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Stickler syndrome

MedGen UID:
120521
Concept ID:
C0265253
Disease or Syndrome
Synonyms: Hereditary progressive arthroophthalmopathy; hereditary progressive arthroophthalmopathy; Stickler dysplasia; Stickler Syndrome; Wagner-Stickler syndrome
SNOMED CT: Stickler syndrome (78675000); Wagner-Stickler syndrome (78675000); Stickler dysplasia (78675000)
Modes of inheritance:
Autosomal recessive inheritance
MedGen UID:
141025
Concept ID:
C0441748
Intellectual Product
Source: Orphanet
A mode of inheritance that is observed for traits related to a gene encoded on one of the autosomes (i.e., the human chromosomes 1-22) in which a trait manifests in individuals with two pathogenic alleles, either homozygotes (two copies of the same mutant allele) or compound heterozygotes (whereby each copy of a gene has a distinct mutant allele).
Autosomal dominant inheritance
MedGen UID:
141047
Concept ID:
C0443147
Intellectual Product
Source: Orphanet
A mode of inheritance that is observed for traits related to a gene encoded on one of the autosomes (i.e., the human chromosomes 1-22) in which a trait manifests in heterozygotes. In the context of medical genetics, an autosomal dominant disorder is caused when a single copy of the mutant allele is present. Males and females are affected equally, and can both transmit the disorder with a risk of 50% for each child of inheriting the mutant allele.
 
Related genes: COL11A2, COL11A1, COL9A2, COL9A1, COL2A1
 
Monarch Initiative: MONDO:0019354
OMIM® Phenotypic series: PS108300
Orphanet: ORPHA828

Disease characteristics

Excerpted from the GeneReview: Stickler Syndrome
Stickler syndrome is a connective tissue disorder that can include ocular findings of myopia, cataract, and retinal detachment; hearing loss that is both conductive and sensorineural; midfacial underdevelopment and cleft palate (either alone or as part of the Pierre Robin sequence); and early-onset degenerative joint disease. Variable phenotypic expression of Stickler syndrome occurs both within and among families; interfamilial variability is in part explained by locus and allelic heterogeneity. [from GeneReviews]
Authors:
Geert Mortier   view full author information

Additional description

From MedlinePlus Genetics
Researchers have described several types of Stickler syndrome, which are distinguished by their genetic causes and their patterns of signs and symptoms. In particular, the eye abnormalities and severity of hearing loss differ among the types. Type I has the highest risk of retinal detachment. Type II also includes eye abnormalities, but type III does not (and is often called non-ocular Stickler syndrome). Types II and III are more likely than type I to have significant hearing loss. Types IV, V, and VI are very rare and have each been diagnosed in only a few individuals.

Most people with Stickler syndrome have skeletal abnormalities that affect the joints. The joints of affected children and young adults may be loose and very flexible (hypermobile), though joints become less flexible with age. Arthritis often appears early in life and may cause joint pain or stiffness. Problems with the bones of the spine (vertebrae) can also occur, including abnormal curvature of the spine (scoliosis or kyphosis) and flattened vertebrae (platyspondyly). These spinal abnormalities may cause back pain.

In people with Stickler syndrome, hearing loss varies in degree and may become more severe over time. The hearing loss may be sensorineural, meaning that it results from changes in the inner ear, or conductive, meaning that it is caused by abnormalities of the middle ear.

Many people with Stickler syndrome have severe nearsightedness (high myopia), which means they have trouble seeing things that are far away. In some cases, the clear gel that fills the eyeball (the vitreous) has an abnormal appearance, which is noticeable during an eye examination. Other eye problems are also common, including increased pressure within the eye (glaucoma), clouding of the lens of the eyes (cataracts), and tearing of the lining of the eye (retinal detachment). These eye abnormalities cause impaired vision or blindness in some cases.

A condition similar to Stickler syndrome, called Marshall syndrome, is characterized by a distinctive facial appearance, eye abnormalities, hearing loss, and early-onset arthritis. Marshall syndrome can also include short stature. Some researchers have classified Marshall syndrome as a variant of Stickler syndrome, while others consider it to be a separate disorder.

A characteristic feature of Stickler syndrome is a somewhat flattened facial appearance. This appearance results from underdeveloped bones in the middle of the face, including the cheekbones and the bridge of the nose. A particular group of physical features called Pierre Robin sequence is also common in people with Stickler syndrome. Pierre Robin sequence includes an opening in the roof of the mouth (a cleft palate), a tongue that is placed further back than normal (glossoptosis), and a small lower jaw (micrognathia). This combination of features can lead to feeding problems and difficulty breathing.

