hearing loss

CHOPS Syndrome

Clinical Characteristics
Ocular Features: 

There is usually some degree of proptosis and apparent hypertelorism.  The eyebrows are bushy and the eyelashes are luxurious.  One of three patients had cataracts and another had mild optic atrophy.

Systemic Features: 

The overall facial appearance may resemble Cornelia de Lange syndrome with hypertrichosis and a coarse, round facies.  Head circumference is low normal.  Septal defects and a patent ductus arteriosus are often present.  Laryngeal and tracheal malacia predispose to recurrent pulmonary infections and chronic lung disease.  Skeletal dysplasia includes brachydactyly and anomalous vertebral bodies resulting in short stature (3rd percentile).  Genitourinary abnormalities include cryptorchidism, horseshoe kidney, and vesiculoureteral reflux.  Delayed gastric emptying and reflux have been reported.

Genetics

Heterozygous mutations in the AFF4 gene (5q31.1) have been identified in 3 unrelated individuals with this condition.  No familial cases have been identified.  The gene is a core component of the super elongation complex that is critical to transcriptional elongation during embryogenesis.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no treatment for the general disorder.  Tracheostomy was required in 2 of three reported patients. 

References
Article Title: 

Germline gain-of-function mutations in AFF4 cause a developmental syndrome functionally linking the super elongation complex and cohesin

Izumi K, Nakato R, Zhang Z, Edmondson AC, Noon S, Dulik MC, Rajagopalan R, Venditti CP, Gripp K, Samanich J, Zackai EH, Deardorff MA, Clark D, Allen JL, Dorsett D, Misulovin Z, Komata M, Bando M, Kaur M, Katou Y, Shirahige K, Krantz ID. Germline gain-of-function mutations in AFF4 cause a developmental syndrome functionally linking the super elongation complex and cohesin. Nat Genet. 2015 Apr;47(4):338-44.

PubMed ID: 
25730767

Mandibulofacial Dysostosis with Alopecia

Clinical Characteristics
Ocular Features: 

The extensive dysplasia of the facial bones involves those of the orbital rims and zygomatic arches.  The orbital rims can be malformed and there is often a broad depression at the inferolateral region of the eyes.  Hypoplasia or even aplasia of the eyelids maybe present and some individuals have colobomas of the lower eyelids.  The lacrimal punctae may be temporally displaced.  The eyebrows and eyelashes are often sparse as part of the generalized alopecia.

Systemic Features: 

This is a disorder of craniofacial development resulting in extensive malformations of facial bones and skin.  Different rates of development among these structures leads to facial asymmetry in many patients. Maxillary, zygomatic arch, and mandibular bones are dysplastic resulting in micrognathia and a flat midface.   The temporomandibular joints are absent and the external ear canals are often incompletely formed.  Conductive hearing loss is common with hypoplastic ossicular chains while the pinnae are low-set, crumpled and abnormally cupped.  There may be preauricular tags or pits present.  Tooth eruption is often delayed and there may be agenesis of many permanent teeth.  The maxillary sinuses may be absent.  Cleft palate is often present.

Genetics

Heterozygous mutations in the EDNRA gene (4q31) are responsible for this condition.  No familial cases have been reported and it can be assumed that the mutations arise de novo. 

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no treatment for the overall condition but individual anomalies such as the colobomas, dental deformities and cleft palate may be surgically repaired.  Upper airway obstruction may require tracheostomy in infants.

References
Article Title: 

Mutations in the endothelin receptor type A cause mandibulofacial dysostosis with alopecia

Gordon CT, Weaver KN, Zechi-Ceide RM, Madsen EC, Tavares AL, Oufadem M, Kurihara Y, Adameyko I, Picard A, Breton S, Pierrot S, Biosse-Duplan M, Voisin N, Masson C, Bole-Feysot C, Nitschke P, Delrue MA, Lacombe D, Guion-Almeida ML, Moura PP, Garib DG, Munnich A, Ernfors P, Hufnagel RB, Hopkin RJ, Kurihara H, Saal HM, Weaver DD, Katsanis N, Lyonnet S, Golzio C, Clouthier DE, Amiel J. Mutations in the endothelin receptor type A cause mandibulofacial dysostosis with alopecia. Am J Hum Genet. 2015 Apr 2;96(4):519-31.

