field constriction

Retinitis Pigmentosa With or Without Skeletal Anomalies

Clinical Characteristics
Ocular Features: 

Downward slanting lid fissures may be detectable at birth as part of the general craniofacial dysmorphism.  Some degree of night blindness causes symptoms by the second decade of life and constricted visual fields with pigmented retinopathy and vessel narrowing can be detected.  The ERG shows reduced or absent responses.  The retinal phenotype is progressive.   

Systemic Features: 

Most but not all patients have skeletal anomalies.  Nonspecific craniofacial dysmorphology features are frequently present including frontal bossing, macrocephaly, low-set ears, large columella, hypoplastic nares, and malar hypoplasia.  A short neck, brachydactyly, and overall shortness of stature are often present.  Some individuals have nail dysplasia.  The proximal femoral metaphyses sometimes show chondrodysplasia.

There is often some degree of intellectual disability and there may be delays in speech, feeding, and walking.

Genetics

This disorder results from homozygous or compound heterozygous mutations in the CWC27 gene (5q12.3).

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No general treatment has been reported.  Low vision aids and night vision devices may be helpful, especially for educational activities.

References
Article Title: 

Mutations in the Spliceosome Component CWC27 Cause Retinal Degeneration with or without Additional Developmental Anomalies

Xu M, Xie YA, Abouzeid H, Gordon CT, Fiorentino A, Sun Z, Lehman A, Osman IS, Dharmat R, Riveiro-Alvarez R, Bapst-Wicht L, Babino D, Arno G, Busetto V, Zhao L, Li H, Lopez-Martinez MA, Azevedo LF, Hubert L, Pontikos N, Eblimit A, Lorda-Sanchez I, Kheir V, Plagnol V, Oufadem M, Soens ZT, Yang L, Bole-Feysot C, Pfundt R, Allaman-Pillet N, Nitschke P, Cheetham ME, Lyonnet S, Agrawal SA, Li H, Pinton G, Michaelides M, Besmond C, Li Y, Yuan Z, von Lintig J, Webster AR, Le Hir H, Stoilov P; UK Inherited Retinal Dystrophy Consortium., Amiel J, Hardcastle AJ, Ayuso C, Sui R, Chen R, Allikmets R, Schorderet DF. Mutations in the Spliceosome Component CWC27 Cause Retinal Degeneration with or without Additional Developmental Anomalies. Am J Hum Genet. 2017 Apr 6;100(4):592-604.

PubMed ID: 
28285769

Retinitis Pigmentosa 78

Clinical Characteristics
Ocular Features: 

Onset of visual complaints is in the third or fourth decades with night blindness and visual field defects.  These symptoms are progressive with the oldest of three reported patients having 20/1250 vision at 51 years of age.  Classic signs of retinitis pigmentosa are usually present including disc pallor, pigment clumping, peripheral field constriction, and attenuated retinal vessels.  Intraretinal cysts may be detected with optical coherence tomography.  The full-field ERG shows general photoreceptor dysfunction with the rods most severely involved while pattern ERGs shows variable macular involvement.

Systemic Features: 

No systemic disease has been detected in the three reported individuals.

Genetics

Three unrelated individuals have been reported with homozygous or compound heterozygous mutations in the ARHGEF18 gene (19p13.2).   Five different mutant alleles were found among these patients.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment has been reported but low vision aids might be helpful.

References
Article Title: 

Biallelic Mutation of ARHGEF18, Involved in the Determination of Epithelial Apicobasal Polarity, Causes Adult-Onset Retinal Degeneration

Arno G, Carss KJ, Hull S, Zihni C, Robson AG, Fiorentino A; UK Inherited Retinal Disease Consortium., Hardcastle AJ, Holder GE, Cheetham ME, Plagnol V; NIHR Bioresource - Rare Diseases Consortium., Moore AT, Raymond FL, Matter K, Balda MS, Webster AR. Biallelic Mutation of ARHGEF18, Involved in the Determination of Epithelial Apicobasal Polarity, Causes Adult-Onset Retinal Degeneration. Am J Hum Genet. 2017 Feb 2;100(2):334-342.

