congenital glaucoma

Glaucoma, Congenital Primary E

Clinical Characteristics
Ocular Features: 

Glaucoma is usually present at birth but sometimes not detected for several months.  Intraocular pressures are generally greater than 21 mm Hg.  Increased optic nerve cupping greater than 40% was also used to make the diagnosis in many individuals.  Ten families have been reported and in half the disease was unilateral only.

Systemic Features: 

No consistent systemic features are present.

Genetics

Heterozygous mutations in the TEK (9p21.2) gene (600221) are responsible for this disorder.  The TEK receptor is a tyrosine kinase primarily expressed in endothelial cells in mice, rats and humans.  In Tek-knockout mice Schlemm's canal and the trabecular meshwork are hypoplastic and dysmorphic.

For additional mutations and congenital glaucoma conditions see Glaucoma, Congenital Primary A.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Standard glaucoma therapies should be applied early and lifelong monitoring is necessary.

References
Article Title: 

Angiopoietin receptor TEK mutations underlie primary congenital glaucoma with variable expressivity

Souma T, Tompson SW, Thomson BR, Siggs OM, Kizhatil K, Yamaguchi S, Feng L, Limviphuvadh V, Whisenhunt KN, Maurer-Stroh S, Yanovitch TL, Kalaydjieva L, Azmanov DN, Finzi S, Mauri L, Javadiyan S, Souzeau E, Zhou T, Hewitt AW, Kloss B, Burdon KP, Mackey DA, Allen KF, Ruddle JB, Lim SH, Rozen S, Tran-Viet KN, Liu X, John S, Wiggs JL, Pasutto F, Craig JE, Jin J, Quaggin SE, Young TL. Angiopoietin receptor TEK mutations underlie primary congenital glaucoma with variable expressivity. J Clin Invest. 2016 Jul 1;126(7):2575-87.

PubMed ID: 
27270174

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: 

Iridogoniodysgenesis and Skeletal Anomalies

Clinical Characteristics
Ocular Features: 

Megalocornea, congenital glaucoma, a concave iris with stromal atrophy and corectopia, and deep anterior chambers are typical ocular features.  High myopia has been reported and retinal detachments have been observed.  Glaucoma control can be difficult to achieve and there is a significant risk of cataracts and phthisis bulbi following surgery.  Posterior embryotoxon has not been observed.

Systemic Features: 

Facial features seem to be consistent.  The forehead is wide, the nose appears broad with a large nasal tip and broad nares although the bridge appears narrow.  The philtrum is long and wide.  The ears may appear large and the neck is short.  The thorax is abnormally wide and the nipples are widely spaced and umbilicated.  The long bones are slender with thin cortices and wide metaphyses.  There is generalized osteopenia.  Vertebral bodies are cuboid-shaped with narrow vertebral canals and enlarged apophyses

Genetics

Two non-consanguineous families each with 3 sibs have been reported suggesting autosomal recessive inheritance.  Nothing is known about the mutation or its locus.

The ocular features may resemble Rieger or Axenfeld anomaly but these are inherited in autosomal dominant patterns and the skeletal features are dissimilar.       

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Vigorous treatment of glaucoma is indicated but successful control, even with surgery, is difficult to achieve.

References
Article Title: 

Glaucoma, Congenital Primary D

Clinical Characteristics
Ocular Features: 

Evidence of glaucoma can appear in early childhood but may appear much later.  However, typical signs such as enlarged corneas or frank buphthalmos, cloudiness of the corneas, tearing and photophobia are present only when the pressure is elevated due to pupillary block or when the lens migrates into the anterior chamber.  Most patients have additional signs such as ectopia lentis and spherophakia.

Systemic Features: 

Some patients have osteopenia, a high arched palate, and a marfanoid habitus.

Genetics

This form of congenital glaucoma has been described primarily in Middle Eastern and Asian as well as Roma/Gypsy families and is inherited in an autosomal recessive pattern.  The mutations occur in the LTBP2 gene (14q24) which is in close proximity to GLC3C, another putative gene with mutations causing congenital glaucoma. 

