Neural tube defects and folate: Case far from closed

Henk J. Blom; Gary M. Shaw; Martin Den Heijer; Richard H. Finnell

doi:https://doi.org/10.1038/nrn1986

Neural tube defects and folate: Case far from closed

Henk J. Blom, Gary M. Shaw, Martin Den Heijer, Richard H. Finnell

Internal Medicine (VUmc)

Research output: Contribution to journal › Review article › Academic › peer-review

425 Citations (Scopus)

Abstract

Neural tube closure takes place during early embryogenesis and requires interactions between genetic and environmental factors. Failure of neural tube closure is a common congenital malformation that results in morbidity and mortality. A major clinical achievement has been the use of periconceptional folic acid supplements, which prevents ∼50-75% of cases of neural tube defects. However, the mechanism underlying the beneficial effects of folic acid is far from clear. Biochemical, genetic and epidemiological observations have led to the development of the methylation hypothesis, which suggests that folic acid prevents neural tube defects by stimulating cellular methylation reactions. Exploring the methylation hypothesis could direct us towards additional strategies to prevent neural tube defects.

Original language	English
Pages (from-to)	724-731
Number of pages	8
Journal	Nature Reviews Neuroscience
Volume	7
Issue number	9
DOIs	https://doi.org/10.1038/nrn1986
Publication status	Published - Sept 2006

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title = "Neural tube defects and folate: Case far from closed",

abstract = "Neural tube closure takes place during early embryogenesis and requires interactions between genetic and environmental factors. Failure of neural tube closure is a common congenital malformation that results in morbidity and mortality. A major clinical achievement has been the use of periconceptional folic acid supplements, which prevents ∼50-75% of cases of neural tube defects. However, the mechanism underlying the beneficial effects of folic acid is far from clear. Biochemical, genetic and epidemiological observations have led to the development of the methylation hypothesis, which suggests that folic acid prevents neural tube defects by stimulating cellular methylation reactions. Exploring the methylation hypothesis could direct us towards additional strategies to prevent neural tube defects.",

author = "Blom, {Henk J.} and Shaw, {Gary M.} and {Den Heijer}, Martin and Finnell, {Richard H.}",

note = "Funding Information: We gratefully acknowledge I. van der Linden for her critical comments and valuable support. Our work is supported by grants from the Princess Beatrix Fund and the National Institutes of Health (National Institute of Neurological Disorders and Stroke).",

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AU - Blom, Henk J.

AU - Shaw, Gary M.

AU - Den Heijer, Martin

AU - Finnell, Richard H.

N1 - Funding Information: We gratefully acknowledge I. van der Linden for her critical comments and valuable support. Our work is supported by grants from the Princess Beatrix Fund and the National Institutes of Health (National Institute of Neurological Disorders and Stroke).

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N2 - Neural tube closure takes place during early embryogenesis and requires interactions between genetic and environmental factors. Failure of neural tube closure is a common congenital malformation that results in morbidity and mortality. A major clinical achievement has been the use of periconceptional folic acid supplements, which prevents ∼50-75% of cases of neural tube defects. However, the mechanism underlying the beneficial effects of folic acid is far from clear. Biochemical, genetic and epidemiological observations have led to the development of the methylation hypothesis, which suggests that folic acid prevents neural tube defects by stimulating cellular methylation reactions. Exploring the methylation hypothesis could direct us towards additional strategies to prevent neural tube defects.

AB - Neural tube closure takes place during early embryogenesis and requires interactions between genetic and environmental factors. Failure of neural tube closure is a common congenital malformation that results in morbidity and mortality. A major clinical achievement has been the use of periconceptional folic acid supplements, which prevents ∼50-75% of cases of neural tube defects. However, the mechanism underlying the beneficial effects of folic acid is far from clear. Biochemical, genetic and epidemiological observations have led to the development of the methylation hypothesis, which suggests that folic acid prevents neural tube defects by stimulating cellular methylation reactions. Exploring the methylation hypothesis could direct us towards additional strategies to prevent neural tube defects.

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Neural tube defects and folate: Case far from closed

Abstract

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