PubMed ID: 
28132693

Retinitis Pigmentosa 2, X-Linked

Clinical Characteristics
Ocular Features: 

Retinitis pigmentosa consists of a group 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 is sometimes described as having 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 X-linked form described here is a pigmentary retinopathy but sometimes labeled chorioretinal degeneration because of the extensive involvement of the choroid.  The clinical picture is sometimes referred to by the out-dated term 'choroidal sclerosis'.  It is often apparent in males during early childhood and they usually have early deterioration in central vision.  Some carrier females experience vision loss and have mild fundus abnormalities but these do no usually appear until middle age and are usually slowly progressive.  The ERG shows abnormalities in both sexes but these are highly variable.  Older males may have a waxy pallor of the optic nerve.  Posterior subcapsular cataracts are common.  The vitreous may contain fine, colorless particles even before fundus changes are evident.  Prognosis is highly variable but many patients eventually become legally blind by the age of 30 years.

Systemic Features: 

None.

Genetics

Mutations in more than 100 genes may be responsible for retinitis pigmentosa but sporadic disease occurs as well.  Between 5 and 10% of individuals have X-linked disease.

In this form of X-linked retinitis pigmentosa mutations in RP2 (Xp11.3) have been found.  The frequent occurrence of mild disease in females can cause diagnostic confusion with autosomal dominant RP but the disease in females in the latter disorder is usually as severe as in males.

This type of X-linked retinitis pigmentosa is far less common than RP3 (300029)caused by mutations in RPGR.  The two are clinically similar and genotyping is necessary to distinguish them.

Pedigree: 
X-linked recessive, carrier mother
X-linked recessive, father affected
Treatment
Treatment Options: 

High doses of vitamin A palmitate slow the rate of vision loss but plasma levels and liver function need to be checked at least annually.  Oral acetazolamide can be helpful in reducing macular edema.  Low vision aids and mobility training can be facilitating for many patients.  Cataract surgery may restore several lines of vision at least temporarily.

Several pharmaceuticals should be avoided, including isotretinioin, sildenafil, and vitamin E.

References
Article Title: 

Comprehensive survey of mutations in RP2 and RPGR in patients affected with distinct retinal dystrophies: genotype-phenotype correlations and impact on genetic counseling

Pelletier V, Jambou M, Delphin N, Zinovieva E, Stum M, Gigarel N, Dollfus H, Hamel C, Toutain A, Dufier JL, Roche O, Munnich A, Bonnefont JP, Kaplan J, Rozet JM. Comprehensive survey of mutations in RP2 and RPGR in patients affected with distinct retinal dystrophies: genotype-phenotype correlations and impact on genetic counseling. Hum Mutat. 2007 Jan;28(1):81-91.

PubMed ID: 
16969763

Retinitis Pigmentosa, AR

Clinical Characteristics
Ocular Features: 

The term retinitis pigmentosa is applied to 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 latter is sometimes described as having a ‘bone corpuscle’ appearance with a perivascular distribution.  A ring scotoma is usually 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 5thdecade of life or later.  The course of clinical and ERG changes is more aggressive in the X-linked form than in the autosomal dominant 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. 

Systemic Features: 

The ‘simple’ or nonsyndromal type of RP described here has no systemic features.  However, the retinopathy is seen in a number of syndromes and, of course, in some infectious diseases as well.  It is more accurate to label the fundus finding as 'pigmentary retinopathy' in such cases.

Genetics

A significant proportion of RP cases occur sporadically, i.e., without a family history.  Mutations in more than 30 genes cause autosomal recessive RP disorders and these account for more than half of all cases of retinitis pigmentosa.  More than 100 mutations have been identified in the RHO gene (3q21-q24) alone.  Mutations in some genes cause RP in both autosomal recessive and autosomal dominant inheritance patterns.  Compound heterozygosity is relatively common in autosomal recessive disease.  See OMIM 268000 for a complete listing of mutations.

