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Anterior segment dysgenesis 3(ASGD3)

MedGen UID:
355748
Concept ID:
C1866560
Disease or Syndrome
Synonyms: ASGD3; Glaucoma iridogoniodysplasia, familial; IGDA syndrome; Iridogoniodysgenesis anomaly, Autosomal dominant; Iridogoniodysgenesis type1; Iridogoniodysgenesis, Type 1
 
Gene (location): FOXC1 (6p25.3)
 
Monarch Initiative: MONDO:0024456
OMIM®: 601631

Definition

Anterior segment dysgeneses (ASGD or ASMD) are a heterogeneous group of developmental disorders affecting the anterior segment of the eye, including the cornea, iris, lens, trabecular meshwork, and Schlemm canal. The clinical features of ASGD include iris hypoplasia, an enlarged or reduced corneal diameter, corneal vascularization and opacity, posterior embryotoxon, corectopia, polycoria, an abnormal iridocorneal angle, ectopia lentis, and anterior synechiae between the iris and posterior corneal surface (summary by Cheong et al., 2016). Anterior segment dysgenesis is sometimes divided into subtypes including aniridia (see 106210), Axenfeld and Rieger anomalies, iridogoniodysgenesis, Peters anomaly, and posterior embryotoxon (Gould and John, 2002). Some patients with ASGD3 have been reported with the following subtypes: iridogoniodysgenesis, Peters anomaly, Axenfeld anomaly, and Rieger anomaly. Iridogoniodysgenesis, which is characterized by iris hypoplasia, goniodysgenesis, and juvenile glaucoma, is the result of aberrant migration or terminal induction of the neural crest cells involved in the formation of the anterior segment of the eye (summary by Mears et al., 1996). Peters anomaly consists of a central corneal leukoma, absence of the posterior corneal stroma and Descemet membrane, and a variable degree of iris and lenticular attachments to the central aspect of the posterior cornea (Peters, 1906). In Axenfeld anomaly, strands of iris tissue attach to the Schwalbe line; in Rieger anomaly, in addition to the attachment of iris tissue to the Schwalbe line, there is clinically evident iris stromal atrophy with hole or pseudo-hole formation and corectopia (summary by Smith and Traboulsi, 2012). [from OMIM]

Additional description

From MedlinePlus Genetics
Peters anomaly is characterized by eye problems that occur in an area at the front part of the eye known as the anterior segment. The anterior segment consists of structures including the lens, the colored part (iris) of the eye, and the clear covering of the eye (cornea). During development of the eye, the elements of the anterior segment form separate structures. However, in Peters anomaly, development of the anterior segment is abnormal, leading to incomplete separation of the cornea from the iris or the lens. As a result, the cornea is cloudy (opaque), which causes blurred vision. The opaque area (opacity) of the cornea varies in size and intensity from a small, faint streak to a large, white cloudy area that covers the front surface of the eye. Additionally, the location of the opacity varies; the cloudiness may be at the center of the cornea or off-center. Large, centrally located opacities tend to cause poorer vision than smaller, off-center ones.

Nearly half of the individuals affected with Peters anomaly have low vision early in life and about a quarter are legally blind. Due to a lack of visual stimulation, some individuals develop "lazy eye" (amblyopia). Peters anomaly is often associated with other eye problems, such as increased pressure within the eye (glaucoma), clouding of the lens (cataract), and unusually small eyeballs (microphthalmia). In most cases, Peters anomaly is bilateral, which means that it affects both eyes, although the level of vision impairment may be different in each eye. These individuals may have eyes that do not point in the same direction (strabismus). In some people with Peters anomaly, corneal clouding improves over time leading to improved vision.

There are two types of Peters anomaly, which are distinguished by their signs and symptoms. Peters anomaly type I is characterized by an incomplete separation of the cornea and iris and mild to moderate corneal opacity. Type II is characterized by an incomplete separation of the cornea and lens and severe corneal opacity that may involve the entire cornea.  https://medlineplus.gov/genetics/condition/peters-anomaly

