cataracts

Fabry Disease

Clinical Characteristics
Ocular Features: 

Fabry disease is a lysosomal enzyme (alpha-galactosidase A) deficiency resulting in the accumulation of globotriaosylceramide (Gb3) and related glycosphingolipids throughout the body.  The signature ocular manifestation is the whorl-like corneal pattern of lipid (glycosphingolipid) deposits which are present in both hemizygous males and heterozygous females.  These are sometimes referred to as cornea verticillata or Fleischer vortex dystrophy with a pattern similar to that seen in some patients using atabrine or amiodarone.  A general 'haze' throughout the cornea is even more common.  Lens opacities may also be distinctive and generally are one of two types: spoke-like opacities beneath the posterior capsule among males, and wedge-shaped anterior subcapsular deposits, again primarily in males.  The corneal and lens opacities seldom cause significant vision problems.

Involvement of the ocular vessels is present in almost all patients.  A notable increase in tortuosity of conjunctival vessels is present in 97% of hemizygous males and 78% of heterozygous females.  Increased retinal vessel tortuosity is less common but arteriolar involvement significantly increases the risk of central retinal artery occlusions.  An 11 yo Turkish female heterozygote with a cilioretinal artery occlusion and anterior ischemic optic neuropathy in one eye has been reported.

Systemic Features: 

The relatively common occurrence and the protean nature of Fabry disease has lead to its designation by some as the Great Imposter, replacing syphilis to which this term was previously applied.  Compounding the diagnostic difficulties in some individuals is the absence of the complete classical phenotype due to the presence of DNA variants that may modify the expression of some the clinical features.

Most signs present in the first or second decade of life with generally earlier onset in males.  The presence of proteinuria before the age of 20 years in the absence of other primary kidney disease should always raise the possibility of Fabry disease.  However, the diagnosis is often not made until the third decade in males and the fourth decade in females.  Glycosphingolipid inclusion deposits in endothelial cells are responsible for the systemic signs and symptoms including renal and heart disease which are the most common causes of premature death.  Small vessel involvement resulting in cerebrovascular disease and painful peripheral neuropathy can be debilitating. The risk of ischemic strokes is increased.  Cardiac manifestations include hypertrophic cardiomyopathy (60%), mainly involving the left ventricle, and dysfunction of the mitral and aortic valves (10 to 25%).  Dysfunction of renal glomeruli may progress to renal failure by the third to fifth decade in males.  The angiokeratomas and angiomas (most pronounced in a swimming trunk pattern) are secondary to vascular involvement of cutaneous vessels but are non-specific since they also occur in other lysosomal diseases.  The life expectancy of females is reduced by about 5 years and for males about 16 years compared with the general US population.

Involvment of the autonomic system manifests as intermittent fever, hypohidrosis, and poor temperature control.  Some patients have periodic crises of severe pain in the extremities as well as intermittent epigastric pain. Hearing loss and episodic tinnitus are common complaints.

Genetics

This is an X-linked disorder and generally assumed to be recessive although some have suggested dominance since most heterozygous females have significant manifestations that can be life-threatening.  The mutations in the responsible gene (GLA), located at Xq22, involve a variety of deletions, rearrangements and single base pair changes.  Defects in the GLA gene lead to dysfunction of the enzyme alpha-galactosidase A resulting in lysosomal deposition of glycosphingolipids throughout the body, especially in vascular endothelial cells.   

The milder disease and increase in the range of clinical manifestations among females is likely a reflection of variable patterns of X-inactivation.

Increased tortuosity of retinal arterioles is also seen in fucidosis (230000), Williams syndrome (194050), and in a condition known as retinal arteriolar tortuosity (611773, 180000).

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

Enzyme replacement therapy using agalsidase alfa (commercially available as Febrazyme (tm)) have shown promise as measured by renal function, pain intensity, left ventricular size, and general quality of life.  However, the impact on longevity remains to be determined.  Evidence suggests that early treatment is associated with improved outcomes. The corneal and lenticular opacities generally do not require treatment.

Continuous release of cardiac troponin I (cTNI) with elevated serum levels may be a clue to the severity of heart involvement.

References
Article Title: 

Favourable effect of early versus late start of enzyme replacement therapy on plasma globotriaosylsphingosine levels in men with classical Fabry disease

Arends M, Wijburg FA, Wanner C, Vaz FM, van Kuilenburg ABP, Hughes DA, Biegstraaten M, Mehta A, Hollak CEM, Langeveld M. Favourable effect of early versus late start of enzyme replacement therapy on plasma globotriaosylsphingosine levels in men with classical Fabry disease. Mol Genet Metab. 2017 May 4. pii: S1096-7192(17)30156-7.

PubMed ID: 
28495078

Continuous cardiac troponin I release in fabry disease

Feustel A, Hahn A, Schneider C, Sieweke N, Franzen W, Gunduz D, Rolfs A, Tanislav C. Continuous cardiac troponin I release in fabry disease. PLoS One. 2014 Mar 13;9(3):e91757. doi: 10.1371/journal.pone.0091757. eCollection 2014.

PubMed ID: 
24626231

Fabry disease: overall effects of agalsidase alfa treatment

Beck M, Ricci R, Widmer U, Dehout F, de Lorenzo AG, Kampmann C, Linhart A,
Sunder-Plassmann G, Houge G, Ramaswami U, Gal A, Mehta A. Fabry disease: overall effects of agalsidase alfa treatment. Eur J Clin Invest. 2004 Dec;34(12):838-44.

