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Nystagmus 7, Congenital, AD

Clinical Characteristics
Ocular Features: 

A pendular nystagmus is usually diagnosed in infancy.  The eye is otherwise anatomically and functionally normal.  No photophobia, hypopigmentation, night blindness have been noted in the two Chinese families reported.  The ERG and foveal appearance are normal.  Visual acuity has not been reported.

Systemic Features: 

No systemic abnormalities have been found.

Genetics

The two reported multigenerational pedigrees show a pattern consistent with autosomal dominant inheritance. No causative mutation has been identified but mapping suggests a locus at 1q31-q32.2 that segregates with the condition.

Nystagmus 2 (164100), nystagmus 3 (608345), and nystagmus 4 (614826) are other autosomal dominant forms of simple nystagmus but they are unique disorders as they map to other chromosomal locations.

Several forms of X-linked recessive inheritance are contained in this database: NYS1, NYS5, and NYS6.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No treatment has been reported. 

References
Article Title: 

Nystagmus 5, Congenital, X-linked

Clinical Characteristics
Ocular Features: 

In the single 4 generation French family reported nystagmus was the only ocular finding.  It is present at birth or within the first year of life.  Visual acuity has not been reported.

Systemic Features: 

None reported.

Genetics

The pattern of inheritance is uncertain.  Both sexes may be affected but no male-to-male transmission was documented in the single family reported.  Apparent incomplete penetrance makes analysis difficult since several unaffected females transmitted the phenotype to male offspring.

No mutation has been identified but a possible locus within Xp11.4-p11.3 may contain the mutant gene.

Autosomal dominant transmission patterns have been reported in other families: NYS2, NYS3, NYS4, and NYS7.

This database contains several additional forms of congenital nystagmus inherited in X-linked recessive patterns: NYS1, and NYS6.

Pedigree: 
X-linked dominant, mother affected
Treatment
Treatment Options: 

No treatment has been reported.

References
Article Title: 

Nystagmus 4, AD

Clinical Characteristics
Ocular Features: 

Abnormal eye movements generally are present as early as 1 to 2 years of life and are stable but they are not congenital in origin.  Eye movement anomalies are somewhat variable and unusual with gaze-paretic nystagmus and poor or absent smooth pursuit most common.  The nystagmus may also be upbeat in direction.  A poor vestibuloocular reflex might be part of this eye movement complex.  Vision in many individuals is normal but mildly decreased in others.  Strabismus (primarily esotropia and exophoria) is common.

Systemic Features: 

Mild "balance problems" have been reported by some patients.  One individual reported intermittent dizziness.  No other cerebellar signs are present.  Neuroimaging found no CNS abnormalities in one patient. Seizures and ataxia were separately reported in two persons.

Genetics

The single reported family shows a transmission pattern consistent with autosomal dominant inheritance.  A locus cosegregating with the condition has been found at 13q31-q33 but no specific mutation has been identified.

Only one family has been reported and additional information is needed to document the uniqueness of this disorder.

Other autosomal dominant congenital nystagmus conditions in this database are: NYS2, NYS3, and NYS7.

Three X-linked isolated congenital nystagmus conditions may also be found in this database: NYS1, NYS5, and NYS6.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No treatment has been reported.  Low vision aids might be helpful for school-age children.

References
Article Title: 

Nystagmus 3, Congenital, AD

Clinical Characteristics
Ocular Features: 

The nystagmus is horizontal in type and accentuated by fixation and decreased by convergence.  It also increases during smooth pursuit and by lateral gaze.  There may be components of jerk, circular, and pendular nystagmus.  The nystagmus may be present at birth.

Systemic Features: 

No systemic disease is present.   

Genetics

No specific mutation has been found but 3 individuals in one family shared a haplotype suggesting a locus at 7p11.2.  The pedigree pattern suggests autosomal dominant inheritance.  A four generation family with male to male transmission and a balanced 7;15 translocation has been reported with a similar phenotype.

Other forms of congenital nystagmus transmitted in a similar autosomal pattern are: NYS2, NYS4, and NYS7.

X-linked recessive transmission patterns have also been identified for congenital nystagmus: NYS1, NYS5, and NYS6.