Stickler syndrome is a group of hereditary conditions characterized by a distinctive facial appearance, eye abnormalities, hearing loss, and joint problems. These signs and symptoms vary widely among affected individuals.  https://medlineplus.gov/genetics/condition/stickler-syndrome

Term Hierarchy

CClinical test,  RResearch test,  OOMIM,  GGeneReviews,  VClinVar  
Follow this link to review classifications for Stickler syndrome in Orphanet.

Professional guidelines

PubMed

Kandeeban S, Kandale K, Periyasamy P, Bhende M, Bhende P, Sinnakaruppan M, Sarangapani S
Indian J Ophthalmol 2022 Jul;70(7):2578-2583. doi: 10.4103/ijo.IJO_1833_21. PMID: 35791160Free PMC Article
Khan AO, AlAbdi L, Patel N, Helaby R, Hashem M, Abdulwahab F, AlBadr FB, Alkuraya FS
Mol Genet Genomic Med 2021 May;9(5):e1628. Epub 2021 May 5 doi: 10.1002/mgg3.1628. PMID: 33951325Free PMC Article
Liberfarb RM, Levy HP, Rose PS, Wilkin DJ, Davis J, Balog JZ, Griffith AJ, Szymko-Bennett YM, Johnston JJ, Francomano CA, Tsilou E, Rubin BI
Genet Med 2003 Jan-Feb;5(1):21-7. doi: 10.1097/00125817-200301000-00004. PMID: 12544472

Recent clinical studies

Etiology

Alexander P, Snead MP
Genes (Basel) 2022 Jun 26;13(7) doi: 10.3390/genes13071150. PMID: 35885933Free PMC Article
Soh Z, Richards AJ, McNinch A, Alexander P, Martin H, Snead MP
Genes (Basel) 2022 Jun 18;13(6) doi: 10.3390/genes13061089. PMID: 35741851Free PMC Article
Dumitrescu AV, Pfeifer WL, Drack AV
J AAPOS 2021 Aug;25(4):220.e1-220.e8. Epub 2021 Jul 17 doi: 10.1016/j.jaapos.2021.03.015. PMID: 34280564
McArthur N, Rehm A, Shenker N, Richards AJ, McNinch AM, Poulson AV, Tanner J, Snead MP, Bearcroft PWP
Clin Radiol 2018 Jul;73(7):678.e13-678.e18. Epub 2018 Apr 13 doi: 10.1016/j.crad.2018.03.004. PMID: 29661559
Snead MP, McNinch AM, Poulson AV, Bearcroft P, Silverman B, Gomersall P, Parfect V, Richards AJ
Eye (Lond) 2011 Nov;25(11):1389-400. Epub 2011 Sep 16 doi: 10.1038/eye.2011.201. PMID: 21921955Free PMC Article

Diagnosis

Snead MP, Lovicu FJ, Nixon TR, Richards AJ, Martin H
Prog Retin Eye Res 2024 Nov;103:101304. Epub 2024 Sep 29 doi: 10.1016/j.preteyeres.2024.101304. PMID: 39349161
Wang A, Nixon T, Martin H, Richards A, McNinch A, Alexander P, Pujari R, Bale P, Shenker N, Bearcroft P, Brown S, Blackwell A, Poulson A, Snead M
Arch Dis Child 2023 Oct;108(10):789-791. Epub 2023 Mar 7 doi: 10.1136/archdischild-2022-325059. PMID: 36882306
Ortiz-Salvador M, Montero-Hernández J, Freiría-Barreiro R
JAMA Ophthalmol 2021 Sep 1;139(9):e213312. Epub 2021 Sep 15 doi: 10.1001/jamaophthalmol.2021.3312. PMID: 34524400
Dumitrescu AV, Pfeifer WL, Drack AV
J AAPOS 2021 Aug;25(4):220.e1-220.e8. Epub 2021 Jul 17 doi: 10.1016/j.jaapos.2021.03.015. PMID: 34280564
Rishi P, Maheshwari A, Rishi E
Indian J Ophthalmol 2015 Jul;63(7):614-5. doi: 10.4103/0301-4738.167114. PMID: 26458481Free PMC Article

Therapy

Firkins SA, Chittajallu V, Flora B, Yoo H, Simons-Linares R
Obes Surg 2024 May;34(5):1415-1424. Epub 2024 Mar 21 doi: 10.1007/s11695-024-07181-w. PMID: 38512645
Corcóstegui I, Subirás J, Corcóstegui B
Graefes Arch Clin Exp Ophthalmol 2024 Jul;262(7):2093-2099. Epub 2024 Feb 15 doi: 10.1007/s00417-024-06406-z. PMID: 38358525
Boysen KB, La Cour M, Kessel L
Ophthalmic Genet 2020 Jun;41(3):223-234. Epub 2020 Apr 21 doi: 10.1080/13816810.2020.1747092. PMID: 32316871
Wubben TJ, Branham KH, Besirli CG, Bohnsack BL
Ophthalmic Genet 2018 Oct;39(5):615-618. Epub 2018 Aug 21 doi: 10.1080/13816810.2018.1509355. PMID: 30130436
Carroll C, Papaioannou D, Rees A, Kaltenthaler E
Health Technol Assess 2011 Apr;15(16):iii-xiv, 1-62. doi: 10.3310/hta15160. PMID: 21466760Free PMC Article

