autosomal recessive?

Coloboma, Microphthalmia, Albinism, and Deafness

Clinical Characteristics
Ocular Features: 

A 5 year old male has been described with uveal colobomas in microphthalmic eyes plus small corneas with a pannus, dense cataracts, translucent irides, and hypopigmentation of the skin, hair and eyes.  A brain MRI showed hypoplasia of the optic nerves and chiasm.   

A 9 month old female from another family had severe microphthalmia and small optic nerves.  The internal ocular features were not reported.

Systemic Features: 

The complete phenotype is uncertain since it is based on only two reported and unrelated individuals.  The head circumference one one patient was consistent with macrocephaly accompanied by frontal bossing, shallow orbits, preauricular pits and posteriorly rotated ears.  A skeletal survey revealed evidence for osteopetrosis.  He had a sensorineural hearing deficit said to be congenital in onset.

The other patient, a 9 month old female, belonged to another nonconsanguineous family, and had similar skeletal and craniofacial features with the addition of micrognathia and hypotonia.  Congenital neurosensory hearing loss and general lack of pigmentation were noted.

All four parents have congenital sensorineural hearing loss, blue irides and fair skin with premature graying of hair.  Four sibs in the two families have phenotypes similar to that of the parents.  Only one child, a female, had no features of the phenotype.

Genetics

This condition, so far reported only in a male and a female in unrelated families, is the result of doubly heterozygous mutations in the MITF gene (3p13).  One mutation that causes Waardenburg syndrome 2  (WS2A) (193510) is combined with a dominant-negative allele (c.952_954delAGA [p.Arg318del]) to produce the phenotype.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment has been reported.

References
Article Title: 

Microphthalmia, Syndromic 10

Clinical Characteristics
Ocular Features: 

Microphthalmia seems to be a common feature.  The globes have anterior-posterior dimensions of 5-8 mm.  No internal ocular structures can be visualized and individuals are likely blind.  The corneal diameters in two patients were measured at 3-4 mm.  The optic nerves have been described as ‘slender’ on brain imaging.

Systemic Features: 

Head circumference ranges from the 10th to the 25th percentile at birth  Psychomotor development has been described as normal during the first 6 to 8 months but is followed by rapid deterioration in performance with spasticity, vomiting and continuous crying.  An MRI on one 3 day old patient was reported as normal while at 15 months of age there was atrophy of the vermis and corpus callosum and at 8 years of age the atrophy of these structures was even more extensive.  Similar atrophy patterns were seen in the two other patients and eventually all cerebral while matter is lost and there is atrophy of the brainstem as well. 

Genetics

Three children from 3 consanguineous Pakistani families have been reported but no locus or mutation has been identified.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment is known.

References
Article Title: 

Retinitis Pigmentosa, RDH11 Syndrome

Clinical Characteristics
Ocular Features: 

Night vision problems and cataracts may be noted late in the first decade of life.  The fundus has changes typical of retinitis pigmentosa such as a salt-and-pepper retinopathy and narrowing of the arterioles with relative sparing of the fovea.  Confluent bone-spicule pigmentation is present in the periphery.  The optic nerve may have a pinkish waxy appearance.  Best-corrected visual acuity early is in the 20/25-20/30 range early in life with progressive deterioration.  Full field ERGs and visual fields are consistent with retinitis pigmentosa with the scotopic system more severely affected than the photopic.

Systemic Features: 

Developmental delays and cognitive deficits are apparent in early childhood.  Diastema and malocclusion may be present.  Short stature (5th percentile) is characteristic along with facial dysmorphology consisting of hypoplasia of the alae nasae, malar hypoplasia and slight up slanting of the palpebral fissures.

Genetics

A single family with three affected sibs (2 boys and one girl) has been reported.  The parents were phenotypically normal consistent with autosomal recessive inheritance.  Two variants in the RDH11 (14q24.1) gene were identified in the (compound heterozygous) siblings as responsible for a truncated, inactive enzyme.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment information is available.  Patients may benefit from special education, low vision aids, and physical therapy.Cataract surgery may be indicated.

References
Article Title: 

Orofaciodigital Syndrome, Type VI

Clinical Characteristics
Ocular Features: 

Hypertelorism and epicanthal folds have been described.  Some patients have nystagmus and strabismus. Ocular apraxia and difficulties in smooth visual pursuit may be present.   

Systemic Features: 

Polydactyly of the hands is a common feature.  The central metacarpal is often Y-shaped leading to ‘central polydactyly’.  The large toes may be bifid.  Cognitive deficits are common and some patients have been considered mentally retarded.  The ears are low-set and rotated posteriorly.  Some patients have a conductive hearing loss.  Oral anomalies may include a lobed tongue, lingual and sublingual hemartomas, micrognathia, clefting, and multiple buccoalveolar frenula.  Congenital heart anomalies, micropenis, and cryptorchidism have been reported.  Tachypnea and tachycardia have been noted.  Some patients have some degree of skeletal dysplasia and many individuals are short in stature.