Clinical features

From HPO
Cerebellar vermis hypoplasia
MedGen UID:
333548
Concept ID:
C1840379
Finding
Underdevelopment of the vermis of cerebellum.
Enlarged cisterna magna
MedGen UID:
344031
Concept ID:
C1853377
Finding
Increase in size of the cisterna magna, one of three principal openings in the subarachnoid space between the arachnoid and pia mater, located between the cerebellum and the dorsal surface of the medulla oblongata.
Glaucoma
MedGen UID:
42224
Concept ID:
C0017601
Disease or Syndrome
Glaucoma refers loss of retinal ganglion cells in a characteristic pattern of optic neuropathy usually associated with increased intraocular pressure.
Rieger anomaly
MedGen UID:
78558
Concept ID:
C0265341
Disease or Syndrome
Axenfeld-Rieger syndrome is primarily an eye disorder, although it can also affect other parts of the body. This condition is characterized by abnormalities of the front part of the eye, an area known as the anterior segment. For example, the colored part of the eye (the iris), may be thin or poorly developed. The iris normally has a single central hole, called the pupil, through which light enters the eye. People with Axenfeld-Rieger syndrome often have a pupil that is off-center (corectopia) or extra holes in the iris that can look like multiple pupils (polycoria). This condition can also cause abnormalities of the cornea, which is the clear front covering of the eye.\n\nAbout half of affected individuals develop glaucoma, a serious condition that increases pressure inside the eye. When glaucoma occurs with Axenfeld-Rieger syndrome, it most often develops in late childhood or adolescence, although it can occur as early as infancy. Glaucoma can cause vision loss or blindness.\n\nThe signs and symptoms of Axenfeld-Rieger syndrome can also affect other parts of the body. Many affected individuals have distinctive facial features such as widely spaced eyes (hypertelorism); a flattened mid-face with a broad, flat nasal bridge; and a prominent forehead. The condition is also associated with dental abnormalities including unusually small teeth (microdontia) or fewer than normal teeth (oligodontia). Some people with Axenfeld-Rieger syndrome have extra folds of skin around their belly button (redundant periumbilical skin). Other, less common features can include heart defects, the opening of the urethra on the underside of the penis (hypospadias), narrowing of the anus (anal stenosis), and abnormalities of the pituitary gland that can result in slow growth.\n\nResearchers have described at least three types of Axenfeld-Rieger syndrome. The types, which are numbered 1 through 3, are distinguished by their genetic cause.
Axenfeld anomaly
MedGen UID:
78611
Concept ID:
C0266548
Congenital Abnormality
Axenfeld's anomaly is a bilateral disorder characterized by a prominent, anteriorly displaced Schwalbe's line (posterior embryotoxon) and peripheral iris strands which span the anterior chamber angle to attach to Schwalbe's line.
Irido-corneo-trabecular dysgenesis
MedGen UID:
91031
Concept ID:
C0344559
Congenital Abnormality
Anterior segment dysgeneses (ASGD or ASMD) are a heterogeneous group of developmental disorders affecting the anterior segment of the eye, including the cornea, iris, lens, trabecular meshwork, and Schlemm canal. The clinical features of ASGD include iris hypoplasia, an enlarged or reduced corneal diameter, corneal vascularization and opacity, posterior embryotoxon, corectopia, polycoria, an abnormal iridocorneal angle, ectopia lentis, and anterior synechiae between the iris and posterior corneal surface (summary by Cheong et al., 2016). Anterior segment dysgenesis is sometimes divided into subtypes including aniridia (see 106210), Axenfeld and Rieger anomalies, iridogoniodysgenesis, Peters anomaly, and posterior embryotoxon (Gould and John, 2002). Patients with ASGD5 have been reported with the Peters anomaly, Axenfeld anomaly, and Rieger anomaly subtypes. Peters anomaly consists of a central corneal leukoma, absence of the posterior corneal stroma and Descemet membrane, and a variable degree of iris and lenticular attachments to the central aspect of the posterior cornea (Peters, 1906). It occurs as an isolated ocular abnormality or in association with other ocular defects. In Axenfeld anomaly, strands of iris tissue attach to the Schwalbe line; in Rieger anomaly, in addition to the attachment of iris tissue to the Schwalbe line, there is clinically evident iris stromal atrophy with hole or pseudo-hole formation and corectopia (summary by Smith and Traboulsi, 2012).
Posterior embryotoxon
MedGen UID:
154282
Concept ID:
C0546967
Congenital Abnormality
A posterior embryotoxon is the presence of a prominent and anteriorly displaced line of Schwalbe.
Congenital ectopic pupil
MedGen UID:
224790
Concept ID:
C1271219
Congenital Abnormality
Ectopia pupillae is a congenital eye malformation in which the pupils are displaced from their normal central position.
Hypoplastic iris stroma
MedGen UID:
349788
Concept ID:
C1860344
Finding
Underdevelopment of the stroma of iris.
Abnormal iris vasculature
MedGen UID:
477594
Concept ID:
C3275963
Finding

Professional guidelines

PubMed

Nihalani BR, VanderVeen DK
Ophthalmol Glaucoma 2024 May-Jun;7(3):290-297. Epub 2023 Dec 15 doi: 10.1016/j.ogla.2023.12.003. PMID: 38104771
Lenassi E, Clayton-Smith J, Douzgou S, Ramsden SC, Ingram S, Hall G, Hardcastle CL, Fletcher TA, Taylor RL, Ellingford JM, Newman WD, Fenerty C, Sharma V, Lloyd IC, Biswas S, Ashworth JL, Black GC, Sergouniotis PI
Genet Med 2020 Apr;22(4):745-751. Epub 2019 Dec 18 doi: 10.1038/s41436-019-0722-8. PMID: 31848469Free PMC Article

Curated

Weisschuh N, De Baere E, Wissinger B, Tümer Z
Eur J Hum Genet 2011 Mar;19(3) Epub 2010 Oct 13 doi: 10.1038/ejhg.2010.163. PMID: 20940740Free PMC Article

Recent clinical studies

Etiology

Nihalani BR, VanderVeen DK
Ophthalmol Glaucoma 2024 May-Jun;7(3):290-297. Epub 2023 Dec 15 doi: 10.1016/j.ogla.2023.12.003. PMID: 38104771

Diagnosis

Nihalani BR, VanderVeen DK
Ophthalmol Glaucoma 2024 May-Jun;7(3):290-297. Epub 2023 Dec 15 doi: 10.1016/j.ogla.2023.12.003. PMID: 38104771
Lenassi E, Clayton-Smith J, Douzgou S, Ramsden SC, Ingram S, Hall G, Hardcastle CL, Fletcher TA, Taylor RL, Ellingford JM, Newman WD, Fenerty C, Sharma V, Lloyd IC, Biswas S, Ashworth JL, Black GC, Sergouniotis PI
Genet Med 2020 Apr;22(4):745-751. Epub 2019 Dec 18 doi: 10.1038/s41436-019-0722-8. PMID: 31848469Free PMC Article

Therapy

Nihalani BR, VanderVeen DK
Ophthalmol Glaucoma 2024 May-Jun;7(3):290-297. Epub 2023 Dec 15 doi: 10.1016/j.ogla.2023.12.003. PMID: 38104771

Prognosis

Nihalani BR, VanderVeen DK
Ophthalmol Glaucoma 2024 May-Jun;7(3):290-297. Epub 2023 Dec 15 doi: 10.1016/j.ogla.2023.12.003. PMID: 38104771

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