B2. Retinal Degeneration & Dystrophy

Question 1

prevalence of stargardt’s disease? what is it characterised by?

Answer 1

also called juvenile macular dystrophy­
most common macular dystrophy ­
Common cause of central vision loss in adults < 50

Characterised by accumulation of lipofusin within RPE­
Presentation typically in childhood or adolescence­

Question 2

prognosis for stargardt’s disease? what VA will it stabilize at?

Answer 2

Prognosis is poor, and once VA drops below 6/12 it tends to worsen rapidly before stabilizing at 6/60

Question 3

5 SSx of stargardt’s disease?

Answer 3

Symptoms:
­1. Gradual impairment of central vision­

2. May have complaints of reduced colour vision and impairment of dark adaptation

Signs:
­3. the macula may be normal initially and then show nonspecific mottling­

4. progression to geographic atrophy or bull’s-eye maculopathy
5. yellow-white lesions at the level of the RPE (accumulation of lipofusin)

Question 4

Mx for stargardt’s disease?

Answer 4

No treatment­

Low vision aids if vision is poor (visually impaired)­

Genetic counselling

­Avoid Vitamin A supplement as it may accelerate lipofusin accumulation

Question 5

prevalence of bests disease? what is it characterised by? hint: what gene?

Answer 5

Second most common macular dystrophy, after Stargardt disease

­inheritance is AD (BEST1 gene),

Bestrophin (BEST1) is found on the plasma membrane of RPE and functions as a transmembrane ion channel

Question 6

SSx of best’s disease? ( early mid and end stage)

Answer 6

Early: vitelliform appearance develops in early childhood with a round, sharply delineated (‘sunny side up’) macular lesion ­

mid: slow progression to ‘vitelliruptive’ stage (mass ruptures into subretinal space), gradual fall in VA­

End-stage: macular atrophy.

Question 7

Mx for stargardt’s disease?

Answer 7

­No treatment­
Low vision aids if vision is poor (visually impaired)­
Genetic counselling

Question 8

what are the 5 stages of best’s disease? SVPVA

Answer 8

stage 1 (subclinical):
often do not carry macular alterations; a thickened ellipsoid zone can be observed on spectral-domain optical coherence tomography (SD-OCT).

stage 2 (vitelliform):
typically show a yellow egg yolk–like macular lesion; this lipofuscin material appears as a discrete, subretinal hyperreflective deposit on SD-OCT.

stage 3 (pseudo-hypopyon):
disclose a clear altitudinal rearrangement of the vitelliform material; SD-OCT confirms reabsorption of the material and the appearance of subretinal fluid.

stage 4 (vitelliruptive):
are characterized by a remarkable disruption of the vitelliform lesion; the resulting SD-OCT scan reveals an inhomogeneous hyperreflective material, with scant subretinal fluid.

stage 5 (atrophic) show clear signs of macular atrophy; loss of the outer nuclear layers and retinal pigment epithelium is evident on SD-OCT.

Question 9

what is retinitis pigmentosa? what photoreceptors does it affect?

Answer 9

A group of inherited diffuse retinal degenerative disease

­Initially predominantly affecting the rod photoreceptors, with later degeneration of cones (rod-cone dystrophy)

Question 10

prevalence of RP? how is it caused genetically

Answer 10

Most common hereditary fundus dystrophy, prevalence 1:5000

­It can be sporadic or inherited as AD, AR, or X-L; many cases are due to mutation in the rhodopsin gene.

Question 11

what are the 2 stages of RP? SSx of each stage?

Answer 11

early stage:
night vision problems
progressive peripheral vision restriction

late stage:
tunnel vision at later stage of the disease

Question 12

4 signs of RP?

Answer 12

­1. RPE atrophy associated with arteriolar narrowing
­
2. “bone-spicule” pigmentary changes at periphery­

3. Waxy pallor of optic disc­
4. gradual increase in density and extent of the pigmentary change

Question 13

4 potential complications of RP?

Answer 13

1. Posterior subscapsular cataract­
   2, Open-angle glaucoma (3%)­
2. Keratoconus (uncommon)­
3. Posterior vitreous detachment