Mutations in other genes are also associated with primary congenital glaucoma such as in CYP1B1 causing type A (231300) and in GLC3B causing type B (600975).

THIS IS NOT A PRIMARY GLAUCOMA DISORDER.  Microspherophakia and ectopia lentis are not features of primary congenital glaucoma.  Elevated pressures in these patients are found only when there is a pupillary block or when the lens dislocates into the anterior chamber.  The enlarged cornea is clear and has no breaks in the Descemet membrane.  THIS CONDITION IS THEREFORE RECLASSIFIED AS "MEGALOCORNEA, ECTOPIA LENTIS, AND SPHEROPHAKIA".     

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

The usual surgical and pharmacological treatments for glaucoma apply but vision preservation is a challenge.  The spherophakic or dislocated lenses may need to be removed.

References
Article Title: 

LTBP2 and CYP1B1 mutations and associated ocular phenotypes in the Roma/Gypsy founder population

Azmanov DN, Dimitrova S, Florez L, Cherninkova S, Draganov D, Morar B, Saat R, Juan M, Arostegui JI, Ganguly S, Soodyall H, Chakrabarti S, Padh H, L??pez-Nevot MA, Chernodrinska V, Anguelov B, Majumder P, Angelova L, Kaneva R, Mackey DA, Tournev I, Kalaydjieva L. LTBP2 and CYP1B1 mutations and associated ocular phenotypes in the Roma/Gypsy founder population. Eur J Hum Genet. 2011 Mar;19(3):326-33.

PubMed ID: 
21081970

Null mutations in LTBP2 cause primary congenital glaucoma

Ali M, McKibbin M, Booth A, Parry DA, Jain P, Riazuddin SA, Hejtmancik JF, Khan SN, Firasat S, Shires M, Gilmour DF, Towns K, Murphy AL, Azmanov D, Tournev I, Cherninkova S, Jafri H, Raashid Y, Toomes C, Craig J, Mackey DA, Kalaydjieva L, Riazuddin S, Inglehearn CF. Null mutations in LTBP2 cause primary congenital glaucoma. Am J Hum Genet. 2009 May;84(5):664-71.

PubMed ID: 
19361779

Nance-Horan Syndrome

Clinical Characteristics
Ocular Features: 

Congenital cataracts are a feature of this X-linked disorder.  These consist of bilateral, dense nuclear opacification (in most males) but sutural opacities are also seen, especially in carrier females.  If the nuclear cataracts are not treated promptly, severe amblyopia, nystagmus, and strabismus may result.  Microcornea, congenital glaucoma, scleral staphylomas, and retinal cystoid degeneration may also be present.  Microphthalmia has been described. These ocular signs are present in 90% of heterozygous females but they may be subtle and careful examination is required to identify them.  Cataract surgery is usually not required in females. 

Systemic Features: 

This is a developmental disorder in which facial dysmorphism and dental anomalies are consistent systemic features in affected males.  Some patients (30%) also have some intellectual impairment while others have developmental delays and behavior problems.  The pinnae may be anteverted and often appear large while the nose and nasal bridge are prominent.  The teeth in males are small and pointed or 'screwdriver shaped' and are widely separated (sometimes called Hutchinson teeth).  The enamel may be hypoplastic and dental agenesis can be present.  Supernumerary incisors have been described.  The facial and dental features may be present in female carriers but are less pronounced.  Females do not have intellectual impairment. 

Genetics

This is an X-linked recessive (dominant?) disorder resulting from mutations in the NHS gene located at Xp22.13.  However, heterozygous females may have clinical manifestations, including dense cataracts, and all offspring of such females need ophthalmological evaluations at birth.

It is likely that at least some cases of X-linked congenital cataract (CXN; 302200) represent this disorder because the facial dysmorphism may be subtle and easily missed in Nance-Horan.  Of course, the two disorders may also be allelic.  A variety of alterations in the NHS gene, including copy number variations, intragenic deletions, and duplication/triplication arrangements, have been found.  The occasionally subtle facial dysmorphology and the dental abnormalities are easily missed in patients in whom congenital cataracts are the primary clinical concern.  

