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Anencephaly

MedGen UID:
8068
Concept ID:
C0002902
Congenital Abnormality
Synonyms: Absence of a large part of the brain and the skull; Anencephalus
SNOMED CT: Anencephalus (89369001); Anencephaly (89369001); Fetal anencephaly (609417004); Congenital absence of brain (89369001)
 
HPO: HP:0002323
Monarch Initiative: MONDO:0000819
OMIM®: 206500
OMIM® Phenotypic series: PS206500

Definition

Anencephaly is a condition that prevents the normal development of the brain and the bones of the skull. This condition results when a structure called the neural tube fails to close during the first few weeks of embryonic development. The neural tube is a layer of cells that ultimately develops into the brain and spinal cord. Because anencephaly is caused by abnormalities of the neural tube, it is classified as a neural tube defect.

Because the neural tube fails to close properly, the developing brain and spinal cord are exposed to the amniotic fluid that surrounds the fetus in the womb. This exposure causes the nervous system tissue to break down (degenerate). As a result, people with anencephaly are missing large parts of the brain called the cerebrum and cerebellum. These brain regions are necessary for thinking, hearing, vision, emotion, and coordinating movement. The bones of the skull are also missing or incompletely formed.

Because these nervous system abnormalities are so severe, almost all babies with anencephaly die before birth or within a few hours or days after birth. [from MedlinePlus Genetics]

