keratoconus

Keratoconus 1

Clinical Characteristics
Ocular Features: 

The cornea progressively thins mostly in the lower portion, usually in juveniles and young adults.  The cornea may appear normal by slit lamp examination in early stages but keratoscopy may show steepening or distortion of the mires.  Retinoscopy through dilated pupils often yields a 'scissoring' pattern.  Early symptoms include uncorrectable blurring of vision and visual distortion.  The central and lower cornea progressively often thins with formation of a cone.  A subepithelial iron line can sometimes be seen around the conical portion of the cornea (Fleischer ring).  Vertical lines may be found in the deep portions of the stroma and in Descemet membrane (Vogt striae).  The disease can progress for some years but there may also be periods of stability.  Individuals with advanced disease may suffer acute painful episodes following breaks in the Descemet membrane with edema and opacification in the cone (hydrops), followed by stromal scarring.

Systemic Features: 

Recent evidence suggests that corneal hydrops is strongly associated with mitral valve prolapse.

Genetics

Keratoconus has been found in a large number of systemic conditions, such as connective tissue disorders, Down syndrome, and other chromosomal disorders. It has been blamed on eye rubbing as is often seen in Leber congenital amaurosis and other ocular disorders as well as in atopic conditions and in individuals who have worn contact lenses for many years. Cause and effect in these situations is difficult to prove and it is likely that keratoconus is an etiologically heterogeneous disorder. Only keratoconus associated with single gene mutations are considered here.

Less than 10% of keratoconus cases have a positive family history and several mutations seem to be responsible.  Mutations in the VSX1 homeobox gene (20p11.2) have been found in what is called KTCN1 keratoconus (the same gene is mutant in posterior polymorphous corneal dystrophy 1 [122000]), inherited as an autosomal dominant trait.

Other forms of hereditary keratoconus caused by different mutations are:  KTCN2 (608932) linked to a mutation on chromosome 16 (16q22.3-q23.1), KTCN3 (608586) by a mutation on chromosome 3 (3p14-q13), KTCN4 (609271) caused by a mutation on chromosome 2 (2p24), KTCN5 (614622) mapped to 5q14.1-q21.3, KTCN6 (614623) mapped to 9q34, KTCN7 (614629) mapped to 13q32, KTCN8 (614628) mapped to 14q24, and KTCN9 (617928) associated with a mutation in the TUBA3D gene located at 2q21.1.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Contact lenses may correct vision satisfactorily in early stages of the disease but up to 20% of patients will eventually need a corneal transplant.

References
Article Title: 

VSX1: a gene for posterior polymorphous dystrophy and keratoconus

Heon E, Greenberg A, Kopp KK, Rootman D, Vincent AL, Billingsley G, Priston M, Dorval KM, Chow RL, McInnes RR, Heathcote G, Westall C, Sutphin JE, Semina E, Bremner R, Stone EM. VSX1: a gene for posterior polymorphous dystrophy and keratoconus. Hum Mol Genet. 2002 May 1;11(9):1029-36.

PubMed ID: 
11978762

Brittle Cornea Syndrome 1

Clinical Characteristics
Ocular Features: 

This seems to be a subtype of the Ehlers-Danlos syndrome in which the ocular features are prominent.  The cornea is thin and can perforate following relatively minor trauma.  It is often misshapen as well resulting in keratoglobus and keratoconus.  The external appearance can suggest buphthalmos but intraocular pressure is normal.  The sclerae are bluish suggesting that the connective tissue defect is more widespread among eye tissues. The lens is not hypermobile, however.  This disorder differs from Ehlers-Danlos type VIA (225400) (sometimes called the ocular-scoliotic form) in which there is a defect in lysyl hydroxylase although the ocular phenotype has some similarities.

Systemic Features: 

The skin is hyperelastic as in other forms of Ehlers-Danlos and the joints are hypermobile and are susceptible to dislocation.  Some but not all cases reported from the Middle East have red hair and it has been suggested this may be part of the syndrome, at least in that part of the world.

Genetics

A mutation in the ZNF469 gene (16q24), encoding a defective zinc finger protein, is responsible for at least some cases of autosomal recessive brittle cornea syndrome.  This confirms its identity as a unique type of connective tissue disease apart from other forms of Ehlers-Danlos in which ocular disease is present (such as type VIA in which the mutation is in the PLOD1 gene).

Homozygous mutations in PRDM5 (4q27) have been found in several families with brittle cornea syndrome 2 (614170).

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Treatment beyond corneal repair is limited.

References
Article Title: 

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