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

Visually significant cataracts should be removed early to allow for normal visual maturation.  Glaucoma must be treated appropriately.  At risk males and females should have dental X-rays and dental surgery may be required.  Special education may be beneficial in males. 

References
Article Title: 

X-linked cataract and Nance-Horan syndrome are allelic disorders

Coccia M, Brooks SP, Webb TR, Christodoulou K, Wozniak IO, Murday V, Balicki M, Yee HA, Wangensteen T, Riise R, Saggar AK, Park SM, Kanuga N, Francis PJ, Maher ER, Moore AT, Russell-Eggitt IM, Hardcastle AJ. X-linked cataract and Nance-Horan syndrome are allelic disorders. Hum Mol Genet. 2009 Jul 15;18(14):2643-55.

PubMed ID: 
19414485

Mutations in a novel gene, NHS, cause the pleiotropic effects of Nance-Horan syndrome, including severe congenital cataract, dental anomalies, and mental retardation

Burdon KP, McKay JD, Sale MM, Russell-Eggitt IM, Mackey DA, Wirth MG, Elder JE, Nicoll A, Clarke MP, FitzGerald LM, Stankovich JM, Shaw MA, Sharma S, Gajovic S, Gruss P, Ross S, Thomas P, Voss AK, Thomas T, Gecz J, Craig JE. Mutations in a novel gene, NHS, cause the pleiotropic effects of Nance-Horan syndrome, including severe congenital cataract, dental anomalies, and mental retardation. Am J Hum Genet. 2003 Nov;73(5):1120-30.

PubMed ID: 
14564667

Walker-Warburg Syndrome

Clinical Characteristics
Ocular Features: 

The eyes are usually small and contain either retinal dysplasia or a congenital retinal detachment.  Colobomas, PHPV, cataracts, glaucoma, buphthalmos, anterior chamber dysgenesis, optic atrophy, and optic nerve hypoplasia have also been reported. 

Systemic Features: 

Hydrocephalus and congenital muscular dystrophy are the most important systemic features of these syndromes.  A Dandy-Walker malformation is often present.  Type II lissencephaly, cerebellar malformations and severe mental retardation are other features.  More variable signs include macro- or microcephaly, ventricular dilatation, cleft lip and/or palate, and congenital contractures.  WWS has a severe phenotype and death often occurs in the first year of life.  Brain histology shows severely disorganized cytoarchitecture and suggests a neuronal migration disorder. Microtia has been reported in several patients.

Most developmental milestones are delayed or never achieved and death may occur in early childhood. 

Genetics

The MDDGs (muscular dystrophy dystroglycanopathies) comprise a genetically and clinically heterogeneous group of disorders (sometimes called muscle-eye-brain disease) of which the A types are more severe than the B types.  The mutant genes responsible are involved in glycosylation of DAG1 (alpha-dystroglycan). 

Types A1 (MDDGA1; 236670), B1 (MDDGB1; 613155) and C1 (MDDGC1; 609308) result from mutations in a gene known as POMT1 (9p34.1).  The muscular dystrophy in type C1 is of the limb-girdle type LGMD2K.

A2 (MDDGA2; 613150) is caused by mutations in POMT2 (14q24.3).  Mutations in POMT2 may also cause the less severe muscle-eye-brain disease (MEB) type B2 (MDDGB2; 613156), and a similar disease (C2) in which the muscle dystrophy is of the limb-girdle type LGMD2N and eye findings may be absent (MDDGC2; 613158).

Mutations in POMGNT1 (1p34-p33) cause type A3 (MDDGA3; 253280) and type B3 (MDDGB3; 613151).  The muscular dystrophy in B3 is of the limb-girdle type.  POMGNT1 mutations may be associated with congenital glaucoma, retinal dysplasia, and high myopia. Type C3 (MDDGC3; 613157), also with a limb-girdle type of muscular dystrophy (LGMD2O), is caused by mutations in POMGNT1 as well.

FKTN mutations cause type A4 MDDG (MDDGA4; 253800) associated with the Fukuyama type of congenital muscular dystrophy but they can also cause type B4 (MDDGB4; 613152) which does not have mental retardation, and type C4 (MDDGC4; 611588) with seizures and a limb-girdle type (LGMD2M) of muscular dystrophy.

