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01-11-2006 | Original Article

Microstructural development of human brain assessed in utero by diffusion tensor imaging

Authors: Tony Bui, Jean-Luc Daire, François Chalard, Isabelle Zaccaria, Corinne Alberti, Monique Elmaleh, Catherine Garel, Dominique Luton, Nathalie Blanc, Guy Sebag

Published in: Pediatric Radiology | Issue 11/2006

Abstract

Background

Diffusion-weighted MR imaging (DWI) has been shown to be a great tool to assess white matter development in normal infants. Comparison of cerebral diffusion properties between preterm infants and fetuses of corresponding ages should assist in determining the impact of premature ex utero life on brain maturation.

Objective

To assess in utero maturation-dependent microstructural changes of fetal cerebral white matter using diffusion tensor MR imaging.

Materials and methods

An echoplanar sequence with diffusion gradient (b=700 s/mm²) applied in six non-colinear directions was performed between 31 and 37⁺³ weeks of gestation in 24 fetuses without cerebral abnormality on T1- and T2-weighted images. Apparent diffusion coefficient (ADC) and fractional anisotropy (FA) were measured in the white matter.

Results

Mean ADC values were 1.8 μm²/ms in the centrum semiovale, 1.2 μm²/ms in the splenium of the corpus callosum and 1.1 μm²/ms in the pyramidal tract. The paired Wilcoxon rank test showed significant differences in ADC between these three white matter regions. Mean FA values were 1.1%, 3.8% and 4.7%, respectively, in the centrum semiovale, corpus callosum and pyramidal tract. A significant age-related decrease in ADC and an increase in FA towards term were demonstrated in the pyramidal tract and corpus callosum.

Conclusion

Diffusion tensor imaging in utero can provide a quantitative assessment of the microstructural development of fetal white matter. Anisotropic parameters of the diffusion tensor should improve with technical advances.

Forbes KPN, Pipe JG, Bird R, et al (2002) Changes in brain water diffusion during the first year of life. Radiology 222:405–409PubMedCrossRef

Nomura Y, Sakuma H, Takeda K, et al (1994) Diffusional anisotropy of the human brain assessed with diffusion-weighted MR: relation with normal brain development and aging. AJNR 15:231–238PubMed

Schmithorst VJ, Wilke M, Dardzinski BJ, et al (2002) Correlation of white matter diffusivity and anisotropy with age during childhood and adolescence: a cross-sectional diffusion-tensor MR imaging study. Radiology 222:212–218PubMedCrossRef

Samuka H, Nomura Y, Takeda K, et al (1991) Adult and neonatal human brain: diffusional anisotropy and myelination with diffusion-weighted MR imaging. Radiology 180:229–233

Pierpaoli C, Jezzard P, Basser PJ, et al (1996) Diffusion tensor MR imaging of the human brain. Radiology 201:637–648PubMed

Helenius J, Soinne L, Perkiö J, et al (2002) Diffusion-weighted MR imaging in normal brains in various age groups. AJNR 23:194–199PubMed

Engelbrecht V, Scherer A, Rassek M, et al (2002) Diffusion-weighted MR imaging in the brain in children: findings in the normal brain and in the brain with white matter diseases. Radiology 222:410–418PubMedCrossRef

Toft PB, Leth H, Peitersen B, et al (1996) The apparent diffusion coefficient of water in gray and white matter of the infant brain. J Comput Assist Tomogr 20:1006–1011PubMedCrossRef

Prayer D, Prayer L (2003) Diffusion-weighted magnetic resonance imaging of cerebral white matter development. Eur J Radiol 45:235–243PubMedCrossRef

10.

Hüppi PS, Maier SE, Peled S, et al (1998) Microstructural development of human newborn cerebral white matter assessed in vivo by diffusion tensor magnetic resonance imaging. Pediatr Res 44:584–590PubMedCrossRef

11.