 

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no effective cure for congenital nystagmus but some patients can benefit from extraocular muscle surgery, correction of refractive errors, and low vision aids.

References
Article Title: 

Nystagmus 2, Congenital, AD

Clinical Characteristics
Ocular Features: 

Pendular and sometimes jerk nystagmus are often present at birth.  Other patients are diagnosed between 3 and 6 months.  Vision is usually stable in the range of 20/30 to 20/100 with most patients having 20/50.  Between 35% and 50% of individuals have strabismus as well.

Systemic Features: 

None have been reported.

Genetics

Familial cases have an autosomal dominant transmission pattern.  No specific mutation has been found but strong linkage with a region at 6p12 has been reported.

Several additional autosomal dominant forms of congenital nystagmus have been linked to chromosomal regions 7p11 (NYS3, 608345), 13q (NYS4, 193003), 1q31.3-q32.1, and NYS7 (614826).  Autosomal recessive inheritance has been proposed for several pedigrees but adequate documentation is lacking (see 257400).

This database also contains 3 types of congenital nystagmus inherited in X-linked recessive patterns: NYS1, NYS5, and NYS6.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Nystagmus cannot be cured.  However, there are several treatments that can help.  Glasses and contact lenses, and, occasionally, extraocular muscle surgery may be helpful.  The latter should be considered especially when patients adopt a consistent head position for best vision.  This avoids long-term secondary changes in neck muscles and many individuals experience an improvement of two or more lines in visual acuity.  Low vision aids should be offered.

References
Article Title: 

Familial Acorea, Microphthalmia and Cataract Syndrome

Clinical Characteristics
Ocular Features: 

The pupil is obscured or absent secondary to fibrous overgrowth.  Microcornea and microphthalmia are present.  Iridocorneal adhesions are commonly seen on ultrasonic examination and anterior chamber angles may be narrow.  The corneas are clear but thickened centrally.  Nystagmus and esotropia have been reported.

The iris is rudimentary with a poorly developed stromal pattern and sometimes eccentrically located holes.  The ultrasound may reveal remnants of degenerative lens capsules.  Axial length in infants has been measured at about 14.7 mm but increases to 17 mm in children.  In adults the axial length is about 20 mm.  Refractive errors of +20-21 diopters have been measured.  Visual acuity is poor from birth but can be improved to some extent following pupiloplasty and lens extraction.  Intraocular pressure can be normal but one patient developed an increase in the 4th decade of life.  OCT and direct visualization of the fundus in several cases revealed normal retinal architecture and anatomy.

Systemic Features: 

None reported.  Specialty examinations failed to find any hearing loss or neurological deficits.

Genetics

The single 4 generation family tree reported is consistent with autosomal dominant inheritance.  Several likely loci on chromosomes 1, 5, 8, 11, and 17 have been reported but no candidate gene has been identified. 

Other conditions in which small pupils are found are Pierson syndrome (609049) and Warburg micro syndrome (600118) but these are associated with significant systemic abnormalities.  

Congenital microcoria (156600) is an autosomal dominant disorder with mild axial myopia and goniodysgenesis resulting from an unidentified mutation on chromosome 13.  Glaucoma is a common finding as is some iris hypoplasia.  Despite some clinical similarities, this is likely a unique disorder.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Some improvement in visual acuity has been reported following lensectomy and reconstruction of the pupil.

References
Article Title: 

Trichomegaly Plus Syndrome

Clinical Characteristics
Ocular Features: 

Eyelashes are described as ‘long’, and the eyebrows are bushy.  The majority of individuals have poor vision secondary to severe receptor dysfunction.  Night blindness and severe photophobia are features in some cases.  Both retinal and choroidal atrophy have been diagnosed in the first 5 years of life and most patients have a progressive and extensive pigmentary retinopathy.

Systemic Features: 

Scalp alopecia and sparse body hair is common in spite of the trichomegaly of the eyebrows and eyelashes.  Frontal bossing has been noted in some patients.  Pituitary dysfunction is suggested by low growth hormone levels, features of hypogonadotropic hypogonadism, and possibly hypothyroidism.

