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01-11-2013 | Original Article

Shape and curvedness analysis of brain morphology using human fetal magnetic resonance images in utero

Authors: Hui-Hsin Hu, Hui-Yun Chen, Chih-I Hung, Wan-Yuo Guo, Yu-Te Wu

Published in: Brain Structure and Function | Issue 6/2013

Abstract

The 3-D morphological change has gained increasing significance in recent investigations on human fetal brains. This study uses a pair of new indices, the shape index (SI) and curvedness index (CVD), to quantify 3-D morphological changes in developing brains from 22 to 33 weeks of gestation. The SI was used to automatically locate the gyral nodes and sulcal pits, and the CVD was used to measure the degree of deviation of cortical shapes from a flat plane. The CVD values of classified regions were compared with two traditional biomarkers: cerebral volume and cortical surface area. Because the fetal brains dramatically deform with age, the age effect was controlled during the comparison between morphological changes and volume and surface area. The results show that cerebral volume, the cortical surface area, and the CVD values of gyral nodes and sulcal pits increased with gestational age. However, with age controlled, the CVD values of gyral nodes and sulcal pits did not correlate with cerebral volume, but the CVD of gyral nodes increased slightly with the cortical surface area. These findings suggest that the SI, in conjunction with the CVD, provides developmental information distinct from the brain volumetry. This approach provides additional insight into 3-D cortical morphology in the assessment of fetal brain development.

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Awate SP, Yushkevich PA, Song Z, Licht DJ, Gee JC (2010) Cerebral cortical folding analysis with multivariate modeling and testing: studies on gender differences and neonatal development. Neuroimage 53:450–459PubMedCrossRef

Batchelor PG, Castellano Smith AD, Hill DL, Hawkes DJ, Cox TC, Dean AF (2002) Measures of folding applied to the development of the human fetal brain. IEEE Trans Med Imaging 21:953–965PubMedCrossRef

Bradley WG, Daroff RB, Fenichel GM, Marsden CD (1991) Neurology in clinical practice. Butterworths, Boston

Clouchoux C, Kudelski D, Gholipour A, Warfield SK, Viseur S, Bouyssi-Kobar M, Mari JL, Evans AC, du Plessis AJ, Limperopoulos C (2012) Quantitative in vivo MRI measurement of cortical development in the fetus. Brain Struct Funct 217:127–139PubMedCrossRef

Corbett-Detig J, Habas PA, Scott JA, Kim K, Rajagopalan V, McQuillen PS, Barkovich AJ, Glenn OA, Studholme C (2011) 3D global and regional patterns of human fetal subplate growth determined in utero. Brain Struct Funct 215:255–263

Dubois J, Benders M, Borradori-Tolsa C, Cachia A, Lazeyras F, Ha-Vinh Leuchter R, Sizonenko SV, Warfield SK, Mangin JF, Huppi PS (2008) Primary cortical folding in the human newborn: an early marker of later functional development. Brain 131:2028–2041PubMedCrossRef

Garel C (2004) MRI of the fetal brain. Springer, New YorkCrossRef

Habas PA, Kim K, Corbett-Detig JM, Rousseau F, Glenn OA, Barkovich AJ, Studholme C (2010a) A spatiotemporal atlas of MR intensity, tissue probability and shape of the fetal brain with application to segmentation. Neuroimage 53:460–470PubMedCrossRef

Habas PA, Kim K, Rousseau F, Glenn OA, Barkovich AJ, Studholme C (2010b) Atlas-based segmentation of developing tissues in the human brain with quantitative validation in young fetuses. Hum Brain Mapp 31:1348–1358PubMedCrossRef

Habas PA, Scott JA, Roosta A, Rajagopalan V, Kim K, Rousseau F, Barkovich AJ, Glenn OA, Studholme C (2012) Early folding patterns and asymmetries of the normal human brain detected from in utero MRI. Cereb Cortex 22:13–25PubMedCrossRef

Hu HH, Hung CI, Wu YT, Chen HY, Hsieh JC, Guo WY (2011) Regional quantification of developing human cortical shape using a three-dimensional surface-based MRI analysis in utero. Eur J Neurosci 34:1310–1319PubMedCrossRef

Kasprian G, Brugger PC, Weber M, Krssák M, Krampl E, Herold C, Prayer D (2008) In utero tractography of fetal white matter development. NeuroImage 43:213–224

Kim K, Habas PA, Rousseau F, Glenn OA, Barkovich AJ, Studholme C (2010) Intersection based motion correction of multislice MRI for 3-D in utero fetal brain image formation. IEEE Trans Med Imaging 29:146–158PubMedCrossRef

Koenderink JJ, van Doorn AJ (1992) Surface shape and curvature scales. Image Vis Comput 10:557–565CrossRef

Le Gros Clark W (1945) Defoemation patterns on the cerebral cortex: in essays on growth and form. Oxford University Press, Oxford

Li K, Guo L, Li G, Nie J, Faraco C, Cui G, Zhao Q, Miller LS, Liu T (2010) Gyral folding pattern analysis via surface profiling. Neuroimage 52:1202–1214PubMedCrossRef

Lindblad J (2005) Surface area estimation of digitized 3D objects using weighted local configurations. Image Vis Comput 23:111–122CrossRef

Luders E, Thompson PM, Narr KL, Toga AW, Jancke L, Gaser C (2006) A curvature-based approach to estimate local gyrification on the cortical surface. Neuroimage 29:1224–1230PubMedCrossRef

Rajagopalan V, Scott J, Habas PA, Kim K, Corbett-Detig J, Rousseau F, Barkovich AJ, Glenn OA, Studholme C (2011) Local tissue growth patterns underlying normal fetal human brain gyrification quantified in utero. J Neurosci 31:2878–2887PubMedCrossRef

Rodriguez-Carranza CE, Mukherjee P, Vigneron D, Barkovich J, Studholme C (2008) A framework for in vivo quantification of regional brain folding in premature neonates. Neuroimage 41:462–478PubMedCrossRef

Rousseau F, Glenn OA, Iordanova B, Rodriguez-Carranza C, Vigneron DB, Barkovich JA, Studholme C (2006) Registration-based approach for reconstruction of high-resolution in utero fetal MR brain images. Acad Radiol 13:1072–1081PubMedCrossRef

Spaggiari E, Vuillard E, Khung‐Savatovsky S, Muller F, Oury JF, Delezoide AL, Guimiot F (2012) Ultrasound detection of eyelashes: a clue for prenatal diagnosis of cornelia de lange syndrome. Ultrasound Obstet Gynecol (in press)

Takahashi E, Folkerth RD, Galaburda AM, Grant PE (2012) Emerging cerebral connectivity in the human fetal brain: an MR tractography study. Cereb Cortex 22:455–464PubMedCrossRef

Thirion JP, Gourdon A (1993) The marching lines algorithm: new results and proofs: Institut National de Recherche en Informatique et en Automatique

Title: Shape and curvedness analysis of brain morphology using human fetal magnetic resonance images in utero
Authors: Hui-Hsin Hu
Hui-Yun Chen
Chih-I Hung
Wan-Yuo Guo
Yu-Te Wu
Publication date: 01-11-2013
Publisher: Springer Berlin Heidelberg
Published in: Brain Structure and Function / Issue 6/2013
Print ISSN: 1863-2653
Electronic ISSN: 1863-2661
DOI: https://doi.org/10.1007/s00429-012-0469-3

At a glance: The STEP trials

Springer Medicine

Shape and curvedness analysis of brain morphology using human fetal magnetic resonance images in utero

Abstract

At a glance: The STEP trials

Springer Medicine

Abstract

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