PubMed ID: 
25772936

Acrofacial Dysostosis, Cincinnati Type

Clinical Characteristics
Ocular Features: 

The periocular features are part of the general facial dysmorphism.  The lid fissures slant downward, and the orbits appear inferiorly displaced.  'Clefts' (colobomas?) of the lower eyelids and sometimes the upper may be evident.  The medial eyelashes were absent in one patient. 

Systemic Features: 

The extraocular features reported so far are based on only three patients and there is considerable variation.  The head is usually small and patients may be short in stature.  The zygomatic arches, the maxillae and the mandibles are hypoplastic as is the midface.  There may be anotia and severe conductive hearing loss.  The pinnae can be large and are sometimes low-set.  Inconsistent short limbs with hip dysplasia and femoral bowing have been reported.  Brachydactyly is also a feature.

Genetics

Heterozygous mutations in the POLR1A gene (2p11) seem to be responsible for this condition.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No treatment is available for the overall condition but individual anomalies such as lid 'clefts' can be surgically repaired. Severe micrognathia may require tracheostomy at birth.

References
Article Title: 

Anterior Segment, Brain, and Facial Anomalies

Clinical Characteristics
Ocular Features: 

The interpupillary distance appears abnormally wide.  VEP and ERG responses suggest abnormal retinal bipolar cells.  Specular microscopy reveals variable sizes and shapes of corneal endothelial cells with scattered vesicles and large 'holes' in the usual hexagonal array.  The iris may be malformed (no collarette, stromal hypoplasia) and there may be peripheral iridocorneal adhesions.  Elevated IOP, band keratopathy, corneal clouding, and keratoconus have been reported.  Visual acuity is impaired to some extent, from near normal (20/25) to NLP.  Progressive optic atrophy was observed in one patient.

Systemic Features: 

Four members of a 3 generation family had malformed pinnae (posterior placement and rotation).  Other features variably present were an empty sella turcica, posterior fossa cyst, and hydrocephalus. The propositus also was found to have abnormal auditory bipolar cells based on the audiogram and audio-evoked brainstem responses.

Genetics

Based on direct sequencing in one family (3 adults and 1 child), this condition seems to be caused by heterozygous variations or mutations in the VSX1 gene (20p11.21). 

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Monitoring for glaucoma and appropriate treatment are indicated.  Hearing tests should be performed early.  The usual treatments for keratoconus should be considered.  Excess brain fluid may need surgical drainage.

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References
Article Title: 

Barber-Say Syndrome

Clinical Characteristics
Ocular Features: 

The ocular features consist mainly of skin changes in the lids including hyperlaxity and redundancy.  There may be ectropion of the lower eyelids and sparsity of the eyebrows.  Some evidence of micro- or ablepharon is often present.  Hypertelorism and exophthalmia have been described.

Systemic Features: 

Multiple external congenital anomalies are present at birth including skin laxity, hypertrichosis (especially of the forehead, neck and back), and low-set and malformed pinnae.  Macrostomia and thin lips with redundant facial skin are often evident.  The nose appears bulbous.  The thoracic skin can be atrophic and the nipples may be hypoplastic.  Hypospadias has been reported.  A highly arched or cleft palate may be present and some individuals have a conductive hearing loss.  The teeth are small and eruption may be delayed.  Cognitive deficits may be present and mental retardation has been reported. 

Genetics

Based on genotyping and the limited number of reported pedigrees, inheritance most likely follows an autosomal dominant pattern.  Direct parent to child transmission has been reported.  Detailed examination of parents sometimes reveals mild features that are easily missed.  Mutations in the TWIST2 gene have been found in 10 unrelated individuals with Barber-Say syndrome.

