retinopathy

Microphthalmia, Syndromic 5

Clinical Characteristics
Ocular Features: 

One or both eyes may be small, sometimes resembling clinical anophthalmia. Other ocular anomalies such as coloboma, microcornea, cataracts, and hypoplasia or agenesis of the optic nerve have been reported.

A pigmentary retinopathy has been described.  The retinal vessels are often attenuated and sometimes sparse.  The optic nerves and chiasm are frequently absent or hypoplastic as seen on the MRI.  ERG and VEP responses are inconsistent but are generally abnormal indicating photoreceptor malfunction.  

Systemic Features: 

Patients have a variety of systemic abnormalities including pituitary dysfunction, joint laxity, hypotonia, agenesis of the corpus callosum, and seizures.  Hypothyroidism and deficiencies of growth hormone, gonadotropins, and cortisol are present in some patients.  Developmental delay and cognitive impairment are frequently present but mental functioning is normal in some patients.  The genitalia of males are often underdeveloped.  Patients are often short in stature.

Genetics

This is an autosomal dominant condition secondary to heterozygous mutations in the OTX2 gene (14q22.3).  A variety of point mutations as well as microdeletions involving the OTX2 gene have been reported.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no treatment for the syndrome but surgical and/or endocrinological treatment may be used to correct individual features.  Special education and low vision aids may be helpful in selected patients.

References
Article Title: 

Heterozygous mutations of OTX2 cause severe ocular malformations

Ragge NK, Brown AG, Poloschek CM, Lorenz B, Henderson RA, Clarke MP, Russell-Eggitt I, Fielder A, Gerrelli D, Martinez-Barbera JP, Ruddle P, Hurst J, Collin JR, Salt A, Cooper ST, Thompson PJ, Sisodiya SM, Williamson KA, Fitzpatrick DR, van Heyningen V, Hanson IM. Heterozygous mutations of OTX2 cause severe ocular malformations. Am J Hum Genet. 2005 Jun;76(6):1008-22. Apr 21. Erratum in: Am J Hum Genet. 2005 Aug;77(2):334..

PubMed ID: 
15846561

Peroxisome Biogenesis Disorder 1A (Zellweger)

Clinical Characteristics
Ocular Features: 

Ocular signs resemble those of other peroxisomal disorders with cataracts and retinopathy.  The lethal consequences of ZWS have hampered delineation of the full spectrum of ocular manifestations but many infants have these features plus optic atrophy and horizontal nystagmus.  Most infants do not follow light.  Pupillary responses may be normal in early stages but disappear later. Hypertelorism has been described but metrics are often normal.

Systemic Features: 

Many infants have hepatomegaly at birth and may develop splenomegaly as well.  Jaundice often occurs with intrahepatic biliary dysgenesis.   Severe hypotonia is present at birth but improves in those patients who survive for several years.  Psychomotor retardation can be profound and seizures may occur but sensory examinations are normal.  Most infants have a peculiar craniofacial dysmorphology with frontal bossing, large fontanels, and wide set eyes.  Pipecolic acid levels are low in serum and absent in the CSF.  Most infants do not survive beyond 6 months of age.

 

Genetics

This is a peroxisome biogenesis disorder with a complex biochemical profile resulting from a large number of mutations in at least 13 PEX genes.  It is inherited in an autosomal recessive pattern.

What was formerly called Zellweger Syndrome is now more properly called Zellweger Spectrum Disorder, or sometimes a peroxisomal biogenesis disorder in the Zellweger spectrum of disorders.  The spectrum also includes neonatal adrenoleukodystrophy (601539) and Infantile Refsum disease (601539). 

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No effective treatment is available.

References
Article Title: 

Alport Syndrome (Collagen IV-Related Nephropathies)

Clinical Characteristics
Ocular Features: 

X-linked Alport syndrome is a basement membrane disease with important ocular manifestations.  The lens is usually normal at birth but lens opacities eventually occur in a significant number of individuals with the most characteristic type being anterior polar in location.  Involvement of the anterior lens capsule often results in bilateral anterior lenticonus (25%) and may be progressive.  It is claimed that the severity of the lenticonus is a valuable marker in judging the overall disease severity.  In early stages it may be difficult to detect but its presence is suggested by an 'oil droplet' reflex during retinoscopy or slit lamp examination.  All males with anterior lenticonus should be evaluated for Alport syndrome. 

Posterior polymorphous corneal dystrophy and posterior subcapsular opacities have also been noted.  The defect in basement membranes may lead to recurrent corneal erosions, even in children, which can be incapacitating and difficult to treat.  Involvement of Bruch's membrane has been considered the source of retinal pigment epithelial changes described as a flecked retina, or 'fundus albipunctatus', found in 85% of patients.  More recent evidence using OCT suggests that the dot-and-fleck retinopathy results primarily from abnormalities in the internal limiting membrane and the nerve fiber layer.  The yellowish and/or whitish flecks are most commonly located in the posterior pole and particularly in the macula.  There is no night blindness or visual impairment from the retinal involvement.  Fluorescein angiography shows patchy areas of hyperfluorescence.  The amount of visual impairment depends primarily on the extent of lens involvement.

Termporal macular thinning occurs to some extent in all types of Alport syndrome based on OCT findings.   In one series all patients with X-linked disease had temporal thinning suggesting that this might be a useful diagnostic sign.  However, similar thinning is also seen in Leber hereditary optic neuropathy (535000), and dominant optic atrophy (165500).

Systemic Features: 

Nephritis with hematuria secondary to basement membrane disease of the glomeruli is the most life threatening aspect of this disorder.  It occurs in both sexes but more commonly in males in which it has an earlier onset.  Progressive sensorineural hearing loss beginning with high frequencies occurs in many patients, often with subtle onset in childhood, but many adults retain some hearing capacity.  In males, the onset of hearing loss often occurs before kidney disease is evident.  Hearing loss is less frequent and less severe in females.  However, there is considerable clinical and genetic heterogeneity and not all patients have the complete syndrome of nephritis, deafness and ocular disease.  In fact, it has been suggested that Alport syndrome can be subtyped into at least six categories based on the extent of organ involvement.

Genetics

Alport syndrome is a member of a group of disorders known as collagen IV-related nephropathies.  It is a genetically heterogeneous disease with 85% inherited in an X-linked pattern and most of the remainder occurring in an autosomal recessive pattern and only a few seemingly autosomal dominant.  All result from a defect in type IV collagen found in basement membranes.  About 80% of cases have a mutation in the COL4A5 gene which is located at Xq22.3.  Males seem to be more severely affected than females in the X-linked form of the disease but clearly this disorder affects both sexes reflecting the genetic heterogeneity, much of which remains to be delineated.  The autosomal disease generally results from mutations in the COL4A3 or COL4A4 genes and has been seen in both recessive and dominant patterns of transmission.

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

Renal transplantation can be lifesaving but a minority of individuals develop a specific antiglomerular basement membrane antibody (anti-GBM) that may lead to graft rejection.  Allograft survival rates are generally excellent though.  Lens extraction is beneficial where the media is compromised.

References
Article Title: 

Alport syndrome: a genetic study of 31 families

M'Rad R, Sanak M, Deschenes G, Zhou J, Bonaiti-Pellie C, Holvoet-Vermaut L,
Heuertz S, Gubler MC, Broyer M, Grunfeld JP, et al. Alport syndrome: a genetic
study of 31 families.
Hum Genet. 1992 Dec;90(4):420-6.

PubMed ID: 
1483700
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