Some deficit of cognitive function is usually present and a few patients have been described as mentally retarded.  There is evidence of progressive neurological damage both centrally and peripherally. Developmental milestones are often achieved late and some individuals have been observed to regress during the first decade of life.  The peripheral neuropathy includes both sensory and motor components.  Sensory nerve action potentials may be lost in the first decade while early motor functions may regress during the same period.  Several patients have had evidence of progressive cerebellar ataxia.

Genetics

Compund heterozygous mutations in PNPLA6 (19p13.2), coding for neuropathy target esterase, have been found in several patients presumed to have this condition.  Autosomal recessive inheritance has been proposed on the basis of a single family in which an affected brother and sister were born to first cousin parents.   

The relationship of this disorder to that found in two cousins, offspring of consanguineous matings, described as ‘cone-rod congenital amaurosis associated with congenital hypertrichosis: an autosomal recessive condition’ (204110 ) is unknown.  They were described as having visual impairment from birth and profound photophobia.  Fundus changes were minimal with a bull’s eye pattern of pigment changes in the macula described as indicative of a rod-cone congenital amaurosis.  ERG responses were unrecordable.  These individuals apparently did not have other somatic, psychomotor or neurologic deficits.

Mutations in PNPLA6 occur in other conditions including a form of Bardet-Biedl Syndrome (209900), and Boucher-Neuhauser Syndrome (215470) also known as Chorioretinopathy, Ataxia, Hypogonadism Syndrome in this database.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment is available for this condition although growth hormone and testosterone supplementation have been reported to have the appropriate selective effects.

References
Article Title: 

Neuropathy target esterase impairments cause Oliver-McFarlane and Laurence-Moon syndromes

Hufnagel RB, Arno G, Hein ND, Hersheson J, Prasad M, Anderson Y, Krueger LA, Gregory LC, Stoetzel C, Jaworek TJ, Hull S, Li A, Plagnol V, Willen CM, Morgan TM, Prows CA, Hegde RS, Riazuddin S, Grabowski GA, Richardson RJ, Dieterich K, Huang T, Revesz T, Martinez-Barbera JP, Sisk RA, Jefferies C, Houlden H, Dattani MT, Fink JK, Dollfus H, Moore AT, Ahmed ZM. Neuropathy target esterase impairments cause Oliver-McFarlane and Laurence-Moon syndromes. J Med Genet. 2015 Feb;52(2):85-94.

PubMed ID: 
25480986

Retinal Nonattachment, Congenital

Clinical Characteristics
Ocular Features: 

The common denominator in this condition is, of course, congenital nonattachment of the retina.  Many eyes are small as well.  Some patients in addition have a vascularized hyperplastic vitreous and often present with blindness and a congenital leukocoria.  Many at some stage have lens opacification, as well as glaucoma and anterior chamber anomalies including anterior synechiae and some degree of corneal opacification.  These signs are often progressive beginning in childhood.  Pendular nystagmus and esotropia are common.  MRI studies reveal optic nerves and the chiasm that are either absent or abnormally small.

Systemic Features: 

This condition is nonsyndromic and has no systemic abnormalities.

Genetics

Congenital retinal nonattachment consists of a group of sometimes familial conditions for which no responsible gene has been identified.  In a genomic study of 21 consanguineous NCRNA Pakistani families 3 had mutations in ATOH7 and 10 had mutations in familial exudative vitreoretinopathy genes.  Genotyping did not reveal associated mutations in the remaining 38% of these families. It is likely that multiple entities are represented but until the molecular etiologies are identified, no more specific classification is possible.

Studies in mice document that the Atoh7 gene is important to retinal ganglion cell neurogenesis.  In humans, both autosomal recessive PHPV and congenital nonattachment of the retina are associated with microsatellite linkage and haplotype matching to a region at 10q21 adjacent to the ATOH7 gene but so far no causative mutation has been found in this region.  However, studies in large consanguineous kindreds in which a deleted DNA segment adjacent to ATOH7 segregated with the NCRNA phenotype suggest that a transcription regulator may be at fault in the timing and level of ATOH7 expression.