Term Hierarchy

Conditions with this feature

Type IV short rib polydactyly syndrome
MedGen UID:
96578
Concept ID:
C0432198
Disease or Syndrome
Short-rib thoracic dysplasia (SRTD) with or without polydactyly refers to a group of autosomal recessive skeletal ciliopathies that are characterized by a constricted thoracic cage, short ribs, shortened tubular bones, and a 'trident' appearance of the acetabular roof. SRTD encompasses Ellis-van Creveld syndrome (EVC) and the disorders previously designated as Jeune syndrome or asphyxiating thoracic dystrophy (ATD), short rib-polydactyly syndrome (SRPS), and Mainzer-Saldino syndrome (MZSDS). Polydactyly is variably present, and there is phenotypic overlap in the various forms of SRTDs, which differ by visceral malformation and metaphyseal appearance. Nonskeletal involvement can include cleft lip/palate as well as anomalies of major organs such as the brain, eye, heart, kidneys, liver, pancreas, intestines, and genitalia. Some forms of SRTD are lethal in the neonatal period due to respiratory insufficiency secondary to a severely restricted thoracic cage, whereas others are compatible with life (summary by Huber and Cormier-Daire, 2012 and Schmidts et al., 2013). There is phenotypic overlap with the cranioectodermal dysplasias (Sensenbrenner syndrome; see CED1, 218330). Patients with a clinical diagnosis of Beemer-Langer syndrome have been found to carry mutations in the IFT80 gene (611177); see SRTD2, 611263. For a discussion of genetic heterogeneity of short-rib thoracic dysplasia, see SRTD1 (208500).
Pentalogy of Cantrell
MedGen UID:
107540
Concept ID:
C0559483
Disease or Syndrome
Pentalogy of Cantrell (POC) is a lethal multiple congenital anomalies syndrome, characterized by the presence of 5 major malformations: midline supraumbilical abdominal wall defect, lower sternal defect, diaphragmatic pericardial defect, anterior diaphragmatic defect and various intracardiac malformations. Ectopia cordis (EC) is often found in fetuses with POC.
XK aprosencephaly
MedGen UID:
167087
Concept ID:
C0795952
Disease or Syndrome
A rare syndromic type of cerebral malformation with characteristics of aprosencephaly (absence of telencephalon and diencephalon), oculo-facial anomalies (such as ocular hypotelorism or cyclopia, malformation/absence of nasal structures, cleft lip), preaxial limb defects (such as hypoplastic hands, absent halluces) and various other anomalies including ambiguous genitalia, imperforate anus, and vertebral anomalies.
Hydrolethalus syndrome 1
MedGen UID:
343455
Concept ID:
C1856016
Disease or Syndrome
Hydrolethalus-1 (HLS1) is an autosomal recessive lethal malformation syndrome characterized by hydrocephaly with absent upper midline structures of the brain, micrognathia, and polydactyly. Various other features such as cleft lip or palate, club feet, anomalies of the ears, eyes, and nose, keyhole-shaped defect in the occipital bone, abnormal genitalia, and congenital heart and respiratory organ defects have also been observed in affected individuals. Affected individuals are stillborn or die shortly after birth (summary by Mee et al., 2005). Genetic Heterogeneity of Hydrolethalus Syndrome See also HLS2 (614120), caused by mutation in the KIF7 gene (611254) on chromosome 15q26.
Meckel syndrome, type 2
MedGen UID:
351059
Concept ID:
C1864148
Disease or Syndrome
Meckel syndrome is a rare autosomal recessive lethal condition characterized by an occipital meningoencephalocele, enlarged kidneys with multicystic dysplasia and fibrotic changes in the portal area of the liver and with ductal proliferation, and postaxial polydactyly. For a more complete phenotypic description and information on genetic heterogeneity, see MKS1 (249000).
Meckel syndrome, type 5
MedGen UID:
409740
Concept ID:
C1969052
Disease or Syndrome
Meckel syndrome is a disorder with severe signs and symptoms that affect many parts of the body. The most common features are enlarged kidneys with numerous fluid-filled cysts; an occipital encephalocele, which is a sac-like protrusion of the brain through an opening at the back of the skull; and the presence of extra fingers and toes (polydactyly). Most affected individuals also have a buildup of scar tissue (fibrosis) in the liver.\n\nOther signs and symptoms of Meckel syndrome vary widely among affected individuals. Numerous abnormalities of the brain and spinal cord (central nervous system) have been reported in people with Meckel syndrome, including a group of birth defects known as neural tube defects. These defects occur when a structure called the neural tube, a layer of cells that ultimately develops into the brain and spinal cord, fails to close completely during the first few weeks of embryonic development. Meckel syndrome can also cause problems with development of the eyes and other facial features, heart, bones, urinary system, and genitalia.\n\nBecause of their serious health problems, most individuals with Meckel syndrome die before or shortly after birth. Most often, affected infants die of respiratory problems or kidney failure.
Meckel syndrome, type 4
MedGen UID:
410003
Concept ID:
C1970161
Disease or Syndrome
