Epileptogenic brain malformations: radiological and clinical presentation and indications for genetic testing

Epileptogenic brain malformations: radiological and clinical presentation and indications for genetic testing

Malformations of cortical development (MCD) represent a major cause of developmental disabilities and severe epilepsy. Advances in imaging and genetics have improved the diagnosis and classification of these conditions. Up to now, eight genes have been involved in different types of MCD. Lissencepha...

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Veröffentlicht in:Revue neurologique 2008-12, Vol.164 (12), p.995-1009
Hauptverfasser: Bahi-Buisson, N, Boddaert, N, Saillour, Y, Souville, I, Poirier, K, Léger, P-L, Castelnau, L, Plouin, P, Carion, N, Beldjord, C, Chelly, J
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Adult
Cerebellum - diagnostic imaging
Cerebellum - pathology
Classical Lissencephalies and Subcortical Band Heterotopias - diagnostic imaging
Classical Lissencephalies and Subcortical Band Heterotopias - genetics
Classical Lissencephalies and Subcortical Band Heterotopias - pathology
Contractile Proteins - genetics
Epilepsy - diagnostic imaging
Epilepsy - genetics
Epilepsy - pathology
Female
Filamins
Humans
Lissencephaly - diagnostic imaging
Lissencephaly - genetics
Lissencephaly - pathology
Male
Malformations of Cortical Development - diagnostic imaging
Malformations of Cortical Development - genetics
Malformations of Cortical Development - pathology
Microfilament Proteins - genetics
Mutation - physiology
Pregnancy
Prenatal Diagnosis
Radiography
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container_end_page 1009
container_issue 12
container_start_page 995
container_title Revue neurologique
container_volume 164
creator Bahi-Buisson, N
Boddaert, N
Saillour, Y
Souville, I
Poirier, K
Léger, P-L
Castelnau, L
Plouin, P
Carion, N
Beldjord, C
Chelly, J
description Malformations of cortical development (MCD) represent a major cause of developmental disabilities and severe epilepsy. Advances in imaging and genetics have improved the diagnosis and classification of these conditions. Up to now, eight genes have been involved in different types of MCD. Lissencephaly-pachygyria and subcortical band heterotopia (SBH) represent a malformative spectrum resulting from mutations of either LIS1 or DCX genes. LIS1 mutations cause a more severe malformation in the posterior brain regions. DCX mutations usually cause anteriorly predominant lissencephaly in males and SBH in female patients. Additional forms are X-linked lissencephaly with corpus callosum agenesis and ambiguous genitalia associated with mutations of the ARX gene. Lissencephaly with cerebellar hypoplasia (LCH) encompass heterogeneous disorders named LCH type a to d. LCHa are related with mutation in LIS1 or DCX, LCHb with mutation of RELN gene, and LCHd could be related with TUBA1A gene. Polymicrogyria encompass a wide range of clinical, aetiological and histological findings. Among several syndromes, recessive bilateral fronto-parietal polymicrogyria has been associated with mutations of the GPR56 gene. Bilateral perisylvian polymicrogyria showed a linkage to chromosome Xq28 in some pedigrees, and mutations in SRPX2 gene in others conditions. X-linked bilateral periventricular nodular heterotopia (BPNH) consists of BPNH with focal epilepsy in females and prenatal lethality in males. Filamin A (FLNA) mutations have been reported in some families and in sporadic patients. It is possible to infer the most likely causative gene by brain imaging studies and other clinical findings. Based on this experience, a detailed phenotype analysis is needed to develop the most efficient research on MCD in the future.
doi_str_mv 10.1016/j.neurol.2008.04.006
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Among several syndromes, recessive bilateral fronto-parietal polymicrogyria has been associated with mutations of the GPR56 gene. Bilateral perisylvian polymicrogyria showed a linkage to chromosome Xq28 in some pedigrees, and mutations in SRPX2 gene in others conditions. X-linked bilateral periventricular nodular heterotopia (BPNH) consists of BPNH with focal epilepsy in females and prenatal lethality in males. Filamin A (FLNA) mutations have been reported in some families and in sporadic patients. It is possible to infer the most likely causative gene by brain imaging studies and other clinical findings. 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Among several syndromes, recessive bilateral fronto-parietal polymicrogyria has been associated with mutations of the GPR56 gene. Bilateral perisylvian polymicrogyria showed a linkage to chromosome Xq28 in some pedigrees, and mutations in SRPX2 gene in others conditions. X-linked bilateral periventricular nodular heterotopia (BPNH) consists of BPNH with focal epilepsy in females and prenatal lethality in males. Filamin A (FLNA) mutations have been reported in some families and in sporadic patients. It is possible to infer the most likely causative gene by brain imaging studies and other clinical findings. 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Advances in imaging and genetics have improved the diagnosis and classification of these conditions. Up to now, eight genes have been involved in different types of MCD. Lissencephaly-pachygyria and subcortical band heterotopia (SBH) represent a malformative spectrum resulting from mutations of either LIS1 or DCX genes. LIS1 mutations cause a more severe malformation in the posterior brain regions. DCX mutations usually cause anteriorly predominant lissencephaly in males and SBH in female patients. Additional forms are X-linked lissencephaly with corpus callosum agenesis and ambiguous genitalia associated with mutations of the ARX gene. Lissencephaly with cerebellar hypoplasia (LCH) encompass heterogeneous disorders named LCH type a to d. LCHa are related with mutation in LIS1 or DCX, LCHb with mutation of RELN gene, and LCHd could be related with TUBA1A gene. Polymicrogyria encompass a wide range of clinical, aetiological and histological findings. Among several syndromes, recessive bilateral fronto-parietal polymicrogyria has been associated with mutations of the GPR56 gene. Bilateral perisylvian polymicrogyria showed a linkage to chromosome Xq28 in some pedigrees, and mutations in SRPX2 gene in others conditions. X-linked bilateral periventricular nodular heterotopia (BPNH) consists of BPNH with focal epilepsy in females and prenatal lethality in males. Filamin A (FLNA) mutations have been reported in some families and in sporadic patients. It is possible to infer the most likely causative gene by brain imaging studies and other clinical findings. Based on this experience, a detailed phenotype analysis is needed to develop the most efficient research on MCD in the future.</abstract><cop>France</cop><pmid>18808783</pmid><doi>10.1016/j.neurol.2008.04.006</doi><tpages>15</tpages></addata></record>
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subjects Adult
Cerebellum - diagnostic imaging
Cerebellum - pathology
Classical Lissencephalies and Subcortical Band Heterotopias - diagnostic imaging
Classical Lissencephalies and Subcortical Band Heterotopias - genetics
Classical Lissencephalies and Subcortical Band Heterotopias - pathology
Contractile Proteins - genetics
Epilepsy - diagnostic imaging
Epilepsy - genetics
Epilepsy - pathology
Female
Filamins
Humans
Lissencephaly - diagnostic imaging
Lissencephaly - genetics
Lissencephaly - pathology
Male
Malformations of Cortical Development - diagnostic imaging
Malformations of Cortical Development - genetics
Malformations of Cortical Development - pathology
Microfilament Proteins - genetics
Mutation - physiology
Pregnancy
Prenatal Diagnosis
Radiography
title Epileptogenic brain malformations: radiological and clinical presentation and indications for genetic testing
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