TWIST2 mutations have also been found in Setleis syndrome (227260) and in ablepharon-macrostomia syndrome (200110).  These conditions have some clinical features in common with Barber-Say syndrome.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no known treatment for this disorder but correction of selected anomalies such as ectropion and cleft palate may be indicated.

References
Article Title: 

Recurrent Mutations in the Basic Domain of TWIST2 Cause Ablepharon Macrostomia and Barber-Say Syndromes

Marchegiani S, Davis T, Tessadori F, van Haaften G, Brancati F, Hoischen A, Huang H, Valkanas E, Pusey B, Schanze D, Venselaar H, Vulto-van Silfhout AT, Wolfe LA, Tifft CJ, Zerfas PM, Zambruno G, Kariminejad A, Sabbagh-Kermani F, Lee J, Tsokos MG, Lee CC, Ferraz V, da Silva EM, Stevens CA, Roche N, Bartsch O, Farndon P, Bermejo-Sanchez E, Brooks BP, Maduro V, Dallapiccola B, Ramos FJ, Chung HY, Le Caignec C, Martins F, Jacyk WK, Mazzanti L, Brunner HG, Bakkers J, Lin S, Malicdan MC, Boerkoel CF, Gahl WA, de Vries BB, van Haelst MM, Zenker M, Markello TC. Recurrent Mutations in the Basic Domain of TWIST2 Cause Ablepharon Macrostomia and Barber-Say Syndromes. Am J Hum Genet. 2015 Jul 2;97(1):99-110.

PubMed ID: 
26119818

Kabuki Syndrome 2

Clinical Characteristics
Ocular Features: 

The facial features are characteristic primarily because of the appearance of the periocular features.  The eyebrows are highly arched and sparse.  The lid fissures are long with eversion of the lateral portion of the lower eyelid.  The eyelashes are bushy.  Nystagmus and strabismus have been reported.

Systemic Features: 

Only a small number of individuals with Kabuki syndrome 2 have been reported and the phenotype is incompletely described.  Most of the features in type 2 are similar to those in type 1 with defects in multiple organs.  There are often cardiac malformations including septal defects.  Otitis media and hearing loss are common.  The pinnae are large and cupped.  A highly arched or cleft palate may be present and the teeth are usually small.  The joints are highly mobile and general hypotonia is often present. The fifth finger is often short and clinodactylous.  Persistent fetal fingerpads are common.  The amount of intellectual disability varies considerably with some patients functioning normally.  Urogenital anomalies are less common than found in Kabuki syndrome 1 and anal malformations do not seem to be a feature.

Genetics

Kabuki syndrome 2 is an X-linked disorder, usually as the result of a mutation in the KDM6A gene (Xp11.3).   Patients with the X-linked form of Kabuki represent about 5-10% of cases.   

Kabuki syndrome 1 (147920) is an autosomal dominant condition caused by heterozygous mutations in the KMT2D gene but remaining heterogeneity is suggested by the fact that a substantial proportion (30%) of individuals with Kabuki syndrome features has neither of these mutations.

In a 3 generation family two males had the typical Kabuki phenotype whereas their mother and grandmother (all had the KMT2D mutation) had various attenuated features.

Treatment
Treatment Options: 

Management guidelines are available (Management of Kabuki Syndrome).

References
Article Title: 

Molecular analysis, pathogenic mechanisms, and readthrough therapy on a large cohort of Kabuki syndrome patients

Micale L, Augello B, Maffeo C, Selicorni A, Zucchetti F, Fusco C, De Nittis P, Pellico MT, Mandriani B, Fischetto R, Boccone L, Silengo M, Biamino E, Perria C, Sotgiu S, Serra G, Lapi E, Neri M, Ferlini A, Cavaliere ML, Chiurazzi P, Monica MD, Scarano G, Faravelli F, Ferrari P, Mazzanti L, Pilotta A, Patricelli MG, Bedeschi MF, Benedicenti F, Prontera P, Toschi B, Salviati L, Melis D, Di Battista E, Vancini A, Garavelli L, Zelante L, Merla G. Molecular analysis, pathogenic mechanisms, and readthrough therapy on a large cohort of Kabuki syndrome patients. Hum Mutat. 2014 Jul;35(7):841-50.