Many genes associated with retinitis pigmentosa have also been implicated in other pigmentary retinopathies.  In addition, numerous phenocopies occur, caused by a variety of drugs, trauma, infections and numerous neurological disorders.  To make diagnosis even more difficult, the fundus findings and ERG responses in nonsyndromic RP in most patients are too nonspecific to be useful for classification. Extensive systemic and ocular evaluations are important and should be combined with genotyping in both familial and nonfamilial cases to determine the diagnosis and prognosis. 

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Photoreceptor transplantation has been tried in without improvement in central vision or interruption in the rate of vision loss.  Longer term results are needed.  Resensitizing photoreceptors with halorhodopsin using archaebacterial vectors shows promise in mice.  High doses of vitamin A palmitate slow the rate of vision loss but plasma levels and liver function need to be checked at least annually.  Oral acetazolamide can be helpful in reducing macular edema.

Low vision aids and mobility training can be facilitating for many patients.  Cataract surgery may restore several lines of vision, at least temporarily.

Several pharmaceuticals should be avoided, including isotretinoin, sildenafil, and vitamin E. 

References
Article Title: 

Retinitis Pigmentosa, AD

Clinical Characteristics
Ocular Features: 

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 5thdecade 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.  

Systemic Features: 

The 'simple' or nonsyndromal type of RP described here has no systemic features.  However, the retinopathy is seen in a number of syndromes and, of course, in trauma and in some infectious diseases as well. 

Genetics

A significant proportion of RP cases occur sporadically, i.e., without a family history.  Mutations in more than 25 genes cause autosomal dominant RP disorders and these account for about one-third of all cases of retinitis pigmentosa but there are many more specific mutations.  More than 100 have been identified in the RHO gene (3q21-q24) alone, for example.  Mutations in some genes cause RP in both autosomal recessive and autosomal dominant inhritance patterns.  See OMIM 268000 for a complete listing of mutations.

Many genes associated with retinitis pigmentosa have also been implicated in other pigmentary retinopathies.  In addition numerous phenocopies occur, caused by a variety of drugs, trauma, infections and numerous neurological disorders.  To make diagnosis even more difficult, the fundus findings and ERG responses in nonsyndromic RP in most patients are too nonspecific to be useful for classification. Extensive systemic and ocular evaluations are important and should be combined with genotyping in both familial and nonfamilial cases to determine the diagnosis and prognosis. 

For autosomal dominant retinitis pigmentosa resulting from mutations in RP1, see Retinitis Pigmentosa 1 (180100). 

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Photoreceptor transplantation has been tried in 8 patients without improvement in central vision or interruption in the rate of vision loss.  Longer term results are needed.  Resensitizing photoreceptors with halorhodopsin using archaebacterial vectors shows promise in mice.  High doses of vitamin A palmitate slow the rate of vision loss but plasma levels and liver function need to be checked at least annually.  The use of oral and systemic carbonic anhydrase inhibitors can be helpful in reducing macular edema.

Low vision aids and mobility training can be facilitating for many patients.  Cataract surgery may restore several lines of vision at least temporarily.

Several pharmaceuticals should be avoided, including isotretinoin, sildenafil, and vitamin E. 

References
Article Title: 

Retinitis Pigmentosa 3, X-Linked

Clinical Characteristics
Ocular Features: 

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 4thor 5thdecades 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. 

Systemic Features: 

There is no systemic disease in ‘simple’ or non-syndromic retinitis pigmentosa but pigmentary retinopathy is associated with a number of syndromes (syndromal RP) e.g.,  Usher syndromes, Waardenburg syndrome, Alport syndrome, Refsum disease, Kerns-Sayre syndrome, abetalipoproteinemia, neuronal ceroid lipofuscinosis, mucopolysaccharidoses types I, II, III, and Bardet-Biedl syndromes

