2. Retinitis Pigmentosa
• Retinitis pigmentosa (RP) is
• a group of genetic disorders
that affect the retina’s ability to
respond to light
• slow loss of vision
• begin with nyctalopia
• loss of peripheral vision
• blindness
• +/- photopsia
3. characteristics
• hereditary
• rate of progression and degree of visual loss varies from person to person
• Most RP are legally blind by age 40
• central visual field of less than 20 degrees
• XR
• males : more often and more severe
• females : carry the genes and experience vision loss less frequently.
4. Eye Tests
• visual field testing
• Most useful for follow-up care
• Goldmann (kinetic) perimetry is recommended
• Color testing
• Commonly, mild blue-yellow axis color defects
• Dark adaptation study
• Disproportionately reduced contrast sensitivity relative to VA
• Genetic subtyping
5. Eye Tests
• optical coherence
tomography (OCT)
• not useful in diagnosing
RP
• may help in CME
6. Eye Tests
• Fluorescein angiography (FA, FFA)
• rarely useful in diagnosing RP
• may help in CME
7. Eye Tests
• Electroretinogram (ERG)
• Most critical diagnostic test for
RP
• Electro-oculogram (EOG)
• Not helpful in diagnosing RP
• but can identify Best vitelliform
macular dystrophy
• central macular changes
• normal ERG, and abnormal
EOG
8. Systemic diseases that related to RP
• hearing loss and RP
• Usher syndrome
• Waardenburg syndrome
• Alport syndrome
• Refsum disease
• Kearns-Sayre syndrome
• External ophthalmoplegia, lid ptosis, heart block, and pigmentary retinopathy
• Abetalipoproteinemia
• Fat malabsorption, fat-soluble vitamin deficiencies, spinocerebellar degeneration, and
pigmentary retinal degeneration
• Mucopolysaccharidoses
• Hurler syndrome, Scheie syndrome, Sanfilippo syndrome
• Bardet-Biedl syndrome
• Polydactyly, truncal obesity, kidney dysfunction, short stature, and pigmentary retinopathy
• Neuronal ceroid lipofuscinosis
• Dementia, seizures, and pigmentary retinopathy
• infantile form is known as Jansky-Bielschowsky disease
• juvenile form is Vogt-Spielmeyer-Batten disease
• adult form is Kufs syndrome
9. management : medical
• Acetazolamide
• Macular edema (Fishman et al and Cox et al)
• oral acetazolamide helps
• Topical acetazolamide less helps
• Adverse effects:
• fatigue, renal stones
• loss of appetite, hand tingling
• electrolyte imbalance, anemia
• steroid for macular edema
• may be useful but has not been well studied
10. management : medical
• Pharmacotherapy?
• Fat-soluble vitamins
• vitamin A, C, E
• Ca-channel blockers
• iltiazem
• Carbonic anhydrase inhibitors
• acetazolamide, methazolamide
• Docosahexaenoic acid (DHA)
• Lutein, Zeaxanthin
• medications with potential adverse effects in RP:
• Isotretinoin (Accutane)
• Sildenafil (Viagra)
• High-dose vitamin E
16. gene therapy
• under investigation
• to replace the defective protein by using DNA vector (eg, adenovirus, lentivirus)
• Gene therapy was successful in providing the missing protein to a dog with Leger congenital
amaurosis (LCA)
• adeno-associated virus (AAV)
• Briard dog with RPE65 mutations after treatment had 20% of its RPE cells express the
functional protein, thereby allowing the dog to see
• also effective in a mouse model of Leber congenital amaurosis
• Trials have also begun for RP, although currently only for MERTK gene mutation
• problems : wide heterogeneity of defects in RP
• Jacobson et al found that gene therapy is acceptably safe and effective in the extrafoveal retina for
LCA caused by RPE65 mutations; however, no benefit and some risk was noted in treating the fovea.
Age-dependent effects were not evident.[18]
• It is not known which, if any, of the RP forms will show reversibility (even with a nondestructive
reinsertion of the appropriate gene in the appropriate locus with appropriate regulation).
17. stem cells
• Cell transplantation to treat retinal disease (including cells derived from stem cells)
• to replace damaged RPE or photoreceptor cells
• adult bone marrow–derived stem cells and embryonic stem cells
• 2011, Advanced Cell Technology (ACT)
• human trial of a stem-cell–derived therapy
• for ARMD, Stargardt disease
• stem cells were differentiated into cells with an RPE phenotype
• PPV
• injected under the retina
• Initial results demonstrated safety and a trend toward visual improvement in 18 patients
over 3-12 months
• RPE cell transplants (not derived from stem cells)
• placed into the subretinal space to rescue photoreceptors in animal models of RP