Meckel syndrome is an autosomal recessive pre- or perinatal lethal disorder characterized by a combination of renal cysts and variably associated features including developmental anomalies of the central nervous system (typically occipital encephalocele), hepatic ductal dysplasia and cysts, and postaxial polydactyly (summary by Baala et al., 2007). For a more complete phenotypic description and information on genetic heterogeneity of Meckel syndrome, see MKS1 (249000).
Meckel syndrome, type 6
MedGen UID:
382942
Concept ID:
C2676790
Disease or Syndrome
Because of their serious health problems, most individuals with Meckel syndrome die before or shortly after birth. Most often, affected infants die of respiratory problems or kidney failure.\n\nOther signs and symptoms of Meckel syndrome vary widely among affected individuals. Numerous abnormalities of the brain and spinal cord (central nervous system) have been reported in people with Meckel syndrome, including a group of birth defects known as neural tube defects. These defects occur when a structure called the neural tube, a layer of cells that ultimately develops into the brain and spinal cord, fails to close completely during the first few weeks of embryonic development. Meckel syndrome can also cause problems with development of the eyes and other facial features, heart, bones, urinary system, and genitalia.\n\nMeckel syndrome is a disorder with severe signs and symptoms that affect many parts of the body. The most common features are enlarged kidneys with numerous fluid-filled cysts; an occipital encephalocele, which is a sac-like protrusion of the brain through an opening at the back of the skull; and the presence of extra fingers and toes (polydactyly). Most affected individuals also have a buildup of scar tissue (fibrosis) in the liver.
Hydrolethalus syndrome 2
MedGen UID:
481529
Concept ID:
C3279899
Disease or Syndrome
Hydrolethalus syndrome is an autosomal recessive embryonic lethal disorder characterized by hydrocephaly or anencephaly, postaxial polydactyly of the upper limbs, and pre- or postaxial polydactyly of the lower limbs. Duplication of the hallux is a common finding. HLS2 is considered a ciliopathy (summary by Putoux et al., 2011). Acrocallosal syndrome (ACLS; 200990) is an allelic disorder with a less severe phenotype. For a discussion of genetic heterogeneity of hydrolethalus syndrome, see 236680.
Meckel syndrome, type 10
MedGen UID:
481666
Concept ID:
C3280036
Disease or Syndrome
Meckel syndrome is a disorder with severe signs and symptoms that affect many parts of the body. The most common features are enlarged kidneys with numerous fluid-filled cysts; an occipital encephalocele, which is a sac-like protrusion of the brain through an opening at the back of the skull; and the presence of extra fingers and toes (polydactyly). Most affected individuals also have a buildup of scar tissue (fibrosis) in the liver.\n\nOther signs and symptoms of Meckel syndrome vary widely among affected individuals. Numerous abnormalities of the brain and spinal cord (central nervous system) have been reported in people with Meckel syndrome, including a group of birth defects known as neural tube defects. These defects occur when a structure called the neural tube, a layer of cells that ultimately develops into the brain and spinal cord, fails to close completely during the first few weeks of embryonic development. Meckel syndrome can also cause problems with development of the eyes and other facial features, heart, bones, urinary system, and genitalia.\n\nBecause of their serious health problems, most individuals with Meckel syndrome die before or shortly after birth. Most often, affected infants die of respiratory problems or kidney failure.
Meckel syndrome, type 1
MedGen UID:
811346
Concept ID:
C3714506
Disease or Syndrome
Meckel syndrome, also known as Meckel-Gruber syndrome, is a severe pleiotropic autosomal recessive developmental disorder caused by dysfunction of primary cilia during early embryogenesis. There is extensive clinical variability and controversy as to the minimum diagnostic criteria. Early reports, including that of Opitz and Howe (1969) and Wright et al. (1994), stated that the classic triad of Meckel syndrome comprises (1) cystic renal disease; (2) a central nervous system malformation, most commonly occipital encephalocele; and (3) polydactyly, most often postaxial. However, based on a study of 67 patients, Salonen (1984) concluded that the minimum diagnostic criteria are (1) cystic renal disease; (2) CNS malformation, and (3) hepatic abnormalities, including portal fibrosis or ductal proliferation. In a review of Meckel syndrome, Logan et al. (2011) stated that the classic triad first described by Meckel (1822) included occipital encephalocele, cystic kidneys, and fibrotic changes to the liver. Genetic Heterogeneity of Meckel Syndrome See also MKS2 (603194), caused by mutation in the TMEM216 gene (613277) on chromosome 11q12; MKS3 (607361), caused by mutation in the TMEM67 gene (609884) on chromosome 8q; MKS4 (611134), caused by mutation in the CEP290 gene (610142) on chromosome 12q; MKS5 (611561), caused by mutation in the RPGRIP1L gene (610937) on chromosome 16q12; MKS6 (612284), caused by mutation in the CC2D2A gene (612013) on chromosome 4p15; MKS7 (267010), caused by mutation in the NPHP3 (608002) gene on chromosome 3q22; MKS8 (613885), caused by mutation in the TCTN2 gene (613846) on chromosome 12q24; MKS9 (614209), caused by mutation in the B9D1 gene (614144) on chromosome 17p11; MKS10 (614175), caused by mutation in the B9D2 gene (611951) on chromosome 19q13; MKS11 (615397), caused by mutation in the TMEM231 gene (614949) on chromosome 16q23; MKS12 (616258), caused by mutation in the KIF14 gene (611279) on chromosome 1q32; MKS13 (617562), caused by mutation in the TMEM107 gene (616183) on chromosome 17p13; and MKS14 (619879), caused by mutation in the TXNDC15 gene (617778) on chromosome 5q31.
Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A13
MedGen UID:
815372
Concept ID:
C3809042
Disease or Syndrome
Congenital muscular dystrophy-dystroglycanopathy with brain and eye anomalies (type A) is a autosomal recessive disorder associated with severe neurologic defects and resulting in early infantile death. The phenotype includes the alternative clinical designations Walker-Warburg syndrome (WWS) and muscle-eye-brain disease (MEB). The disorder represents the most severe end of a phenotypic spectrum of similar disorders resulting from defective glycosylation of alpha-dystroglycan (DAG1; 128239), collectively known as dystroglycanopathies (summary by Buysse et al., 2013). For a general phenotypic description and a discussion of genetic heterogeneity of muscular dystrophy-dystroglycanopathy type A, see MDDGA1 (236670).
Neural tube defects, susceptibility to
MedGen UID:
856010
Concept ID:
C3891448
Finding
Neural tube defects are the second most common type of birth defect after congenital heart defects. The 2 most common NTDs are open spina bifida, also known as spina bifida cystica (SBC) or myelomeningocele, and anencephaly (see 206500) (Detrait et al., 2005). Spina bifida occulta (SBO), a bony defect of the spine covered by normal skin, is a mild form of spina bifida that is often asymptomatic. The term 'spinal dysraphia' refers to both SBC and SBO (Botto et al., 1999; Fineman et al., 1982). The most severe neural tube defect, craniorachischisis (CRN), leaves the neural tube open from the midbrain or rostral hindbrain to the base of the spine (summary by Robinson et al., 2012). Neural tube defects represent a complex trait with multifactorial etiology encompassing both genetic and environmental components (summary by Bartsch et al., 2012 and Lei et al., 2014). An X-linked form of spina bifida has been suggested; see 301410. See also folate-sensitive neural tube defects (601634), which are caused by genes involved in folate metabolism.
Short-rib thoracic dysplasia 14 with polydactyly
MedGen UID:
901479
Concept ID:
C4225286
Disease or Syndrome
Short-rib thoracic dysplasia (SRTD) with or without polydactyly refers to a group of autosomal recessive skeletal ciliopathies that are characterized by a constricted thoracic cage, short ribs, shortened tubular bones, and a 'trident' appearance of the acetabular roof. SRTD encompasses Ellis-van Creveld syndrome (EVC) and the disorders previously designated as Jeune syndrome or asphyxiating thoracic dystrophy (ATD), short rib-polydactyly syndrome (SRPS), and Mainzer-Saldino syndrome (MZSDS). Polydactyly is variably present, and there is phenotypic overlap in the various forms of SRTDs, which differ by visceral malformation and metaphyseal appearance. Nonskeletal involvement can include cleft lip/palate as well as anomalies of major organs such as the brain, eye, heart, kidneys, liver, pancreas, intestines, and genitalia. Some forms of SRTD are lethal in the neonatal period due to respiratory insufficiency secondary to a severely restricted thoracic cage, whereas others are compatible with life (summary by Huber and Cormier-Daire, 2012 and Schmidts et al., 2013). There is phenotypic overlap with the cranioectodermal dysplasias (Sensenbrenner syndrome; see CED1, 218330). For a discussion of genetic heterogeneity of short-rib thoracic dysplasia with or without polydactyly, see SRTD1 (208500).
Chromosome 13q33-q34 deletion syndrome
MedGen UID:
1744234
Concept ID:
C5436890
Disease or Syndrome
Chromosome 13q33-q34 deletion syndrome is associated with developmental delay and/or impaired intellectual development, facial dysmorphism, and an increased risk for epilepsy, cardiac defects and additional anatomic anomalies (summary by Sagi-Dain et al., 2019).
Anencephaly 1
MedGen UID:
1794138
Concept ID:
C5561928
Congenital Abnormality
Anencephaly is characterized by the absence of cranial vault and brain tissues in the fetus. It is considered an extreme form of neural tube defect (182940) (summary by Singh et al., 2017). Genetic Heterogeneity of Anencephaly See also anencephaly-2 (ANPH2; 619452), caused by mutation in the NUAK12 gene (608131) on chromosome 1q32.
Anencephaly 2
MedGen UID:
1794155
Concept ID:
C5561945
Congenital Abnormality
Anencephaly-2 (ANPH2) is a severe neural tube defect caused by failure of neural tube closure anteriorly. Features in addition to anencephaly may include frontonasal dysplasia with midline cleft of the upper lip and alveolar ridge, bifid nose, and clinical anophthalmia. For a discussion of genetic heterogeneity of anencephaly, see ANPH1 (206500).

