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Block vertebrae

MedGen UID:
375498
Concept ID:
C1844753
Congenital Abnormality; Finding
HPO: HP:0003305

Definition

Congenital synostosis between two or more adjacent vertebrae (partial or complete fusion of adjacent vertabral bodies). [from HPO]

Term Hierarchy

Conditions with this feature

Aicardi syndrome
MedGen UID:
61236
Concept ID:
C0175713
Disease or Syndrome
Aicardi syndrome is a neurodevelopmental disorder that affects primarily females. Initially it was characterized by a typical triad of agenesis of the corpus callosum, central chorioretinal lacunae, and infantile spasms. As more affected individuals have been ascertained, it has become clear that not all affected girls have all three features of the classic triad and that other neurologic and systemic defects are common, including other brain malformations, optic nerve abnormalities, other seizure types, intellectual disability of varying severity, and scoliosis.
Spondylocostal dysostosis
MedGen UID:
82707
Concept ID:
C0265343
Disease or Syndrome
Spondylocostal dysostosis (SCDO), defined radiographically as multiple segmentation defects of the vertebrae (M-SDV) in combination with abnormalities of the ribs, is characterized clinically by: a short trunk in proportion to height; short neck; non-progressive mild scoliosis in most affected individuals, and occasionally, more significant scoliosis. Respiratory function in neonates may be compromised by reduced size of the thorax. By age two years lung growth may improve sufficiently to support relatively normal growth and development; however, even then life-threatening complications can occur, especially pulmonary hypertension in children with severely restricted lung capacity from birth. Males with SCDO appear to be at increased risk for inguinal hernia.
Heterotaxy, visceral, 1, X-linked
MedGen UID:
336609
Concept ID:
C1844020
Disease or Syndrome
Heterotaxy Heterotaxy ('heter' meaning 'other' and 'taxy' meaning 'arrangement'), or situs ambiguus, is a developmental condition characterized by randomization of the placement of visceral organs, including the heart, lungs, liver, spleen, and stomach. The organs are oriented randomly with respect to the left-right axis and with respect to one another (Srivastava, 1997). Heterotaxy is a clinically and genetically heterogeneous disorder. Multiple Types of Congenital Heart Defects Congenital heart defects (CHTD) are among the most common congenital defects, occurring with an incidence of 8/1,000 live births. The etiology of CHTD is complex, with contributions from environmental exposure, chromosomal abnormalities, and gene defects. Some patients with CHTD also have cardiac arrhythmias, which may be due to the anatomic defect itself or to surgical interventions (summary by van de Meerakker et al., 2011). Reviews Obler et al. (2008) reviewed published cases of double-outlet right ventricle and discussed etiology and associations. Genetic Heterogeneity of Visceral Heterotaxy See also HTX2 (605376), caused by mutation in the CFC1 gene (605194) on chromosome 2q21; HTX3 (606325), which maps to chromosome 6q21; HTX4 (613751), caused by mutation in the ACVR2B gene (602730) on chromosome 3p22; HTX5 (270100), caused by mutation in the NODAL gene (601265) on chromosome 10q22; HTX6 (614779), caused by mutation in the CCDC11 gene (614759) on chromosome 18q21; HTX7 (616749), caused by mutation in the MMP21 gene (608416) on chromosome 10q26; HTX8 (617205), caused by mutation in the PKD1L1 gene (609721) on chromosome 7p12; HTX9 (618948), caused by mutation in the MNS1 gene (610766) on chromosome 15q21; HTX10 (619607), caused by mutation in the CFAP52 gene (609804) on chromosome 17p13; HTX11 (619608), caused by mutation in the CFAP45 gene (605152) on chromosome 1q23; and HTX12 (619702), caused by mutation in the CIROP gene (619703) on chromosome 14q11. Genetic Heterogeneity of Multiple Types of Congenital Heart Defects An X-linked form of CHTD, CHTD1, is caused by mutation in the ZIC3 gene on chromosome Xq26. CHTD2 (614980) is caused by mutation in the TAB2 gene (605101) on chromosome 6q25. A form of nonsyndromic congenital heart defects associated with cardiac rhythm and conduction disturbances (CHTD3; 614954) has been mapped to chromosome 9q31. CHTD4 (615779) is caused by mutation in the NR2F2 gene (107773) on chromosome 15q26. CHTD5 (617912) is caused by mutation in the GATA5 gene (611496) on chromosome 20q13. CHTD6 (613854) is caused by mutation in the GDF1 gene (602880) on chromosome 19p13. CHTD7 (618780) is caused by mutation in the FLT4 gene (136352) on chromosome 5q35. CHTD8 (619657) is caused by mutation in the SMAD2 gene (601366) on chromosome 18q21. CHTD9 (620294) is caused by mutation in the PLXND1 gene (604282) on chromosome 3q22.
Spondylocarpotarsal synostosis syndrome
MedGen UID:
341339
Concept ID:
C1848934
Disease or Syndrome
