achilly NP, Cassidy RP, Fiorentini CJ, Heiken KF, Lawrence JJ, Mahoney MH, Miller CJ, Nair DT, Politi KA, Worcester KN, Setton RA, Dipiazza R, Sherman EA, Eastman JT, Francklyn C, Robey-Bond S, Rider NL, Gabriel S, Morton DH, Strauss KA. Genetic mapping and exome sequencing identify variants associated with five novel diseases. PLoS One. 2012;7(1):e28936. Epub 2012 Jan 17. PubMed PMID: 22279524.

PubMed ID: 
22279524

Chorioretinal dysplasia, microcephaly, and mental retardation

Clinical Characteristics
Ocular Features: 

The ocular phenotype has not been well defined in this condition since few families have been reported.  Microphthalmia is present in some patients.  The corneas may be small and there is often some conjunctival growth over the limbus.

The retinal features consist of lacunar depigmentation of the RPE and in some cases resemble the lesions of congenital toxoplasmosis.  Eighty to 90 per cent of patients have areas of atrophic and dysplastic-appearing lesions of the retina and choroid with vascular attenuation.  The edges of lacunae may have patchy hyperpigmentation.  These lesions are usually static but may show mild progression.  Visual acuity is generally stable or only mildly progressive.  However, other patients have a severe reduction in acuity.  ERG responses are reduced.

Systemic Features: 

The amount of microcephaly may be minimal and at least some patients have 'bulging' foreheads.  The amount of mental deficiency varies from mild to severe.  IQ levels are generally in the range of 60-70.   Hypotonia has been reported in more severe cases.  Skull size is usually 2-3 standard deviations below the mean and generally has some frontal prominence.

Genetics

This seems to be an autosomal dominant disorder although no loci or mutations have been identified.  It is likely that the category of disease known as microphthalmia-chorioretinal syndrome consists of a heterogeneous group of disorders.  No locus or specific mutation has been identified.

It differs from the microcephaly, lymphedema, chorioretinopathy syndrome (152950) in which retinal folds, ptosis and lymphedema are associated with a typical facial phenotype.  For other disorders in this database having a somewhat similar phenotype see: chorioretinopahty and microcephaly type 1 (251270) and type 2 (616171).

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Treatment is supportive.  Low vision aids may be helpful.

References
Article Title: 

Microphthalmia, Syndromic 8

Clinical Characteristics
Ocular Features: 

Microphthalmia is a consistent feature and short palpebral fissures have been described in one patient.  Microcornea has also been noted.  At least one patient was blind.

Systemic Features: 

The skull is small and mental retardation is usually a feature.  Other variable abnormalities include cardiac defects, prognathism, split-feet, cryptorchidism, and cleft lip and palate.  Few patients have been reported and the full phenotype is unknown.

Genetics

The gene remains unidentified in this rare syndrome but a locus has been identified at 6p21.  In at least one patient with a balanced translocation of t(6;13)(q21;q12) a disruption in the SNX3 gene at 6q21 was identified.  Most cases occur sporadically and have cytogenetic abnormalities.

Treatment
Treatment Options: 

No treatment is known.

References
Article Title: 

Microphthalmia with Limb Anomalies

Clinical Characteristics
Ocular Features: 

Patients have either microphthalmia or anophthalmia which may be present unilaterally or bilaterally.  The MRI in several patients has revealed complete absence of the globes, optic nerves, chiasm, and optic tracts.  The eyelashes are often sparse with shortened palpebral fissures and broad lateral eyebrows.

Systemic Features: 

Global developmental delays, failure to thrive, and mild to moderate mental retardation are common.   Syndactyly, polydactyly, and oligodactyly with hypoplasia of the long bones are present to a variable degree.  Synostosis in the digits, ankles, and wrist is often seen.  A split hand (lobster-claw deformity) is variably present.  Other anomalies such as the kidneys (horseshoe kidney), undescended testes, anomalous venous circulation and deformed vertebrae have been reported.  The midface is often flattened.  A high palate, cleft lip, and mild scoliosis may be seen.