Professional guidelines

PubMed

Kancherla V
Childs Nerv Syst 2023 Jul;39(7):1703-1710. Epub 2023 Mar 8 doi: 10.1007/s00381-023-05910-7. PMID: 36882610
Obstet Gynecol 2017 Dec;130(6):e279-e290. doi: 10.1097/AOG.0000000000002412. PMID: 29189693
Wilson RD; SOGC GENETICS COMMITTEE; SPECIAL CONTRIBUTOR
J Obstet Gynaecol Can 2014 Oct;36(10):927-939. doi: 10.1016/S1701-2163(15)30444-8. PMID: 25375307

Recent clinical studies

Etiology

Avagliano L, Massa V, George TM, Qureshy S, Bulfamante GP, Finnell RH
Birth Defects Res 2019 Nov 15;111(19):1455-1467. Epub 2018 Nov 12 doi: 10.1002/bdr2.1380. PMID: 30421543Free PMC Article
Holmes LB, Toufaily MH, Westgate MN
Birth Defects Res 2018 Jan;110(2):128-133. doi: 10.1002/bdr2.1082. PMID: 29377645
Greene ND, Copp AJ
Annu Rev Neurosci 2014;37:221-42. doi: 10.1146/annurev-neuro-062012-170354. PMID: 25032496Free PMC Article
Willke JC, Andrusko D
Hastings Cent Rep 1988 Oct-Nov;18(5):30-3. PMID: 3066787
Duff P
Obstet Gynecol 1981 Jan;57(1):105-12. PMID: 7005774

Diagnosis

Guerrero J, Heller DS, de Leon AB
Fetal Pediatr Pathol 2021 Oct;40(5):501-504. Epub 2020 Jan 27 doi: 10.1080/15513815.2020.1716282. PMID: 31986946
Society for Maternal-Fetal Medicine, Monteagudo A
Am J Obstet Gynecol 2020 Dec;223(6):B5-B8. Epub 2020 Nov 7 doi: 10.1016/j.ajog.2020.08.176. PMID: 33168213
Avagliano L, Massa V, George TM, Qureshy S, Bulfamante GP, Finnell RH
Birth Defects Res 2019 Nov 15;111(19):1455-1467. Epub 2018 Nov 12 doi: 10.1002/bdr2.1380. PMID: 30421543Free PMC Article
James WH
Ann Hum Biol 1976 Sep;3(5):401-9. doi: 10.1080/03014467600001661. PMID: 988778
Chaurasia BD, Dharker SR
Anat Anz 1976;140(5):514-9. PMID: 828460

Therapy

Kancherla V
Childs Nerv Syst 2023 Jul;39(7):1703-1710. Epub 2023 Mar 8 doi: 10.1007/s00381-023-05910-7. PMID: 36882610
Obstet Gynecol 2017 Dec;130(6):e279-e290. doi: 10.1097/AOG.0000000000002412. PMID: 29189693
Chitayat D, Matsui D, Amitai Y, Kennedy D, Vohra S, Rieder M, Koren G
J Clin Pharmacol 2016 Feb;56(2):170-5. Epub 2015 Nov 5 doi: 10.1002/jcph.616. PMID: 26272218Free PMC Article
Greene ND, Copp AJ
Annu Rev Neurosci 2014;37:221-42. doi: 10.1146/annurev-neuro-062012-170354. PMID: 25032496Free PMC Article
Copp AJ, Stanier P, Greene ND
Lancet Neurol 2013 Aug;12(8):799-810. Epub 2013 Jun 19 doi: 10.1016/S1474-4422(13)70110-8. PMID: 23790957Free PMC Article