The FLNB disorders include a spectrum of phenotypes ranging from mild to severe. At the mild end are spondylocarpotarsal synostosis (SCT) syndrome and Larsen syndrome; at the severe end are the phenotypic continuum of atelosteogenesis types I (AOI) and III (AOIII) and Piepkorn osteochondrodysplasia (POCD). SCT syndrome is characterized by postnatal disproportionate short stature, scoliosis and lordosis, clubfeet, hearing loss, dental enamel hypoplasia, carpal and tarsal synostosis, and vertebral fusions. Larsen syndrome is characterized by congenital dislocations of the hip, knee, and elbow; clubfeet (equinovarus or equinovalgus foot deformities); scoliosis and cervical kyphosis, which can be associated with a cervical myelopathy; short, broad, spatulate distal phalanges; distinctive craniofacies (prominent forehead, depressed nasal bridge, malar flattening, and widely spaced eyes); vertebral anomalies; and supernumerary carpal and tarsal bone ossification centers. Individuals with SCT syndrome and Larsen syndrome can have midline cleft palate and hearing loss. AOI and AOIII are characterized by severe short-limbed dwarfism; dislocated hips, knees, and elbows; and clubfeet. AOI is lethal in the perinatal period. In individuals with AOIII, survival beyond the neonatal period is possible with intensive and invasive respiratory support. Piepkorn osteochondrodysplasia (POCD) is a perinatal-lethal micromelic dwarfism characterized by flipper-like limbs (polysyndactyly with complete syndactyly of all fingers and toes, hypoplastic or absent first digits, and duplicated intermediate and distal phalanges), macrobrachycephaly, prominant forehead, hypertelorism, and exophthalmos. Occasional features include cleft palate, omphalocele, and cardiac and genitourinary anomalies. The radiographic features at mid-gestation are characteristic.
Spondylocostal dysostosis-anal and genitourinary malformations syndrome
MedGen UID:
341373
Concept ID:
C1849069
Congenital Abnormality
Spondylocostal dysostosis-anal and genitourinary malformations syndrome is characterized by the association of spondylocostal dysostosis with anal and genitourinary malformations (anal atresia and agenesis of external and internal genitalia). To date, only four cases have been described in the literature. Autosomal recessive inheritance has been suggested.
Spondylocostal dysostosis 4, autosomal recessive
MedGen UID:
462292
Concept ID:
C3150942
Disease or Syndrome
Spondylocostal dysostosis (SCDO), defined radiographically as multiple segmentation defects of the vertebrae (M-SDV) in combination with abnormalities of the ribs, is characterized clinically by: a short trunk in proportion to height; short neck; non-progressive mild scoliosis in most affected individuals, and occasionally, more significant scoliosis. Respiratory function in neonates may be compromised by reduced size of the thorax. By age two years lung growth may improve sufficiently to support relatively normal growth and development; however, even then life-threatening complications can occur, especially pulmonary hypertension in children with severely restricted lung capacity from birth. Males with SCDO appear to be at increased risk for inguinal hernia.
Craniofacial microsomia 1
MedGen UID:
501171
Concept ID:
C3495417
Congenital Abnormality
Craniofacial microsomia is a term used to describe a spectrum of abnormalities that primarily affect the development of the skull (cranium) and face before birth. Microsomia means abnormal smallness of body structures. Most people with craniofacial microsomia have differences in the size and shape of facial structures between the right and left sides of the face (facial asymmetry). In about two-thirds of cases, both sides of the face have abnormalities, which usually differ from one side to the other. Other individuals with craniofacial microsomia are affected on only one side of the face. The facial characteristics in craniofacial microsomia typically include underdevelopment of one side of the upper or lower jaw (maxillary or mandibular hypoplasia), which can cause dental problems and difficulties with feeding and speech. In cases of severe mandibular hypoplasia, breathing may also be affected.\n\nPeople with craniofacial microsomia usually have ear abnormalities affecting one or both ears, typically to different degrees. They may have growths of skin (skin tags) in front of the ear (preauricular tags), an underdeveloped or absent external ear (microtia or anotia), or a closed or absent ear canal; these abnormalities may lead to hearing loss. Eye problems are less common in craniofacial microsomia, but some affected individuals have an unusually small eyeball (microphthalmia) or other eye abnormalities that result in vision loss.\n\nAbnormalities in other parts of the body, such as malformed bones of the spine (vertebrae), abnormally shaped kidneys, and heart defects, may also occur in people with craniofacial microsomia.\n\nMany other terms have been used for craniofacial microsomia. These other names generally refer to forms of craniofacial microsomia with specific combinations of signs and symptoms, although sometimes they are used interchangeably. Hemifacial microsomia often refers to craniofacial microsomia with maxillary or mandibular hypoplasia. People with hemifacial microsomia and noncancerous (benign) growths in the eye called epibulbar dermoids may be said to have Goldenhar syndrome or oculoauricular dysplasia.

