buphthalmos

Cataracts, Congenital with Sclerocornea and Glaucoma

Clinical Characteristics
Ocular Features: 

The ocular features are evident at birth or within the first year of life and may be asymmetrical.  The phenotype is heterogeneous but does not appear to be progressive.  The anterior chambers are of normal depth and the fundi are normal when visualization is possible.  The corneal opacification is usually denser peripherally and resembles corneoscleralization but it can extend centrally to a variable degree.  In individuals with glaucoma and buphthalmos the cornea is more opaque and usually vascularized. In such eyes the cornea is thinned.  In most patients the corneal diameters were 5-8 mm in diameter but in those with elevated pressures the anterior segment was obviously buphthalmic. Iridocorneal adhesions may be present.  The lenses are cataractous but the capsules are normal.  Microphthalmia has been reported in some patients.  Vision is often in the range of hand motions.    

Systemic Features: 

None.

Genetics

Homozygous mutations in PXDN (2p25.3) encoding peroxidasin are believed responsible for this autosomal recessive condition.  Mammalian peroxidasin localizes to the endoplasmic reticulum but is also found in the extracellular matrix and is believed important to the maintainence of basement membrane integrity.  The protein is one of several that aids in the extracellular breakdown of hydrogen peroxide and free radicals.  In mouse eyes it localizes to the corneal and lens epithelium but its role in maintaining transparency of the lens and cornea is unknown.

See also Cataracts, Congenital Zonular Pulverulent 1 (116200) in this database for a condition with a similar phenotype but caused by heterozygous mutations in the GJA8 gene.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No information regarding treatment is available but cataract and corneal surgery may be beneficial.   

References
Article Title: 

Novel mutations in PXDN cause microphthalmia and anterior segment dysgenesis

Choi A, Lao R, Ling-Fung Tang P, Wan E, Mayer W, Bardakjian T, Shaw GM, Kwok PY, Schneider A, Slavotinek A. Novel mutations in PXDN cause microphthalmia and anterior segment dysgenesis. Eur J Hum Genet. 2014 Jun 18. doi: 10.1038/ejhg.2014.119. [Epub ahead of print] PubMed PMID: 24939590.

PubMed ID: 
24939590

Homozygous mutations in PXDN cause congenital cataract, corneal opacity, and developmental glaucoma

Khan K, Rudkin A, Parry DA, Burdon KP, McKibbin M, Logan CV, Abdelhamed ZI, Muecke JS, Fernandez-Fuentes N, Laurie KJ, Shires M, Fogarty R, Carr IM, Poulter JA, Morgan JE, Mohamed MD, Jafri H, Raashid Y, Meng N, Piseth H, Toomes C, Casson RJ, Taylor GR, Hammerton M, Sheridan E, Johnson CA, Inglehearn CF, Craig JE, Ali M. Homozygous mutations in PXDN cause congenital cataract, corneal opacity, and developmental glaucoma. Am J Hum Genet. 2011 Sep 9;89(3):464-73.

PubMed ID: 
21907015

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

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

Glaucoma, Congenital Primary B

Clinical Characteristics
Ocular Features: 

Type B congenital glaucoma is considerably more rare than type A and may be more common in Middle Eastern families.  Few families have been reported but the clinical features are similar: elevated intraocular pressure in infancy or early childhood, photophobia, and cloudy corneas (see Glaucoma, Congenital Primary A [231300] for a more complete description of the phenotype).

Systemic Features: 

No systemic abnormalities are associated.

Genetics

This is an autosomal recessive disorder caused by a mutation in GLC3B mapped to a locus at 1p36.2-p36.1.  Type A congenital glaucoma (231300) is caused by a mutation in CYP1B1 and type D by mutations in LTBP2 (613086).  A locus at 14q24.3 has been asssociated with another form of congenital glaucoma (613085; type C) but the nature of the gene is unknown.  Mutations in TEK are responsible for congenital glaucoma type GLC3E.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

As in other types of congenital glaucoma, pressure control is difficult and the best approach entails some form of glaucoma surgical filtration.

References
Article Title: 

Glaucoma, Congenital Primary A

Clinical Characteristics
Ocular Features: 

This may be the most common type of early (infantile, congenital) glaucoma.  Elevated intraocular pressure may be present at birth but sometimes is not evident until the first year of life or in some cases even later.  Irritability, photophobia, and epiphora are early signs.  The globe is often buphthalmic, the cornea is variably cloudy, and breaks in the Descemet membrane (Haab striae) may be present.  Frequently the iris root is inserted anteriorly in the region of the trabecular meshwork.  The anterior chamber often appears abnormally deep.  Early reports of a membrane covering the angle structures have not been confirmed histologically.  The mechanism causing elevated IOP seems to be excessive collagen tissue in the anterior chamber angle that impedes normal aqueous outflow.   The pressure is usually in the range of 25-35 mmHg but this is variable as the course can be intermittent.  It should be considered a bilateral disease although about one-fourth of patients have only unilateral elevations of pressure even though trabecular abnormalities are present.

Optic cupping may begin temporally but the more typical glaucomatous cupping eventually occurs.

Systemic Features: 

No consistent systemic abnormalities are associated with primary congenital glaucoma.  However, it is important to note that glaucoma is a feature of many congenital malformation syndromes and chromosomal aberrations.

Genetics

Congenital glaucoma of this type can result from both homozygous (25%) and compound heterozygous mutations (56%) in the CYP1B1 gene on chromosome 2 (2p22-p21) which codes for cytochrome P4501B1.

Evidence from many sources suggests that congenital glaucoma of this type is an autosomal recessive disorder. Parental consanguinity is common, the segregation ratio is approximately 25%, and the occurrence of congenital glaucoma among all offspring of two affected parents can be cited as support for this mode of inheritance.  Many cases occur sporadically but this is consistent with expectations in small human sibships.  Curiously, though, males are affected more often than females.

Another autosomal recessive infantile (congenital) glaucoma (600975), GLC3 or type B, is caused by mutations in GLC3B located at 1p36.2-p36.1.  A third locus at 14q24.3 has also been proposed  for GLC3, type C.  Autosomal recessive primary congenital glaucoma (so-called) type D (613086) is caused by a mutation in LTBP2 located at 14q24 near the GLC3C locus and heterozygous mutations in TEK are responsible for type E (617272).

Other modes of inheritance have been described and, for now, this form of glaucoma, like others, has to be considered a genetically and clinically heterogeneous disorder pending additional genotyping.  Early onset glaucoma is also a feature of numerous malformation and chromosomal disorders.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Some of the usual glaucoma drugs are ineffective as a result of obstruction to aqueous flow through the trabecular meshwork so that surgical treatment is the therapy of choice in most cases.   Monitoring of axial length has been proposed as helpful in gauging the effectiveness of pressure control.  In some patients the pressure normalizes spontaneously. 

It is important in the evaluation of patients with glaucoma that systemic evaluations be done because of the frequent syndromal associations.

References
Article Title: 

Congenital glaucoma and CYP1B1: an old story revisited

Alsaif HS, Khan AO, Patel N, Alkuraya H, Hashem M, Abdulwahab F, Ibrahim N, Aldahmesh MA, Alkuraya FS. Congenital glaucoma and CYP1B1: an old story revisited. Hum Genet. 2018 Mar 19. doi: 10.1007/s00439-018-1878-z.

PubMed ID: 
29556725
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