PubMed ID: 
15606727

Megalocornea

Clinical Characteristics
Ocular Features: 

The corneal diameter is enlarged at birth to between 13.0 and 16.5 mm and the anterior chamber is deep.  Male patients may develop early arcus, and eventually a crocodile shagreen pattern in the cornea.  Presenile cataracts, iris thinning, and iridodenesis have also been reported.  Glaucoma does not seem to be a part of this syndrome.  The ERG has revealed mild cone system dysfunction in some patients.. 

Systemic Features: 

Isolated megalocornea is not associated with systemic disease by definition but systemic evaluation must be performed to rule out other syndromes.

Some patients have been reported to have a focal loss of white matter myelination with superior cognitive abilities.

Genetics

Only a few pedigrees have been reported.  X-linked (male only) inheritance is most common.  Carrier females do not have ocular disease.  Multiple mutations in CHRDL1 (Xq23) have been found in at least 7 families. The gene encodes ventroptin, a morphogenic protein antagonist with multiple functions including specification of topographic retinotectal projections..  The gene is expressed in corneal development, anterior segment, and retina as well as brain.

Notably, megalocornea not only occurs as an isolated trait but also may be a part of systemic syndromes such as the Marfan syndrome (154700), Down syndrome andRieger syndrome (180500 ).  It is also a part of an autosomal recessive mental retardation syndrome, sometimes called Neuhauser syndrome (249310).

Autosomal inheritance (usually recessive) has also been suggested but no locus has been found on autosomes.

Homozygous mutations in LTBP2 have been reported in consanguineous families in which sibs have congenital Megalocornea, Ectopia Lentis, and Spherophakia.

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

There is no treatment for the overall condition but correction of refractive errors, cataract surgery, and low vision aids could be helpful.
 

References
Article Title: 

Association of CHRDL1 Mutations and Variants with X-linked Megalocornea, Neuhäuser Syndrome and Central Corneal Thickness

Davidson AE, Cheong SS, Hysi PG, Venturini C, Plagnol V, Ruddle JB, Ali H, Carnt N, Gardner JC, Hassan H, Gade E, Kearns L, Jelsig AM, Restori M, Webb TR, Laws D, Cosgrove M, Hertz JM, Russell-Eggitt I, Pilz DT, Hammond CJ, Tuft SJ, Hardcastle AJ. Association of CHRDL1 Mutations and Variants with X-linked Megalocornea, Neuhauser Syndrome and Central Corneal Thickness. PLoS One. 2014 Aug 5.

PubMed ID: 
25093588

X-Linked Megalocornea Caused by Mutations in CHRDL1 Identifies an Essential Role for Ventroptin in Anterior Segment Development

Webb TR, Matarin M, Gardner JC, Kelberman D, Hassan H, Ang W, Michaelides M, Ruddle JB, Pennell CE, Yazar S, Khor CC, Aung T, Yogarajah M, Robson AG, Holder GE, Cheetham ME, Traboulsi EI, Moore AT, Sowden JC, Sisodiya SM, Mackey DA, Tuft SJ, Hardcastle AJ. X-Linked Megalocornea Caused by Mutations in CHRDL1 Identifies an Essential Role for Ventroptin in Anterior Segment Development. Am J Hum Genet. 2012 Jan 24. [Epub ahead of print].

PubMed ID: 
22284829

Gyrate Atrophy

Clinical Characteristics
Ocular Features: 

Gyrate atrophy is characterized by night blindness, myopia, and multiple round islands of peripheral chorioretinal degeneration which often appear in the first decade of life, sometimes as early as five years of age. Night blindness often begins in late childhood. The atrophic areas slowly progress to the posterior pole and may eventually affect central vision. Both eyes are usually symmetrically affected. All patients have myopia, some with refractive errors ranging up to -20 D. Fluorescein angiography shows hyperfluorescent at the edges of the peripheral atrophy. A zone of pigmentary changes can be seen between normal and atrophic areas.  The electroretinogram may show reduced rod and cone responses with rods affected more than cones in early phases. Dark-adapted ERG documents elevated rod thresholds.  Swollen mitochondria have been described in photoreceptors, corneal epithelium, and in the nonpigmented ciliary epithelium.  Elevated levels of ornithine are found in plasma, urine, spinal fluid and aqueous humor.  Macular edema is commonly present and posterior subcapsular cataracts requiring surgery are common.

Systemic Features: 

Mild muscle weakness may occur due to tubular aggregates in type 2 muscle fibers, which can be visualized with electron microscopy and may lead to loss of these fibers and muscle wasting. Fine, straight hairs have been observed with patches of alopecia. Slow wave background changes on EEG have been described in about one-third of patients and peripheral neuropathy is sometimes a feature.  Hearing loss has been described as well. Some newborns have a temporary elevation of plasma ammonia but once treated usually does not recur.

Genetics

Gyrate atrophy is an autosomal recessive disorder, caused by mutations in the OAT (ornithine aminotransferase) gene on chromosome 10 (10q26).  The enzyme is part of a nuclear-encoded mitochondrial matrix complex.  Many allelic variants have been found.  A large number of affected patients of Finnish origin, most of who share the common L402P mutation, have been described.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

A low protein and especially an arginine-restricted diet have been shown to slow loss of function as measured by ERG and visual field changes.
 

References
Article Title: 

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