Types A5 (MDDG5A; 613153) and B5 (MDDGB5; 606612) are the result of mutations in the FKRP gene (19q13.3).  Of the two the latter is the less severe and the muscular dystrophy is of the limb-girdle type.  The eyes may be microphthalmic and have retinal pigmentary changes and congenital glaucoma.

Type A6 (MDDGA6; 613154) and B6 (MGGDB6; 608840) are caused by mutations in the LARGE gene (22q12.3).  MDDGA7, or type A7 (614643) results from homozygous or compound heterozygous mutations in the ISPD gene.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No effective treatment is available but early indications are that FKRP gene therapy restores functional glycosylation and improves muscle functions.

References
Article Title: 

Congenital muscular dystrophies with defective glycosylation of dystroglycan: a population study

Mercuri E, Messina S, Bruno C, Mora M, Pegoraro E, Comi GP, D'Amico A, Aiello C, Biancheri R, Berardinelli A, Boffi P, Cassandrini D, Laverda A, Moggio M, Morandi L, Moroni I, Pane M, Pezzani R, Pichiecchio A, Pini A, Minetti C, Mongini T, Mottarelli E, Ricci E, Ruggieri A, Saredi S, Scuderi C, Tessa A, Toscano A, Tortorella G, Trevisan CP, Uggetti C, Vasco G, Santorelli FM, Bertini E. Congenital muscular dystrophies with defective glycosylation of dystroglycan: a population study. Neurology. 2009 May 26;72(21):1802-9.

PubMed ID: 
19299310

Hurler and Scheie Syndromes (MPS IH, IS, IH/S)

Clinical Characteristics
Ocular Features: 

Progressive corneal clouding is a major feature and appears early in life.  Intracellular accumulations of heparan and dermatan sulfate are responsible for the ground glass appearance.  However, congenital glaucoma also occurs in MPS I and must be considered as a concomitant cause of a diffusely cloudy cornea.

Abnormal storage of mucopolysaccharides has been found in all ocular tissues and in the retina leads to a pigmentary retinopathy.  The ERG may be abolished by 5 or 6 years of age.  Papilledema is often followed by optic atrophy.  Photophobia is a common symptom.  Shallow orbits give the eyes a prominent appearance.

Systemic Features: 

This group of lysosomal deficiency diseases is probably the most common.  MPS I is clinically heterogeneous encompassing three clinical entities: Hurler, Hurler-Scheie, and Scheie.  In terms of clinical severity, Hurler is the most severe and Scheie is the mildest.  Infants generally appear normal at birth and develop the typical coarse facial features in the first few months of life.  Physical growth often stops at about 2 years of age.  Skeletal changes of dysostosis multiplex are often seen and kyphoscoliosis is common as vertebrae become flattened.  The head is large with frontal bossing and a depressed nasal bridge.  Cranial sutures, especially the metopic and sagittal sutures, often close prematurely.  The lips are prominent and an open mouth with an enlarged tongue is characteristic.  The neck is often short.  Odontoid hypoplasia increases the risk of vertebral subluxation and cord compression.  Joints are often stiff and arthropathy eventually affects all joints.  Claw deformities of the hands and carpal tunnel syndrome are common.  Most patients are short in stature and barrel-chested.

Cardiac valves often are thickened and endocardial fibroelastosis is frequently seen.  The coronary arteries are often narrowed.  Respiratory obstructions are common and respiratory infections can be serious problems.  Hearing loss is common.

Most patients reach a maximum functional age of 2 to 4 years and then regress.  Language is limited.  Untreated, many patients die before 10 years of age.

Genetics

The Hurler/Scheie phenotypes are all the result of mutations in the IDUA gene (4p16.3).  They are inherited in an autosomal recessive pattern.  A deficiency in alpha-L-iduronidase causes three phenotypes: Hurler (607014; MPS IH), Hurler-Scheie (607015; MPS IH/S), and Scheie (607016; MPS IS) syndromes.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Various treatments have had some success.  Enzyme replacement using laronidase (Aldurazyme©) has been shown to reduce organomegaly and improve motor and respiratory functions.  It has been used alone and in combination with bone marrow transplantation but therapeutic effects are greater if given to younger patients.  It does not improve skeletal defects or corneal clouding.  MRI imaging has documented improvement in CNS signs.  Gene therapy has shown promise but remains experimental.  Regular lifelong monitoring is important using a multidisciplinary approach to identify potential problems.  Joint problems may be surgically correctable with special emphasis on the need for atlanto-occipital stabilization.  Corneal transplants may be helpful in the restoration of vision in selected patients.

