nephropathy

Cystinosis is a clinically heterogeneous disorder that has been divided into three allelic forms based on the age of onset and the amount of kidney disease.  Since the three types are caused by mutations in the same CTNS gene they are discussed here as a single entity with emphasis on the similarities and differences.  All three cause significant corneal disease secondary to crystalline cystine deposits.

The early onset and most common form of cystinosis (219800) causes severe photophobia and even corneal erosions from accumulation of refractile cystine crystals which can be seen in the first years of life.  Accumulation of cystine in the retina leads to peripheral pigmentary changes that progress centrally and is present to some degree in all patients by age 7 years.  Mottling of the retinal pigment epithelium is the most common finding but there are often alternating areas of hyperpigmentation and depigmentation as well.  Visual fields may be markedly constricted.  Photoreceptor damage eventually leads to decreased rod and cone responses as recorded by ERG.  Visual acuity ranges from near normal to NLP.

The late-onset juvenile nephropathic (219900) form has a similar corneal profile but the pigmentary retinopathy occurs later than in the infantile disease.

The adult nonnephropathic form (219750) likewise has visible cystine crystals in the cornea.  This disorder should be considered in all healthy adults with a crystalline dystrophy of the cornea.  The pigmentary retinopathy does not occur.

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).