Prognosis

Avagliano L, Massa V, George TM, Qureshy S, Bulfamante GP, Finnell RH
Birth Defects Res 2019 Nov 15;111(19):1455-1467. Epub 2018 Nov 12 doi: 10.1002/bdr2.1380. PMID: 30421543Free PMC Article
Chitayat D, Matsui D, Amitai Y, Kennedy D, Vohra S, Rieder M, Koren G
J Clin Pharmacol 2016 Feb;56(2):170-5. Epub 2015 Nov 5 doi: 10.1002/jcph.616. PMID: 26272218Free PMC Article
Wilkinson D, de Crespigny L, Xafis V
Semin Fetal Neonatal Med 2014 Oct;19(5):306-11. Epub 2014 Sep 5 doi: 10.1016/j.siny.2014.08.007. PMID: 25200733Free PMC Article
Sandler AD
Pediatr Clin North Am 2010 Aug;57(4):879-92. doi: 10.1016/j.pcl.2010.07.009. PMID: 20883878
Duff P
Obstet Gynecol 1981 Jan;57(1):105-12. PMID: 7005774

Clinical prediction guides

Stallings EB, Isenburg JL, Rutkowski RE, Kirby RS, Nembhard WN, Sandidge T, Villavicencio S, Nguyen HH, McMahon DM, Nestoridi E, Pabst LJ; National Birth Defects Prevention Network
Birth Defects Res 2024 Jan;116(1):e2301. doi: 10.1002/bdr2.2301. PMID: 38277408Free PMC Article
Anderson KN, Lind JN, Simeone RM, Bobo WV, Mitchell AA, Riehle-Colarusso T, Polen KN, Reefhuis J
JAMA Psychiatry 2020 Dec 1;77(12):1246-1255. doi: 10.1001/jamapsychiatry.2020.2453. PMID: 32777011Free PMC Article
Lee S, Gleeson JG
Trends Neurosci 2020 Jul;43(7):519-532. Epub 2020 May 15 doi: 10.1016/j.tins.2020.04.009. PMID: 32423763Free PMC Article
Mai CT, Isenburg JL, Canfield MA, Meyer RE, Correa A, Alverson CJ, Lupo PJ, Riehle-Colarusso T, Cho SJ, Aggarwal D, Kirby RS; National Birth Defects Prevention Network
Birth Defects Res 2019 Nov 1;111(18):1420-1435. Epub 2019 Oct 3 doi: 10.1002/bdr2.1589. PMID: 31580536Free PMC Article
Chitayat D, Matsui D, Amitai Y, Kennedy D, Vohra S, Rieder M, Koren G
J Clin Pharmacol 2016 Feb;56(2):170-5. Epub 2015 Nov 5 doi: 10.1002/jcph.616. PMID: 26272218Free PMC Article

Recent systematic reviews

Tesfay N, Hailu G, Habtetsion M, Woldeyohannes F
BMJ Open 2023 Nov 7;13(11):e077685. doi: 10.1136/bmjopen-2023-077685. PMID: 37940152Free PMC Article
Eaves LA, Choi G, Hall E, Sillé FCM, Fry RC, Buckley JP, Keil AP
Environ Health Perspect 2023 Aug;131(8):86002. Epub 2023 Aug 30 doi: 10.1289/EHP11872. PMID: 37647124Free PMC Article
Salari N, Fatahi B, Fatahian R, Mohammadi P, Rahmani A, Darvishi N, Keivan M, Shohaimi S, Mohammadi M
Reprod Health 2022 Oct 17;19(1):201. doi: 10.1186/s12978-022-01509-4. PMID: 36253858Free PMC Article
Oumer M, Kibret AA, Girma A, Tazebew A, Silamsaw M
Sci Rep 2021 Dec 9;11(1):23707. doi: 10.1038/s41598-021-02966-w. PMID: 34887455Free PMC Article
Mansfield C, Hopfer S, Marteau TM
Prenat Diagn 1999 Sep;19(9):808-12. PMID: 10521836

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