References
Article Title: 

Rubinstein-Taybi Syndrome 1

Clinical Characteristics
Ocular Features: 

There is considerable clinical heterogeneity in this disorder.  Few patients have all of the clinical features and there is much variation in the severity of these.  Almost all segments of the eye can be involved.  The lashes are often lush and the eyebrows may be highly arched and bushy.  Lid fissures are often downward slanting (88%).  Congenital glaucoma, nystagmus, cataracts, lacrimal duct obstruction (37%), ptosis (29%), colobomas and numerous corneal abnormalities including keratoglobus, sclerocornea, and megalocornea have been reported.  Abnormal VEP waveforms and cone and cone-rod dysfunction have been found in the majority (78%) of patients tested.  Retinal pigmentary changes have been seen in some patients.  Refractive errors (usually myopia) occur in 56% of patients.  Visual acuities vary widely but about 20% of patients are visually handicapped.

Fluorescein angiography in a single patient revealed generalized vascular attenuation and extensive peripheral avascularity.  The AV transit time was prolonged with delayed venous filling and late small vessel leakage. 

Systemic Features: 

The facial features are reported to be characteristic but there are few distinctive signs.  The face is often broad and round, the nose is beaked, the mouth is small, and the lower lip appears to pout and protrudes beyond a short upper lip.  Smiles have been described as 'grimacing'.  It is common for the columella to protrude beyond the alae nasi.  The palate is narrow and highly arched and the laryngeal walls collapse easily which may lead to feeding problems and respiratory difficulties.  The ears may be rotated posteriorly.  The anterior hairline can appear low.

Among the more distinctive signs are the broad thumbs and great toes which are often deviated medially.  However, the distal phalanges of all fingers may be broad as well.  Bone fractures are common and patellar dislocations can be present as seen in the first two decades of life.  Hypotonia is a feature.  Numerous dental anomalies have been reported including crowded teeth, enamel hypoplasia, crossbite, and abnormal numbers of teeth.

Developmental delays are common.  Infancy and childhood milestones are often delayed.  Many patients have cognitive delays and some are mildly retarded.  Postnatal growth is subnormal and obesity is common.  A third of patients have a cardiac abnormality including septal defects, valvular defects, coarctation of the aorta, pulmonic stenosis, and patent ductus arteriosus.  Renal abnormalities occur frequently and almost all males have undescended testes.  Patients are at increased risk of tumors, both malignant and benign, many of which occur in the central nervous system.  Other problems are constipation and hearing loss.

Genetics

Evidence points to an autosomal dominant mode of inheritance secondary to mutations in CREBBP (16p13.3) but there is some genetic heterogeneity as mutations in EP300 (22q13) have been associated with a similar disease (see Rubinstein-Taybi Syndrome 2; 613684).

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Treatment is directed at specific clinical features such as glaucoma and strabismus.  Special education and vocational training may be helpful.  Hearing loss may respond to standard treatment.  Fractures and dislocations should receive prompt attention.  Cardiac anomalies may require surgical correction.

References
Article Title: 

Lowe Oculocerebrorenal Syndrome

Clinical Characteristics
Ocular Features: 

Lens development is abnormal from the beginning secondary to abnormal migration of lens epithelium which has been described in fetuses by 20-24 weeks of gestation.  This leads to some degree of opacification in 100% of affected males.  The lens opacities may be polar or nuclear in location but complete opacification also occurs.   Leukocoria, miosis, microphthalmos and a shallow anterior chamber has been noted in neonates.  The cataractous lenses may be small and abnormally formed.  Glaucoma is present in more than half of affected males with onset by the age of 6 years and may be difficult to control.  Conjunctival and corneal keloids are found in about one-fourth of patients.