Prognosis

Jiang Y, Xiao X, Sun W, Wang Y, Li S, Jia X, Wang P, Hejtmancik JF, Zhang Q
J Transl Med 2024 Jan 19;22(1):75. doi: 10.1186/s12967-024-04886-5. PMID: 38243264Free PMC Article
Arias-Peso B, Calero-Ramos ML, López-Ladrón García de la Borbolla C, López-Domínguez M, Morillo-Sánchez MJ, Méndez-Martínez S, Sánchez-Gómez S, Rodríguez-de-la-Rúa E
Graefes Arch Clin Exp Ophthalmol 2024 Mar;262(3):701-715. Epub 2023 Jun 21 doi: 10.1007/s00417-023-06153-7. PMID: 37341837
Asano M, Yokoyama K, Oku K, Matsushita I, Kimoto K, Kubota T, Kondo H
Ophthalmic Genet 2022 Aug;43(4):508-512. Epub 2022 Apr 26 doi: 10.1080/13816810.2022.2068044. PMID: 35473494
Liberfarb RM, Levy HP, Rose PS, Wilkin DJ, Davis J, Balog JZ, Griffith AJ, Szymko-Bennett YM, Johnston JJ, Francomano CA, Tsilou E, Rubin BI
Genet Med 2003 Jan-Feb;5(1):21-7. doi: 10.1097/00125817-200301000-00004. PMID: 12544472
Godel V, Nemet P, Lazar M
Doc Ophthalmol 1981 Dec 16;52(2):179-88. doi: 10.1007/BF01675204. PMID: 7035111

Clinical prediction guides

Snead MP, Lovicu FJ, Nixon TR, Richards AJ, Martin H
Prog Retin Eye Res 2024 Nov;103:101304. Epub 2024 Sep 29 doi: 10.1016/j.preteyeres.2024.101304. PMID: 39349161
Jiang Y, Xiao X, Sun W, Wang Y, Li S, Jia X, Wang P, Hejtmancik JF, Zhang Q
J Transl Med 2024 Jan 19;22(1):75. doi: 10.1186/s12967-024-04886-5. PMID: 38243264Free PMC Article
Wang A, Nixon T, Martin H, Richards A, McNinch A, Alexander P, Pujari R, Bale P, Shenker N, Bearcroft P, Brown S, Blackwell A, Poulson A, Snead M
Arch Dis Child 2023 Oct;108(10):789-791. Epub 2023 Mar 7 doi: 10.1136/archdischild-2022-325059. PMID: 36882306
Asano M, Yokoyama K, Oku K, Matsushita I, Kimoto K, Kubota T, Kondo H
Ophthalmic Genet 2022 Aug;43(4):508-512. Epub 2022 Apr 26 doi: 10.1080/13816810.2022.2068044. PMID: 35473494
Liberfarb RM, Levy HP, Rose PS, Wilkin DJ, Davis J, Balog JZ, Griffith AJ, Szymko-Bennett YM, Johnston JJ, Francomano CA, Tsilou E, Rubin BI
Genet Med 2003 Jan-Feb;5(1):21-7. doi: 10.1097/00125817-200301000-00004. PMID: 12544472

Recent systematic reviews

Boysen KB, La Cour M, Kessel L
Ophthalmic Genet 2020 Jun;41(3):223-234. Epub 2020 Apr 21 doi: 10.1080/13816810.2020.1747092. PMID: 32316871
Wang DD, Gao FJ, Hu FY, Zhang SH, Xu P, Wu JH
BMC Med Genet 2020 Feb 10;21(1):27. doi: 10.1186/s12881-020-0963-z. PMID: 32039712Free PMC Article
Acke FR, Dhooge IJ, Malfait F, De Leenheer EM
Orphanet J Rare Dis 2012 Oct 30;7:84. doi: 10.1186/1750-1172-7-84. PMID: 23110709Free PMC Article
Carroll C, Papaioannou D, Rees A, Kaltenthaler E
Health Technol Assess 2011 Apr;15(16):iii-xiv, 1-62. doi: 10.3310/hta15160. PMID: 21466760Free PMC Article
Lansford M
Adv Neonatal Care 2008 Dec;8(6):308-14. doi: 10.1097/01.ANC.0000342763.64240.69. PMID: 19060576

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