The presence of cerebellar abnormalities such as hypoplasia (including absence) of the vermis may help to distinguish type VI from other forms of OFDS.  Hypothalamic dysfunction may be responsible for poor temperature regulation (hyperthermia). The ‘molar tooth sign’ seen on brain MRIs in Joubert syndrome (213300) is also present in OFDS VI. 

Genetics

This is a rare condition with limited family information.  Parents in one family were consanguineous, and multiple affected sibs in other families suggest this may be an autosomal recessive condition.  Homozygous mutations in TMEM216 have been found. Other patients have mutations in C5orf42.

Many of the clinical features in OFDS VI are also found among individuals with Joubert (213300) and Meckel (249000) syndromes that also sometimes have mutations in the TMEM216 and C5orf42 genes.  Some consider all of these conditions to be members of a group of overlapping disorders called ciliopathies or ciliary dyskinesias.   

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No specific treatment is available for this syndrome but individual signs and symptoms may need treatment.

References
Article Title: 

C5orf42 is the major gene responsible for OFD syndrome type VI

Lopez E, Thauvin-Robinet C, Reversade B, Khartoufi NE, Devisme L, Holder M, Ansart-Franquet H, Avila M, Lacombe D, Kleinfinger P, Kaori I, Takanashi JI, Le Merrer M, Martinovic J, No?'l C, Shboul M, Ho L, G?oven Y, Razavi F, Burglen L, Gigot N, Darmency-Stamboul V, Thevenon J, Aral B, Kayserili H, Huet F, Lyonnet S, Le Caignec C, Franco B, Rivi?(r)re JB, Faivre L, Atti?(c)-Bitach T. C5orf42 is the major gene responsible for OFD syndrome type VI. Hum Genet. 2013 Nov 1. [Epub ahead of print].

PubMed ID: 
24178751

Mutations in TMEM216 perturb ciliogenesis and cause Joubert, Meckel and related syndromes

Valente EM, Logan CV, Mougou-Zerelli S, Lee JH, Silhavy JL, Brancati F, Iannicelli M, Travaglini L, Romani S, Illi B, Adams M, Szymanska K, Mazzotta A, Lee JE, Tolentino JC, Swistun D, Salpietro CD, Fede C, Gabriel S, Russ C, Cibulskis K, Sougnez C, Hildebrandt F, Otto EA, Held S, Diplas BH, Davis EE, Mikula M, Strom CM, Ben-Zeev B, Lev D, Sagie TL, Michelson M, Yaron Y, Krause A, Boltshauser E, Elkhartoufi N, Roume J, Shalev S, Munnich A, Saunier S, Inglehearn C, Saad A, Alkindy A, Thomas S, Vekemans M, Dallapiccola B, Katsanis N, Johnson CA, Atti?(c)-Bitach T, Gleeson JG. Mutations in TMEM216 perturb ciliogenesis and cause Joubert, Meckel and related syndromes. Nat Genet. 2010 Jul;42(7):619-25.

PubMed ID: 
20512146

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

Waardenburg Syndrome, Type 3

Clinical Characteristics
Ocular Features: 

Type 3 Waardenburg syndrome has many of the features of other types but with the addition of upper limb anomalies.  Dystopia canthorum and a broad nasal root are characteristic.  Iris heterochromia is present in some patients.  Hypopigmentation may be seen in lashes and eyebrows.

Systemic Features: 

The upper limbs may appear underdeveloped with flexion contractures, fusion of the carpal bones and sometimes syndactyly.  A white forelock may or may not be present.  The cranial bones may be anomalous and rare patients can have microcephaly with significant mental retardation.  Mental function is usually normal though. Occasional patients have cleft palate and/or lip. Hearing loss is of the sensorineural type.  Hypopigmented skin patches are sometimes present but not all patients have them.

Genetics

The uniqueness of Waardenburg syndrome types 1 and 3 remains to be established.  Mutations in the PAX3 gene are responsible for both types and both have been found in the same family.  The phenotype is transmitted in an autosomal dominant pattern in either case but several families have been reported with type 1 WS in parents heterozygous for PAX3 mutations who had a homozygous child with the type 3 phenotype.  However, heterozygous individuals with type 3 have also been reported and the relationship of the two types remains unknown.

Craniofacial-deafness-hand syndrome(122880) with mutations in PAX3 has many features similar to those found in Waardenburg syndrome type 3 and may or may not be a unique disorder.

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

There is no treatment for the syndrome but cochlear implants might be helpful.

References
Article Title: 

Knobloch Syndrome 2

Clinical Characteristics
Ocular Features: 

In an 18 month infant, ectopia lentis, cataract, and myopia with poor vision were noted.  This individual subsequently developed retinal degeneration and a serous retinal detachment.