PubMed ID: 
24633898

Kabuki Syndrome 1

Clinical Characteristics
Ocular Features: 

The facial features and specifically the periocular anomalies are diagnostic and responsible for the eponymic designation (resembling the make-up of actors of a Japanese theatrical form known as Kabuki). The lid fissures are long and narrow and the lateral third of the lower lids are often everted.  The eyebrows are highly-arched and broad with some sparsity especially in the lateral portion.  The eyelashes are thick and ptosis is often noted. Strabismus may be present.  Blue sclerae have been reported.

Some patients may have extreme microphthalmia.

Systemic Features: 

Post-natal growth delay and short stature are present as a result of anomalies in the vertebrae often with secondary scoliosis.  Persistence of the fetal fingertip pads is common. Hypotonia and joint hypermobility have been noted and some degree of intellectual disability is common.  Seizures have been reported but these are not common. Cleft lip and palate are seen in about a third of patients and the palate is highly arched in about 75%.  The teeth are small, frequently malformed and widely spaced.  Feeding difficulties are common.  Anal anomalies such as imperforate anus, anovestibular fistulas, and an anteriorly placed opening may be present, especially in females.  A small penis, hypospadias, and cryptorchidism are common in males.

An ill-defined immune deficit seems to be a common feature as evident by susceptibility to infections, primarily otitis media in infants and later recurrent sinopulmonary infections.   The majority of patients have hypogammaglobulinemia with a variable pattern of antibody abnormalities resembling common variable immune deficiency and especially low levels of serum IgA.  

Hearing loss is seen in nearly half of patients, some of which is no doubt due to recurrent otitis media but CT radiography has demonstrated dysplastic morphology of inner ear structures and the petrous bone.  The ears are large and cupped and preauricular pits may be present as well.

Biliary atresia and a variety of morphological anomalies of the kidney have been reported.  Renal failure can occur.  Perhaps as many as 58% of patients have congenital heart defects, mostly septal in location. 

Genetics

Heterozygous mutations in KMT2D (12q13.12) (also called MLL2) are responsible for Kabuki syndrome 1 but parental transmission to offspring is rare and the majority of patients occur sporadically.  There is also an X-linked form (Kabuki 2) caused by mutations in KDM5A (Xp11.3).  Insufficient clinical data regarding the X-linked phenotype so far has precluded the ability to distinguish the two disorders without genotyping.

Residual genetic heterogeneity remains, however, as a substantial proportion of patients do not have mutations in the two mutant genes known.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no general treatment for this condition.  Management guidelines are available (Management of Kabuki Syndrome).

References
Article Title: 

MLL2 and KDM6A mutations in patients with Kabuki syndrome

Miyake N, Koshimizu E, Okamoto N, Mizuno S, Ogata T, Nagai T, Kosho T, Ohashi H, Kato M, Sasaki G, Mabe H, Watanabe Y, Yoshino M, Matsuishi T, Takanashi J, Shotelersuk V, Tekin M, Ochi N, Kubota M, Ito N, Ihara K, Hara T, Tonoki H, Ohta T, Saito K, Matsuo M, Urano M, Enokizono T, Sato A, Tanaka H, Ogawa A, Fujita T, Hiraki Y, Kitanaka S, Matsubara Y, Makita T, Taguri M, Nakashima M, Tsurusaki Y, Saitsu H, Yoshiura K, Matsumoto N, Niikawa N. MLL2 and KDM6A mutations in patients with Kabuki syndrome. Am J Med Genet A. 2013 Sep;161A(9):2234-43. 

PubMed ID: 
23913813

CODAS Syndrome

Clinical Characteristics
Ocular Features: 

Dense nuclear cataracts can be seen by six months of age.  Some patients have ptosis. The fundi have been described as normal at one month of age in a single infant but vision was described at the 20/200 level at 2 years of age.  Cataracts noted at 4 months had been removed.