The disorder known as persistent hyperplastic primary vitreous is generally not considered hereditary since it usually occurs unilaterally and sporadically.  It is sometimes found in association with a number of syndromal conditions as well.  However, it has also been reported in familial patterns consistent with both autosomal recessive and autosomal dominant patterns.  DNA mapping of individuals with bilateral disease found in a consanguineous Pakistani kindred with presumed autosomal recessive disease suggests that a locus at 10q11-q21 may be responsible.

Evidence for autosomal dominant inheritance of persistent hyperplastic primary vitreous comes from rare families with an apparent vertical transmission of the condition.

Congenital nonattachment of the retina is also seen in the osteoporosis-pseudoglioma syndrome (250770).  However, this is a syndromal disorder with neurologic and joint disease in addition to porotic, thin, fragile bones (sometimes called the ocular form of osteogenesis imperfecta) resulting from mutations in LRP5 on chromosome 11.

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

With rare exceptions, the retina cannot be reattached successfully and phthisis with blindness is the usual outcome.

References
Article Title: 

Hereditary Mucoepithelial Dysplasia

Clinical Characteristics
Ocular Features: 

Impaired epithelial cohesion is the fundamental defect in this disorder.  Photophobia may be present in infants and this is soon evident as secondary to keratitis with eventual formation of a pannus and corneal neovascularization.  Vision is impaired early and as the disease progresses, many patients by early adulthood are severely impaired.  Cataracts are present in the majority of individuals, often present as early as the second decade of life.  Eyelashes and eyebrows may be sparse.  Nystagmus has been reported in some patients.

Systemic Features: 

This is a panepithelial disease of impaired cohesion due, at least in part, to a reduced number of desmosomes and defective gap junctions.  Oral, nasal, vaginal, cervical, perineal, urethral, and bladder mucosa, in addition to external ocular surfaces, are involved.  With exception of the ocular involvement, the lesions are usually not painful, but may be during acute flare-ups.  Demarcated erythematous patches are often seen in the oral mucosa.  Non-scarring alopecia, keratosis pilaris, and perineal intertrigo are usually present.  Histological examination of oral mucosa and skin shows dyskeratotic features, decreased number of desmosomes, and intracytoplasmic vacuoles.

Genetics

Pedigrees suggest autosomal dominant inheritance but few families have been reported.  The location of the responsible mutation, if any, has not been found. 

Somewhat similar genodermatoses are KID syndrome (148210), an autosomal dominant disorder with neurosensory hearing loss and sometimes mental and physical delays secondary to mutations in GJB2, and IFAP (308205), an X-linked condition with mental and physical delays and severe organ deformities.  Cataracts are not features of KID or IFAP syndromes.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No effective treatment has been found.

References
Article Title: 

Nystagmus-Split Hand Syndrome

Clinical Characteristics
Ocular Features: 

The only consistent ocular finding is pendular nystagmus beginning at birth.  There is some evidence that the eye movements decrease with age.  Acuity in a 46 year old female was recorded to be 20/40 in each eye whereas one of her children had 20/70.  Two patients (father and daughter) have been described as having cataracts and “fundus changes”, not further defined.  Other patients have been described with normal fundi.  The ERG has been normal in several patients.  Some authors have noted hypertelorism.

The ocular phenotype requires further definition.  For example, in a single published photograph of a young child the medial portion of the eye brows is sparsely populated and all eyelashes in the medial one-third of the upper lid appear to be absent.  This has not been commented on in publications, however.

Systemic Features: 

The hand and foot malformation is severe, described as split-hand/split foot deformity.  It may involve all four extremities or just the upper extremity with monodactyly.  When the hand is involved, it may be called a lobster-claw deformity, or ectrodactyly.  The middle digit is characteristicly missing but other fingers and toes are sometimes absent.

The teeth erupt late, some may be missing and others are often poorly formed. Frontal bossing, sunken cheeks, and thick and everted lips may be part of the facial phenotype.

Genetics

The genetics of Karsch-Neugebauer is obscure although the majority of evidence is consistent with autosomal dominant inheritance.  Parent-child transmission and male-to-male transmission have been observed.  In other families the parents are normal but reduced penetrance has not been ruled out.  Further, there are several types of split-hand deformities but this is the only one associated with nystagmus.  No locus or mutation has been found for this condition.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Surgical reconstruction can sometimes improve hand function.

References
Article Title: 

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