Systemic Features: 

Only one patient has been reported.  While the clinical signs resemble Knobloch 1 syndrome, brain imaging does not reveal malformations in this syndrome.  The only systemic sign, in addition to an occipital encephalocele, is a minor delay in fine motor skills.

Genetics

This autosomal recessive disorder results from homozygous loss of function mutations in the ADAMTS18 gene (16q23.1).  The gene product has been found in the lens and retina in the murine eye.

Mutations in ADAMTS18 have also been found in the syndrome of Micorcornea, Myopia, Chorioretinal atrophy, and Telecanthus.  It may also be responsible for a retinal dystrophy.

Knobloch 2 syndrome was identified in a single female born to consanguineous parents.

This disorder is separate to Knobloch 1 syndrome (267750) based on the causative mutations.  A third type, KNO3, has been proposed since the Knobloch clinical features were found in a 4-generation consanguineous Pakistani family but the phenotype mapped to 17q11.2.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

The skull defect can be closed and the lenses can be removed if indicated.

References
Article Title: 

Glaucoma, Congenital Primary C

Clinical Characteristics
Ocular Features: 

It might be expected that the classic signs of glaucoma with buphthalmos, Haab striae, elevated intraocular pressure, corneal edema, and optic nerve damage would be present.  Published information regarding ocular changes does not provide details.

Systemic Features: 

No systemic manifestations have been reported.

Genetics

Studies in a group of Chinese Han sibships (normal parents) containing patients with congenital glaucoma, and in which CYP1B1 mutations (responsible for type A congenital glaucoma) (231300) were ruled out, revealed areas of homozygosity in the q24.3 region of chromosome 14.  The authors considered this to be confirmation of a locus in the GLC3C area as previously suggested by studies on a 5-generation consanguineous Turkish family.   No specific mutation has been identified, however.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Standard congenital glaucoma treatments can be applied.

References
Article Title: 

Retinitis Pigmentosa, Deafness, Mental Retardation and Hypogonadism

Clinical Characteristics
Ocular Features: 

Only two families with this presumed disorder have been reported.  The retinal picture resembles retinitis pigmentosa with ‘bone spicule’ pigment clumps, vascular attenuation, and pale optic nerve heads.  Cataracts and nystagmus have been observed.  Vision is usually limited to light perception by the middle of the first decade of life.

Systemic Features: 

Small testes and gynecomastia are found in males while females have oligo- or amenorrhea.  The hands and feet appear broad and the face has a coarse appearance with a depressed nasal bridge and a broad nose.  Insulin-resistant diabetes and hyperinsulinemia are present.  Acanthosis nigricans, keloids, obesity, and hearing loss are also features.  All patients have significant developmental delays and evident mental retardation.

Genetics

No locus has been identified although autosomal recessive inheritance seems likely: the parents in one family were first cousins and there was no parent to child transmission.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

There is no effective treatment although cataract surgery might be considered if lens opacities are visually significant.

References
Article Title: 

Asphyxiating Thoracic Dysplasia 1

Clinical Characteristics
Ocular Features: 

This is a genetically and clinically heterogeneous condition for which the nosology remains to be worked out.  Not all patients have ocular disease but those who survive infancy may have a pigmentary retinopathy resembling retinitis pigmentosa.  In fact, a 5 year old presented with symptoms of visual loss and night blindness only.  The severeity of the systemic malformations has so far precluded a full description of the ocular phenotype.

Systemic Features: 

The most life-threatening and characteristic systemic feature of ATD is short-ribbed thoracic constriction with respiratory insufficiency.  The chest is small and narrow and sometimes described as bell-shaped.  This deformity can lead to death by asphyxiation, and is a serious risk during infancy.  Other individuals live to adulthood and may have only minimal respiratory difficulties.  Patients who survive childhood can develop cystic renal and hepatic disease.  Pancreatic fibrosis has also been reported.  Brachydactyly and postaxial polydactyly are sometimes present and involve the feet more commonly than the hands.  Short stature secondary to short limbs is frequently noted.

Genetics

Jeune syndrome, or at least some forms of it, is an autosomal recessive condition.  Consanguinity is often present.  A locus (15q13) containing homozygous mutations in ATD has been proposed as one candidate site.  There is considerable genetic heterogeneity with at least 5 types described, all with mutations in different genes.

Another disorder with some similar features causing respiratory distress is Majewski syndrome (263520).

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Assisted ventilation can be lifesaving in milder cases.  Thoracic reconstruction has also been helpful in a few individuals.  However, careful patient selection is necessary since some patients have severe pulmonary hypoplasia with underdeveloped alveoli. Ursodeoxycholic acid may slow the progression of the liver disease.

References
Article Title: 

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