Professional guidelines

PubMed

Xie JS, Donaldson L, Margolin E
Surv Ophthalmol 2022 Jul-Aug;67(4):1135-1159. Epub 2021 Nov 20 doi: 10.1016/j.survophthal.2021.11.007. PMID: 34813854
Gartenberg A, Nessim A, Cho W
Eur Spine J 2021 Oct;30(10):2936-2943. Epub 2021 Jul 16 doi: 10.1007/s00586-021-06927-9. PMID: 34272605
McCarthy J, Davis A
Am Fam Physician 2016 Jul 1;94(1):44-50. PMID: 27386723

Recent clinical studies

Etiology

Aboughalia H, Noda S, Chapman T, Revzin MV, Deutsch GH, Browd SR, Katz DS, Moshiri M
Radiographics 2021 Nov-Dec;41(7):2176-2192. doi: 10.1148/rg.2021210066. PMID: 34723699
Mohanty SP, Pai Kanhangad M, Narayana Kurup JK, Saiffudeen S
Eur Spine J 2020 Oct;29(10):2449-2456. Epub 2020 May 16 doi: 10.1007/s00586-020-06450-3. PMID: 32418046
Renkema RW, Caron CJJM, Wolvius EB, Rooijers W, Schipper JAM, Dunaway DJ, Forrest CR, Koudstaal MJ, Padwa BL
Int J Oral Maxillofac Surg 2018 Nov;47(11):1365-1372. Epub 2018 Jun 22 doi: 10.1016/j.ijom.2018.05.016. PMID: 30722936
Takeda K, Kou I, Mizumoto S, Yamada S, Kawakami N, Nakajima M, Otomo N, Ogura Y, Miyake N, Matsumoto N, Kotani T, Sudo H, Yonezawa I, Uno K, Taneichi H, Watanabe K, Shigematsu H, Sugawara R, Taniguchi Y, Minami S, Nakamura M, Matsumoto M; Japan Early Onset Scoliosis Research Group, Watanabe K, Ikegawa S
Mol Genet Genomic Med 2018 Nov;6(6):966-974. Epub 2018 Sep 9 doi: 10.1002/mgg3.466. PMID: 30196550Free PMC Article
Renkema RW, Caron CJJM, Mathijssen IMJ, Wolvius EB, Dunaway DJ, Forrest CR, Padwa BL, Koudstaal MJ
Int J Oral Maxillofac Surg 2017 Oct;46(10):1319-1329. Epub 2017 Jun 29 doi: 10.1016/j.ijom.2017.04.025. PMID: 28669484

Diagnosis

Aboughalia H, Noda S, Chapman T, Revzin MV, Deutsch GH, Browd SR, Katz DS, Moshiri M
Radiographics 2021 Nov-Dec;41(7):2176-2192. doi: 10.1148/rg.2021210066. PMID: 34723699
Renkema RW, Caron CJJM, Wolvius EB, Rooijers W, Schipper JAM, Dunaway DJ, Forrest CR, Koudstaal MJ, Padwa BL
Int J Oral Maxillofac Surg 2018 Nov;47(11):1365-1372. Epub 2018 Jun 22 doi: 10.1016/j.ijom.2018.05.016. PMID: 30722936
Takeda K, Kou I, Mizumoto S, Yamada S, Kawakami N, Nakajima M, Otomo N, Ogura Y, Miyake N, Matsumoto N, Kotani T, Sudo H, Yonezawa I, Uno K, Taneichi H, Watanabe K, Shigematsu H, Sugawara R, Taniguchi Y, Minami S, Nakamura M, Matsumoto M; Japan Early Onset Scoliosis Research Group, Watanabe K, Ikegawa S
Mol Genet Genomic Med 2018 Nov;6(6):966-974. Epub 2018 Sep 9 doi: 10.1002/mgg3.466. PMID: 30196550Free PMC Article
Renkema RW, Caron CJJM, Mathijssen IMJ, Wolvius EB, Dunaway DJ, Forrest CR, Padwa BL, Koudstaal MJ
Int J Oral Maxillofac Surg 2017 Oct;46(10):1319-1329. Epub 2017 Jun 29 doi: 10.1016/j.ijom.2017.04.025. PMID: 28669484
Joo S, Rogers KJ, Donohoe M, King MM, Kumar SJ
J Pediatr Orthop 2012 Mar;32(2):190-5. doi: 10.1097/BPO.0b013e31823ab359. PMID: 22327454