Genetics

This is an autosomal recessive disorder resulting from homozygous mutations in the SMOC1 gene (14q24.2) but there is some evidence of genetic heterogeneity as the disorder has been mapped to 10p11.23 in several families.  However, no causative mutations were found in this region.  Consanguinity among parents is common.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

There is no treatment in most cases for the ocular malformations.  Some of the limb anomalies may be surgically correctable.

References
Article Title: 

SMOC1 is essential for ocular and limb development in humans and mice

Okada I, Hamanoue H, Terada K, Tohma T, Megarbane A, Chouery E, Abou-Ghoch J, Jalkh N, Cogulu O, Ozkinay F, Horie K, Takeda J, Furuichi T, Ikegawa S, Nishiyama K, Miyatake S, Nishimura A, Mizuguchi T, Niikawa N, Hirahara F, Kaname T, Yoshiura K, Tsurusaki Y, Doi H, Miyake N, Furukawa T, Matsumoto N, Saitsu H. SMOC1 is essential for ocular and limb development in humans and mice. Am J Hum Genet. 2011 Jan 7;88(1):30-41.

PubMed ID: 
21194678

A locus for ophthalmo-acromelic syndrome mapped to 10p11.23

Hamanoue H, Megarbane A, Tohma T, Nishimura A, Mizuguchi T, Saitsu H, Sakai H, Miura S, Toda T, Miyake N, Niikawa N, Yoshiura K, Hirahara F, Matsumoto N. A locus for ophthalmo-acromelic syndrome mapped to 10p11.23. Am J Med Genet A. 2009 Mar;149A(3):336-42.

PubMed ID: 
19208380

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: 

Cataracts, Ataxia, Short Stature, and Mental Retardation

Clinical Characteristics
Ocular Features: 

Cataracts are present in both sexes but the opacification is more extensive in males and only partial in females.  The cataracts are congenital in males but apparently develop later in females who complain of blurred vision from early childhood or during teenage years.  The lenses in females have punctate and pulverulent opacities as well as posterior subcapsular sclerosis.  Vision has been estimated as hand motion from early childhood in boys and about 20/40 in females in the first two decades of life.

Systemic Features: 

Males have mild to moderate mental retardation, muscle hypotonia and weakness with postural tremor.  Their standing position is broad-based and they are unable to sit or stand otherwise without some support.  They are usually unable to walk unassisted.  Speech is dysarthric and its development is delayed.  Females are neurologically normal.

Genetics

A locus containing the disease allele at Xpter-q13.1 cosegregates with the cataract phenotype in both sexes.  The gene mutation has not been identified.  This can be called an X-linked recessive disorder with partial expression in heterozygous females.

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

Cataract surgery may be indicated in young females and may be beneficial in infant boys.

References
Article Title: 

Organoid Nevus Syndrome

Clinical Characteristics
Ocular Features: 

The sebaceous nevi often involve the eyelids, cornea, and conjunctiva.  Dermoids and lipodermoids are also seen.  Iris and choroidal colobomas are often present.  The sclerae may contain cartilage and bone which can be visible on CAT scans.  Depending upon the structures involved, patients may have strabismus, nystagmus, ptosis, exposure keratitis, and nerve palsies.

 

Systemic Features: 

Phakomatous lesions on the skin seem to preferentially occur on the upper part of the body including the face, neck and scalp but they may occur anywhere on the body including the oral cavity.  Initially they appear as papules but become verrucous around puberty.  Malignant transformation is seen in 15-20 per cent of patients.

Mental retardation and seizures are often seen in the first year of life.  Milestones achieved during that time are often lost subsequently.  Generalized weakness, osteopenia, and intracranial aneurysms are features in some patients.  Bone involvement may be highly asymmetrical.

Biopsies of conjunctival lesions show choristomas containing hyperplastic sebaceous and apocrine glands along with hair follicles.

Genetics

No clear genetic basis exists for this disease.  However, several families with multigenerational involvement have been reported in an autosomal dominant pattern.  It has been suggested that the disorder may result from a dominant lethal gene that allows some patients to survive by chance mosaicism.

Treatment
Treatment Options: 

No treatment is available for the generalized disease but therapy for specific symptoms such as epilepsy may be helpful.

References
Article Title: 

Ophthalmic features of the organoid nevus syndrome

Shields JA, Shields CL, Eagle RC Jr, Arevalo F, De Potter P. Ophthalmic features of the organoid nevus syndrome. Trans Am Ophthalmol Soc. 1996;94:65-86; discussion 86-7. Review.

