dyschromatopsia

There is considerable clinical heterogeneity in this disorder.  Reduced vision may cause symptoms beginning during adolescence but some individuals may have good vision until the 6^th decade or even later.  Even those who complain of changes in acuity may still have 20/20 to 20/25 vision but it may also be much worse, in the range of count fingers.  There can be considerable asymmetry in acuity between the two eyes but there is little known about the rate of vision loss.  Mild dyschromatopsia is often present with deficits in both red-green and red-green discrimination but total color blindness has also been reported.  Full field ERGs usually show no rod or cone deficits.  However, multifocal ERG changes suggest dysfunction of the cones in the macula.  Spectral-domain optical coherence tomography can reveal disruptive changes at the photoreceptor inner/outer segment line and in cone outer segment tips.  Disruption of the external limiting membrane and decreased foveal thickness have also been reported.  The retina appears normal to clinical examination even in advanced stages of disease and fluorescein angiography likewise shows no abnormalities.

Early manifestations include gaze-evoked nystagmus and saccadic hypermetria.  Ophthalmoplegia develops later in the disease process.  Some patients experience a decrease in acuity and dyschromatopsia.  The ERG shows evidence of generalized rod and cone photoreceptor dysfunction in some patients.  Optic atrophy, central scotomas, central RPE changes, retinal arteriolar attenuation, and blepharospasm have also been reported.

Time-domain OCT has revealed microscopic changes in the macula with thinning of the inner-outer segment junction and nuclear layer in areas with RPE hypopigmentation. 

The primary feature of this form of macular dystrophy is atrophy of the RPE and choriocapillaris centralized to the macula.  In early stages among young patients in the second decade of life, some pigment changes are seen in the parafoveal area.  Later, the central macula develops hypopigmentation followed by atrophy of the choriocapillaris.  The area is usually sharply defined but fluorescein angiography often shows multiple window defects beyond the edges.  The same region often has speckled autofluorescence.  Secondary dysfunction of the photoreceptors in this area leads to some mild degree of vision loss in adults between the ages of 30 and 60 years but this progressive disease may eventually result in legal blindness.  The ERG demonstrates a cone dystrophy. The rate of disease progression is highly variable.  Visual acuity varies considerably as does the appearance of the macula.  Older individuals may be misdiagnosed as having age-related macular degeneration. 

Patterned dystrophies of the macula are clinically heterogeneous.  It is common for different patterns to be seen among multiple members of a single family.  They can also be different in the two eyes of the same individual.  RPE changes can often be seen in the second decade of life but visual disturbances may not be noted until a decade or two later.  The process is progressive and eventually macular function is severely depressed with vision in the range of 20/200.  The pigmentary retinopathy occurs at the level of the RPE with the typical appearance of pigment but sometimes an accumulation of white or yellowish deposits is present.  The pattern of changes may appear in a configuration resembling the wings of a butterfly, hence the name.  However, vitelliform-like lesions have also been reported.  Paracentral tritan color defects have been described.

Subfoveal choroidal neovascularization can occur.

While the ERG may show some diffuse photoreceptor dysfunction in the presence of normal vision, there is little to suggest a primary rod or cone abnormality. Dark adaptation is normal.  Visual fields can reveal a small central scotoma and fluorescein angiography often shows window defects in the posterior pole. 

Retinitis pigmentosa is a large group of disorders with great clinical and genetic heterogeneity.  The ocular disease is characterized by night blindness, field constriction, and pigmentary changes in the retina.  The later may have a 'bone corpuscle' appearance with a perivascular distribution.  A ring scotoma is sometimes evident.  Age of onset and rate of progression is highly variable, even within families.  The rods are impacted early but cone deterioration with loss of central vision usually follows.  Some patients complain of dyschromatopsia and photophobia.  The ERG generally documents this progression but the mfERG shows wide variations in central cone functioning.  Legal blindness is common by the 5^thdecade of life or later.  The course of clinical and ERG changes is more aggressive in the X-linked form than in the autosomal dominant RHO disease.  The final common denominator for all types is first rod and then cone photoreceptor loss through apoptosis.

As many as 50% of patients develop posterior subcapsular cataracts.  The vitreous often contains cells and particulate debris.   Retinal arterioles are often attenuated and the optic nerve may have a waxy pallor, especially late in the disease.  Occasional patients have cysts in the macula.  Some patients experience continuous photopsia.  

Retinitis pigmentosa is a large group of disorders with great clinical and genetic heterogeneity.  The ocular disease is characterized by night blindness, field constriction, and pigmentary changes in the retina.  The later may have a ‘bone corpuscle’ appearance with a perivascular distribution.  A ring scotoma is sometimes evident.  Age of onset and rate of progression is highly variable, even within families.  In this, an X-linked form of the disease, the first symptoms often appear early in the second decade of life.  The rods are impacted early but cone deterioration with loss of central vision usually follows.  Some patients complain of dyschromatopsia and photophobia.  The ERG generally documents this progression but the mfERG shows wide variations in central cone functioning.  Legal blindness is common by the 4^thor 5^thdecades of life.  The course of clinical and ERG changes is more aggressive in the X-linked form than in autosomal dominant retinitis pigmentosa disease resulting from RHO mutations.  The final common denominator for all types is first rod and then cone photoreceptor loss through apoptosis.

Up to 50% of adults develop cataracts beginning in the posterior subcapsular area.  The vitreous often contains cells and some patients have cystoid macular edema.  A waxy pallor of the optic nerve is sometimes present especially in the later stages of the disease.

Female carriers generally are asymptomatic but may also have severe RP.  Occasionally they have an unusual tapetal reflex consisting of a ‘beaten metal’ appearance or sometimes scintillating, golden patches.