cleft lip/palate

Short-Rib Thoracic Dysplasia 9

Clinical Characteristics
Ocular Features: 

A pigmentary retinopathy resembling retinitis pigmentosa is present in the majority of individuals.  Reduced acuity is likely responsible for the associated nystagmus and occasional strabismus.  Night blindness is a feature although the age of onset is unknown.  Visual acuity is decreased in the first decade but at least one patient at age 40 years still had vision of 20/40-20/50.  The ERG shows decreased scotopic and photopic responses as early as 12 years of age.  The retinopathy has been described as an atypical nonpigmented retinal degeneration in the peripheral retina. However, bone-spicule pigmentary deposits have been noted.  The retinal disease is progressive. 

Systemic Features: 

The LFT140 mutation has widespread effects, impacting the kidney, liver and skeletal systems.  The thorax is shortened, while the ribs are abnormally short and may result in respiratory difficulties, recurrent infections, and an early demise.  The middle phalanges of the hands and feet often have cone-shaped epiphyses, especially notable in childhood and leading to brachydactyly.  The long bones are often shortened as well.  The femoral neck can be short while the femoral epiphyses are often flattened.  Microcephaly has been reported in several individuals.

The liver may be enlarged and become fibrotic.  The kidneys often are cystic and histologically may have sclerosing glomerulonephropathy.  Kidney disease has an onset in the first decade and its progression often defines the survival prognosis.  Renal transplantation can be lifesaving when nephronophthisis develops.  Psychomotor delays have been reported but are uncommon. 

Genetics

Homozygous or compound heterozygous mutations in the IFT140 gene (16p13.3) have been identified.  However, there is some genetic heterogeneity since several patients having the typical phenotype have been reported with only heterozygous mutations.

This may be the same condition as Retinitis Pigmentosa 80 (617781) in which the same mutation occurs. 

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

There is no treatment for the general disease.  Renal and pulmonary function needs to be monitored with intervention as needed.  Some patients have benefitted from renal transplantation.

References
Article Title: 

Combined NGS approaches identify mutations in the intraflagellar transport gene IFT140 in skeletal ciliopathies with early progressive kidney Disease

Schmidts M, Frank V, Eisenberger T, Al Turki S, Bizet AA, Antony D, Rix S, Decker C, Bachmann N, Bald M, Vinke T, Toenshoff B, Di Donato N, Neuhann T, Hartley JL, Maher ER, Bogdanovic R, Peco-Antic A, Mache C, Hurles ME, Joksic I, Guc-Scekic M, Dobricic J, Brankovic-Magic M, Bolz HJ, Pazour GJ, Beales PL, Scambler PJ, Saunier S, Mitchison HM, Bergmann C. Combined NGS approaches identify mutations in the intraflagellar transport gene IFT140 in skeletal ciliopathies with early progressive kidney Disease. Hum Mutat. 2013 May;34(5):714-24.

PubMed ID: 
23418020

Mainzer-Saldino syndrome is a ciliopathy caused by IFT140 mutations

Perrault I, Saunier S, Hanein S, Filhol E, Bizet AA, Collins F, Salih MA, Gerber S, Delphin N, Bigot K, Orssaud C, Silva E, Baudouin V, Oud MM, Shannon N, Le Merrer M, Roche O, Pietrement C, Goumid J, Baumann C, Bole-Feysot C, Nitschke P, Zahrate M, Beales P, Arts HH, Munnich A, Kaplan J, Antignac C, Cormier-Daire V, Rozet JM. Mainzer-Saldino syndrome is a ciliopathy caused by IFT140 mutations. Am J Hum Genet. 2012 May 4;90(5):864-70.

PubMed ID: 
22503633

Roberts Syndrome

Clinical Characteristics
Ocular Features: 

The eyes often appear prominent as the result of shallow orbits.  Hypertelorism and microphthalmia can be present.  The sclerae can have a bluish hue.   Cataracts and central corneal clouding plus scleralization and vascularization of the peripheral corneas are sometimes seen.  Lid colobomas and down-slanting palpebral fissures may be present.

Systemic Features: 

Failure of both membranous and long bones to grow properly lead to a variety of abnormalities such as craniosynostosis, hypomelia, syndactyly, oligodactyly, malar hypoplasia, short neck, micrognathia, and cleft lip and palate.  The long bones of the limbs may be underdeveloped or even absent.  Contractures of elbow, knee, and ankle joints are common as are digital anomalies.  Low birth weight and slow postnatal growth rates are usually result in short stature.  The hair is often sparse and light-colored. 

Mental development is impaired and some children are diagnosed to have mental retardation.  Cardiac defects are common.  Facial hemangiomas are often present as are septal defects and sometimes a patent ductus arteriosus.  External genitalia in both sexes appear enlarged.  The kidneys may be polycystic or horseshoe-shaped.

Genetics

This is an autosomal recessive condition caused by mutations in the ESCO2 gene (8p21.1).  Mutations in the same gene are also responsible for what some have called the SC phocomelia syndrome (269000) which has a similar but less severe phenotype.  Some consider the two disorders to be variants of the same condition and they are considered to be the same entity in this database.  The gene product is required for structural maintenance of centromeric cohesion during the cell cycle.  Microscopic anomalies of the centromeric region (puffing of the heterochromatic regions) are sometimes seen during cell division.

The Baller-Gerold syndrome (218600) has some phenotypic overlap with Roberts syndrome but is caused by mutations in a different gene (RECQL4).

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Severely affected infants may be stillborn or die in infancy.  Other individuals live to adulthood.  There is no treatment for this condition beyond specific correction of individual anomalies.

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
Subscribe to RSS - cleft lip/palate