Gressens P, Luton D (2004) Fetal MRI: obstetrical and neurological perspectives. Pediatr Radiol 34(9):682–684PubMedCrossRef

12.

Neil J, Shiran S, McKinstry RC, et al (1998) Normal brain in human newborns: apparent diffusion coefficient and diffusion anisotropy measured by using diffusion tensor MR imaging. Radiology 209:57–66PubMed

13.

Tanner SF, Ragmenghi LA, Ridgway JP, et al (2000) Quantitative comparison of intrabrain diffusion in adults and preterm and term neonates and infants. AJR 174:1643–1649PubMed

14.

Miller SP, Vigneron DB, Henry RG, et al (2002) Serial quantitative diffusion tensor MRI of the premature brain: development in newborns with and without injury. J Magn Reson Imaging 16:621–632PubMedCrossRef

15.

Righini A, Bianchini E, Parazzini C, et al (2003) Apparent diffusion coefficient determination in normal fetal brain: a prenatal MR imaging study. AJNR 24:799–804PubMed

16.

Vergani P, Locatelli A, Strobelt N, et al (1998) Clinical outcome of mild fetal ventriculomegaly. Am J Obstet Gynecol 178:218–222PubMedCrossRef

17.

Bromley B, Frigoletto FD, Benacerraf BR, et al (1991) Mild lateral cerebral ventriculomegaly: clinical course and outcome. Am J Obstet Gynecol 164:863–867PubMed

18.

Baker PN, Johnson IR, Harvey PR, et al (1993) A three-year follow-up of children imaged in utero with echo-planar magnetic resonance. Am J Obstet Gynecol 170:32–33

19.

Baldoli C, Righini A, Parazzini C, et al (2002) Demonstration of acute ischemic lesions in the fetal brain by diffusion magnetic resonance imaging. Ann Neurol 52:243–246PubMedCrossRef

20.

Ito R, Mori S, Melhem ER, et al (2002) Diffusion tensor brain imaging and tractography. Neuroimaging Clin N Am 12(1):1–19PubMedCrossRef

21.

Barkovich AJ (2000) Concepts of myelin and myelination in neuroradiology. AJNR 21:1099–1109PubMed

22.

Wimberger DM, Roberts TP, Barkovich AJ, et al (1995) Identification of “premyelination” by diffusion-weighted MRI. J Comput Assist Tomogr 19:28–33PubMedCrossRef

23.

Prayer D, Barkovich AJ, Kirschner A, et al (2001) Visualization of nonstructural changes in early white matter development on diffusion-weighted MR images: evidence supporting premyelination anisotropy. AJNR 22:1572–1576PubMed

24.

Baratti C, Barnett AS, Pierpaoli C, et al (1999) Comparison MR imaging study of brain maturation in kittens with T1, T2, and the trace of the diffusion tensor. Radiology 210:133–142PubMed

25.

Takeda K, Nomura Y, Sakuma H, et al (1997) MR assessment of normal brain development in neonates and infants: comparative study of T1- and diffusion-weighted images. J Comput Assist Tomogr 21:1–7PubMedCrossRef

Title: Microstructural development of human brain assessed in utero by diffusion tensor imaging
Authors: Tony Bui
Jean-Luc Daire
François Chalard
Isabelle Zaccaria
Corinne Alberti
Monique Elmaleh
Catherine Garel
Dominique Luton
Nathalie Blanc
Guy Sebag
Publication date: 01-11-2006
Publisher: Springer-Verlag
Published in: Pediatric Radiology / Issue 11/2006
Print ISSN: 0301-0449
Electronic ISSN: 1432-1998
DOI: https://doi.org/10.1007/s00247-006-0266-3

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Springer Medicine

Microstructural development of human brain assessed in utero by diffusion tensor imaging

Abstract

Background

Objective

Materials and methods

Results

Conclusion

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background

Objective

Materials and methods

Results

Conclusion

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