Systemic Features: 

Patients have multiple severe systemic abnormalities.  There is generalized developmental delay along with mild microcephaly and hypotonia.   The forehead is often broad while the face appears flattened with anteverted nares, a flat nasal bridge, a short philtrum, low-set and crumpled ears.  Infants may have an inadequate upper respiratory apparatus with atrophic vocal cords and some die of laryngeal obstruction in the first days of life.  Sialorrhea and difficulty swallowing have been noted.  Mild to moderate neurosensory hearing loss is often present but there may also be a conduction component to this. 

Brain imaging has revealed large ventricles, with subcortical hypomyelination, a thin corpus callosum, and prominent cortical sulci.  The vertebrae may have coronal clefts and scoliosis often develops. Generalized metaphyseal dysplasia and delayed bone age are usually present.  The anus may be imperforate and a rectovaginal fistula and cryptorchidism have been reported.  Long bones may be malformed as well and most patients are short in stature. Delayed dentition, enamel dysplasia, and abnormal cusp morphology are often present.  Cardiac septal defects may be seen.

Genetics

Homozygous mutations in LONF1 (19p13.3) segregate with the phenotype.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

There is no general treatment available and infants sometimes die from laryngeal obstruction in the first days of life.   Individual anomalies may be surgically correctable in selected individuals.  Occasional infants are stillborn but one patient died an accidental death at 14 years of age. 

References
Article Title: 

CODAS syndrome is associated with mutations of LONP1, encoding mitochondrial AAA+ Lon protease

Strauss KA, Jinks RN, Puffenberger EG, Venkatesh S, Singh K, Cheng I, Mikita N, Thilagavathi J, Lee J, Sarafianos S, Benkert A, Koehler A, Zhu A, Trovillion V, McGlincy M, Morlet T, Deardorff M, Innes AM, Prasad C, Chudley AE, Lee IN, Suzuki CK. CODAS syndrome is associated with mutations of LONP1, encoding mitochondrial AAA+ Lon protease. Am J Hum Genet. 2015 Jan 8;96(1):121-35.

PubMed ID: 
25574826

Myopia and Deafness

Clinical Characteristics
Ocular Features: 

High myopia (6-11D) is usually diagnosed during infancy or in the first year of life.  Nine patients so far reported have ranged in age from 13 to 60 years if age.  Vitreoretinal degeneration has not been reported.

Systemic Features: 

Prelingual hearing loss has been identified in all patients, ranging in severity from moderate to severe.  No other neurological problems have been found.  CT scans of the temporal bone are normal.  No developmental delays or cognitive deficits have been identified.

Genetics

SLITRK family genes code for membrane proteins, expressed primarily in neural tissues. Mutations in SLITRK6 in the reported families cause loss of function.  In cultured cells from rodents the protein product impacts synapse induction and neurite modulation.  In Slitrk6 knockout mice, there is a reduction of cochlear innervations with reduced startle responses and impaired brainstem responses.  Axial length in these mice is normal at birth but adults have a significant increase in eye size.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

The refractive error should be corrected and assistive hearing devices may be helpful.

References
Article Title: 

SLITRK6 mutations cause myopia and deafness in humans and mice

Tekin M, Chioza BA, Matsumoto Y, Diaz-Horta O, Cross HE, Duman D, Kokotas H, Moore-Barton HL, Sakoori K, Ota M, Odaka YS, Foster J 2nd, Cengiz FB, Tokgoz-Yilmaz S, Tekeli O, Grigoriadou M, Petersen MB, Sreekantan-Nair A, Gurtz K, Xia XJ, Pandya A, Patton MA, Young JI, Aruga J, Crosby AH. SLITRK6 mutations cause myopia and deafness in humans and mice. J Clin Invest. 2013 May 1;123(5):2094-102.

PubMed ID: 
23543054

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

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