The RPGR gene is important to the normal function of cilia throughout the body.  For this reason disorders resulting from RPGR mutations such as CORDX1 (304020) and this one are sometimes classified as primary ciliary dyskinesias or ciliopathies.  The gene products of the RPGR gene, for example, are localized to connecting cilia of the outer segments of rods and cones and in motile cilia in the airway epithelia.  A subset of families with RP3 have chronic and recurrent upper respiratory infections including sinusitis, bronchitis, pulmonary atelectasis, and otitis media (300455) similar to that seen in the immotile cilia syndrome (244400).  Female carriers in these families have few retinal changes but may suffer recurrent and severe upper respiratory infections similar to hemizygous males.  Severe hearing loss also occurs in both sexes with the RPGR mutations and there is some evidence that this may be a primary sensorineural problem, perhaps in addition to conductive loss from recurrent otitis media.

Genetics

Mutations in more than 100 genes may be responsible for retinitis pigmentosa but sporadic disease occurs as well.  Between 5 and 10% of individuals have X-linked disease.  Perhaps 70% of X-linked RP is caused by mutations in RPGR (Xp11.4) as in this condition.  The same gene is mutant in one form of X-linked cone-rod dystrophy (CORDX1; 304020). These  disorders are sometimes considered examples of X-linked ocular disease resulting from a primary ciliary dyskinesia (244400).

Another form of X-linked RP (RP2) with more choroidal involvement is caused by mutations in the RP2 gene (312600 ; Xp11.23). 

Many genes associated with retinitis pigmentosa have also been implicated in other pigmentary retinopathies.  In addition numerous phenocopies occur, caused by a variety of drugs, trauma, infections and numerous neurological disorders.  To make diagnosis even more difficult, the fundus findings and ERG responses in nonsyndromic RP in most patients are too nonspecific to be useful for classification. Extensive systemic and ocular evaluations are important and should be combined with genotyping in both familial and nonfamilial cases to determine the diagnosis and prognosis. 

Treatment
Treatment Options: 

Photoreceptor transplantation has been tried in 8 patients without improvement in central vision or interruption in the rate of vision loss.  Longer term results are needed.  Resensitizing photoreceptors with halorhodopsin using archaebacterial vectors shows promise in mice.  High doses of vitamin A palmitate slow the rate of vision loss but plasma levels and liver function need to be checked at least annually.  Oral acetazolamide can be helpful in reducing macular edema.

Low vision aids and mobility training can be facilitating for many patients.  Cataract surgery may restore several lines of vision at least temporarily.

Several pharmaceuticals should be avoided, including isotretinoin, sildenafil, and vitamin E. 

References
Article Title: 

Nanophthalmos with Retinopathy

Clinical Characteristics
Ocular Features: 

This is a rare syndrome consisting of a pigmentary degeneration of the retina in association with nanophthalmos.  The globe is small with a thickened choroid and sclera and the macula becomes atrophic later in life. Some patients have cystic macular changes early without fluorescein leakage.  The anterior chamber is shallow, the angle is narrow, and the cornea may be small leading to angle closure glaucoma in most patients.  Extensive anterior and posterior synechiae can be seen.  The retina has a postequatorial bone spicule pattern of pigmentation with narrowing of arterial vessels.  Hyperopia is usually present and nightblindness may be noted in the first decade of life.  The ERG early shows loss of rod function and progression of the retinal disease subsequently leads to extinction of all rod and cone responses by midlife.  The EOG may be subnormal and visual fields are severely constricted.  Pallor and crowding of the optic nerve are common.  The vitreous may contain prominent fibrils and fine white granules.  Visual acuity is often 20/200 or worse.

Systemic Features: 

No systemic abnormalities have been reported.

Genetics

This is likely an autosomal recessive disorder based on frequent parental consanguinity and sibships with multiple affected individuals of both sexes.  However, the first reported family in 1958 with 13 affected individuals in 4 generations suggested autosomal dominant inheritance. No molecular defect has been identified.

This may be the same disorder as microphthalmia with retinitis pigmentosa (611040) in which so far no molecular mutation has been identified. 

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Narrow angles with shallow anterior chamber depth should be treated with prophylactic iridotomies.

References
Article Title: 
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