Adult female carriers characteristically have peripheral cortical opacities, appearing in a radial configuration.  These 'snowflake' opacities seldom cause visual symptoms.   It has been proposed that slit lamp examinations for such opacities can accurately determine the carrier status of females.

Systemic Features: 

Mental retardation, hypotonia, short stature, and developmental delays are common.  Seizures and behavior problems are seen in older children.  The renal defect secondary to defective phosphatidylinositol 4, 5-biphosphate 5- phosphatase results in a Fanconi-type aminoaciduria beginning late in the first year of life.  The phosphaturia leads to hypophosphatemia and eventually renal rickets.  Proteinuria, polyuria, as well as bicarbonate, sodium and potassium wasting with tubular acidosis are all part of the urinary profile.  Some patients have dental cysts and/or defective dentin.

Genetics

The mutation causing this X-linked disorder is in the OCRL gene located at Xq26.1.  New mutations have been found among nearly one-third of affected males.  

Another X-linked disorder with similar but less severe kidney disease, Dent disease 2 (300555), has been found to have mutations in the same gene.  However, none of the ocular features are present.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Cataracts need to be removed before sensory nystagmus and amblyopia develop.  Fluid and electrolyte balance must be maintained.  Growth hormone can be used in selected patients.  Supportive systemic care is necessary in most cases.  Lifelong kidney and ocular monitoring is recommended.

References
Article Title: 

Charcot-Marie-Tooth Disease with Glaucoma

Clinical Characteristics
Ocular Features: 

Optic atrophy can be an ocular manifestation of CMT disease, especially in the X-linked forms, but this variant is the only one in which early-onset glaucoma is a feature.  It may begin at birth in some patients who have features of congenital glaucoma such as buphthalmos, while in other family members, including juveniles, only elevated intraocular pressures were reported.  Optic nerve damage seems to occur rapidly.

Systemic Features: 

This is a sensorineural disease of myelination that causes a polyneuropathy with muscular weakness and sensory deficits.  CMT4B2 is characterized by abnormal myelin sheath folding.  Symptoms of lower limb weakness and evidence of muscle atrophy commonly appear in the middle of the first decade with progression to upper limb involvement.  Areflexia follows with development of pes cavus and hammertoes.  Motor nerve conduction velocities may be severely reduced and muscle biopsies show severe loss of myelinated fibers and focal myelin sheath folding.

Genetics

This seems to be an autosomal recessive disorder although only a few families have been reported.  Homozygous mutations in the SBF2 gene (sometimes called MTMR13) (11p15.4) were found in these CMT families with early-onset glaucoma (604563).  This gene codes for SET binding factor 2 important to the normal development of the trabecular meshwork.  Not all SBF2 mutations cause glaucoma though.  Of course, it is possible that the occurrence of glaucoma is incidental and not part of CMT4B2 at all.

A clinically similar neurological condition without glaucoma, CMT4B1 (601382), has been reported to be caused by a mutation in MTMR2 located at 11q22 (601382). 

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Little is known about the natural history of the glaucoma in this condition but it occurs early and severe visual loss seems to be common.  Early diagnosis and vigorous treatment are important.  The neurological disease requires a multidisciplinary approach with physical therapists, neurologists, orthopedic surgeons and the use of prostheses.

References
Article Title: 

Mutations in MTMR13, a new pseudophosphatase homologue of MTMR2 and Sbf1, in two families with an autosomal recessive demyelinating form of Charcot-Marie-Tooth disease associated with early-onset glaucoma

Azzedine H, Bolino A, Taieb T, Birouk N, Di Duca M, Bouhouche A, Benamou S, Mrabet A, Hammadouche T, Chkili T, Gouider R, Ravazzolo R, Brice A, Laporte J, LeGuern E. Mutations in MTMR13, a new pseudophosphatase homologue of MTMR2 and Sbf1, in two families with an autosomal recessive demyelinating form of Charcot-Marie-Tooth disease associated with early-onset glaucoma. Am J Hum Genet. 2003 May;72(5):1141-53.

PubMed ID: 
12687498

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