PubMed ID: 
8981690

Wolfram Syndrome 2

Clinical Characteristics
Ocular Features: 

As in Wolfram syndrome 1, only insulin dependent diabetes mellitus and optic atrophy are essential to the diagnosis. The optic atrophy is progressive over a period of years and can be the presenting sign.  Its onset, however, is highly variable and may begin in infancy but almost always before the third decade of life.  The majority (77%) of patients are legally blind within a decade of onset.  The visual field may show paracentral scotomas and peripheral constriction.  Both VEPs and ERGs can be abnormal.  Diabetic retinopathy is uncommon and usually mild.

Systemic Features: 

The clinical features of this disorder are many and highly variable.  Sensorineural hearing loss, anemia, seizures, ataxia, and autonomic neuropathy are usually present. Respiratory failure secondary to brain stem atrophy may have fatal consequences by the age of 30 years.  A variety of mental disturbances including mental retardation, dementia, depression, and behavioral disorders have been reported.  The diabetes mellitus is insulin dependent with childhood onset.  Hydroureter is often present.

Diabetes insipidus may be present in patients with Wolfram syndrome 1 (222300) but has not been reported in patients reported with Wolfram syndrome 2.   Upper GI ulceration and bleeding were present in several individuals.

Genetics

This is an autosomal recessive disorder similar to Wolfram syndrome 1 (WFS1; 222300) but caused by mutations in the CISD2 gene (4q22-q24).  The gene codes for a small protein (ERIS) localized to the endoplasmic reticulum. It seems to occur less commonly than WFS1.

Some patients have mutations in mitochondrial DNA as the basis for their disease (598500).  Combined with evidence that point mutations at the 4p16.1 locus predisposes deletions in mtDNA, this suggests that at least some patients with Wolfram syndrome have a recessive disease caused by mutations in both nuclear and mitochondrial genes.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Treatment is supportive for specific organ disease.  Low vision aids may be helpful in selected individuals.

References
Article Title: 

Wolfram Syndrome 1

Clinical Characteristics
Ocular Features: 

Optic atrophy in association with diabetes mellitus is considered necessary to the diagnosis of Wolfram syndrome.  The optic atrophy is progressive over a period of years and can be the presenting symptom.  Its onset, however, is highly variable and may begin in infancy but almost always before the third decade of life.  The majority (77%) of patients are legally blind within a decade of onset.  The visual field may show paracentral scotomas and peripheral constriction.  Both VEPs and ERGs can be abnormal.  Diabetic retinopathy is uncommon and usually mild.

Two sibs with confirmed WFS1 have been reported with microspherophakia, congenital cataracts, and glaucoma in addition to optic atrophy .

Systemic Features: 

The clinical features of this disorder are many and highly variable.  Sensorineural hearing loss, diabetes insipidus, anemia, seizures, vasopressin deficiency, ataxia, and autonomic neuropathy are usually present. Respiratory failure secondary to brain stem atrophy may have fatal consequences by the age of 30 years.  A variety of mental disturbances including mental retardation, dementia, depression, and behavioral disorders have been reported.  The diabetes mellitus is insulin dependent with childhood onset.  Dilated ureters and neurogenic bladder are frequently seen, especially in older patients..

Genetics

Wolfram syndrome 1 is an autosomal recessive disorder that can be caused by mutations in the WFS1 gene (4p16.1) encoding wolframin, a small protein important to maintenance of the endoplasmic reticulum.  However, a minority of individuals also have deletion mutations in mitochondrial DNA (598500).  Some evidence suggests that point mutations at 4p16.1 predispose deletions in mtDNA, and, if so, this recessive disorder may owe its appearance to combined mutations in both nuclear and mitochondrial DNA.  In addition, rare families with the Wolfram syndrome phenotype and mutations in the WFS1 gene show transmission patterns consistent with autosomal dominant inheritance.

Wolfram syndrome 2 (WFS2) (604928) results from mutations in CISD2 at 4q22-q24.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment is available for Wolfram syndrome but the administration of thiamin can correct the anemia.  Low vision aids may be helpful in early stages of disease.

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: 

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