Therapy

Ma X, Du Y, Wang S, Ma J, Wang T, Kuang M, Ma B
Eur Spine J 2018 Jun;27(6):1401-1407. Epub 2017 Nov 10 doi: 10.1007/s00586-017-5371-5. PMID: 29127511
Tajima T, Wada T, Yoshizawa A, Masuda T, Okafuji T, Nakayama T, Hasuo K
Clin Radiol 2016 Nov;71(11):1199.e1-7. Epub 2016 Aug 25 doi: 10.1016/j.crad.2016.07.015. PMID: 27567725
Shiga T, Shimbo T, Yoshizawa A
Birth Defects Res A Clin Mol Teratol 2015 Sep;103(9):787-93. Epub 2015 Jun 2 doi: 10.1002/bdra.23363. PMID: 26033770Free PMC Article
Modi HN, Suh SW, Hong JY, Yang JH
Spine (Phila Pa 1976) 2011 Jun 15;36(14):1146-53. doi: 10.1097/BRS.0b013e3181f39d9b. PMID: 20948461
Leivseth G, Frobin W, Brinckmann P
Clin Biomech (Bristol) 2005 Aug;20(7):669-74. doi: 10.1016/j.clinbiomech.2005.04.006. PMID: 15964113

Prognosis

Aboughalia H, Noda S, Chapman T, Revzin MV, Deutsch GH, Browd SR, Katz DS, Moshiri M
Radiographics 2021 Nov-Dec;41(7):2176-2192. doi: 10.1148/rg.2021210066. PMID: 34723699
Mohanty SP, Pai Kanhangad M, Narayana Kurup JK, Saiffudeen S
Eur Spine J 2020 Oct;29(10):2449-2456. Epub 2020 May 16 doi: 10.1007/s00586-020-06450-3. PMID: 32418046
Ma X, Du Y, Wang S, Ma J, Wang T, Kuang M, Ma B
Eur Spine J 2018 Jun;27(6):1401-1407. Epub 2017 Nov 10 doi: 10.1007/s00586-017-5371-5. PMID: 29127511
Joo S, Rogers KJ, Donohoe M, King MM, Kumar SJ
J Pediatr Orthop 2012 Mar;32(2):190-5. doi: 10.1097/BPO.0b013e31823ab359. PMID: 22327454
Leivseth G, Frobin W, Brinckmann P
Clin Biomech (Bristol) 2005 Aug;20(7):669-74. doi: 10.1016/j.clinbiomech.2005.04.006. PMID: 15964113

Clinical prediction guides

Mohanty SP, Pai Kanhangad M, Narayana Kurup JK, Saiffudeen S
Eur Spine J 2020 Oct;29(10):2449-2456. Epub 2020 May 16 doi: 10.1007/s00586-020-06450-3. PMID: 32418046
Ma X, Du Y, Wang S, Ma J, Wang T, Kuang M, Ma B
Eur Spine J 2018 Jun;27(6):1401-1407. Epub 2017 Nov 10 doi: 10.1007/s00586-017-5371-5. PMID: 29127511
Joo S, Rogers KJ, Donohoe M, King MM, Kumar SJ
J Pediatr Orthop 2012 Mar;32(2):190-5. doi: 10.1097/BPO.0b013e31823ab359. PMID: 22327454
Leivseth G, Frobin W, Brinckmann P
Clin Biomech (Bristol) 2005 Aug;20(7):669-74. doi: 10.1016/j.clinbiomech.2005.04.006. PMID: 15964113
Vinje O, Dale K, Møller P
Scand J Rheumatol 1985;14(2):119-32. doi: 10.3109/03009748509165493. PMID: 3873698

Recent systematic reviews

Renkema RW, Caron CJJM, Mathijssen IMJ, Wolvius EB, Dunaway DJ, Forrest CR, Padwa BL, Koudstaal MJ
Int J Oral Maxillofac Surg 2017 Oct;46(10):1319-1329. Epub 2017 Jun 29 doi: 10.1016/j.ijom.2017.04.025. PMID: 28669484

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