Difference between revisions of "Schnyder Corneal Dystrophy"
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Latest revision as of 10:05, April 9, 2021
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Schnyder stromal dystrophy is a progressive bilateral corneal opacification that results from abnormal deposition of cholesterol and phospholipids in the cornea.
Rare autosomal dominant stromal dystrophy, localized to the gene for UBIAD1-UbiA prenyltransferase domain containing 1, which is responsible for lipid metabolism.
First described by Van Went and Winbaut in 1924, and in 1929 a Swiss ophthalmologist namedSchnyder published a report of a 3 generation family that all had this condition. From this time the disease became known as Schnyder crystalline corneal dystrophy.
The exact pathogenesis is unknown, but it is thought to result from a localized defect of the lipid metabolism. It is thought that there is an abnormal metabolism of phospholipid and cholesterol (particularly HDL) in the cornea. There has also been noted to be a loss of the corneal nerves, although frank neurotrophic keratopathy has not been documented.
Slit lamp examination and testing corneal sensation, which is often decreased.
- Corneal crystal: Bilateral cholesterol deposition in the anterior stroma. (Initial changes)
- Central corneal haze: Increased prevalence with age. (>40 years)
- Mid-peripheral haze: Increased prevalence with age. (>40 years)
- Arcus lipoides: With increasing age, arcus becomes prominent enough to be seen without the slit lamp. (23-39 years)
Increasing glare, light scatter, and resultant photopic vision loss can occur. Symptoms often worsen with age.
- Genu valgum ("knocked knees")
- Slit lamp examination is the clue for diagnosis.
- Confocal microscopy in advanced stages may reveal the absence of corneal nerves.
- A recent observational study of 7 patients demonstrated small hyper-reflective deposits with increased background reflectivity.
- Anterior segment OCT has "shown diffuse high reflectivity in the epithelium, anterior, mid, and posterior stroma, which correspond to the hyperreflective deposits observed with IVCM and FF-OCT at the same level. Presence of epithelial hyperreflectivity was consistent with presence of areas of thick and irregular epithelium on epithelial mapping."
- Genetic testing looking for UBIAD1 mutations.
- Fish eye disease.
- Tangier disease.
- Lecithin-cholesterol acyltransferase deficiency.
No treatment is available to stop progression. Phototherapeutic keratectomy can remove subepithelial crystals if they are affecting visual acuity. Penetrating keratoplasty can be performed in eyes with advance disease but the disease can recur in the graft. One case series revealed that 54% of patients aged 50 years and older and 77% of patients aged 70 years and older had PKP.
- Weiss, J; Schnyder Corneal Distrophy. Curr Opin Ophthalmol 20: 292- 298
- Nowinska A, Wylegala E et al. Phenotype–Genotype Correlation in Patients With Schnyder Corneal Dystrophy.Cornea 2014;33:497–503
- Dolz-Marco R, Gallego-Pinazo R et al. Crystalline Subtype of Pre-Descemetic Corneal Dystrophy. J Ophthalmic Vis Res 2014; 9 (2): 269-271.
- Barchiesi B, Eckel R et al.The Cornea andDisorders of Lipid Metabolism.Surv Ophthalmol 36:1-22, 1991
- Weiss, J; Moller, H; The IC3D Classification of the Corneal Dystrophies. Cornea 2008;27(Suppl. 2):S1–S42
- Weiss JS. Visual morbidity in thirty-four families with Schnyder crystalline corneal dystrophy (an American Ophthalmological Society thesis). Trans Am Ophthalmol Soc 2007; 105:616-648.
- Ghazal W, Georgeon C, Grieve K, Bouheraoua N, Borderie V. Multimodal Imaging Features of Schnyder Corneal Dystrophy. J Ophthalmol. 2020 Mar 23;2020:6701816. doi: 10.1155/2020/6701816. PMID: 32280528; PMCID: PMC7125492.