Stereological estimation of gyrification index and related measures of cortical folding from MR data in schizophrenia

Abstract Down syndrome (DS) is the most common genetic cause of developmental disabilities. Advanced analysis of brain magnetic resonance imaging (MRI) has been used to find brain abnormalities and their relationship to neurocognitive impairments in children and adolescents with DS. Because genetic factors affect brain development in early fetal life, there is a growing interest in analyzing brains from living fetuses with DS. In this study, we investigated regional sulcal folding depth as well as global cortical gyrification from fetal brain MRIs. Nine fetuses with DS (29.1 ± 4.24 gestational weeks [mean ± standard deviation]) were compared with 17 typically developing [TD] fetuses (28.4 ± 3.44). Fetuses with DS showed lower whole-brain average sulcal depths and gyrification index than TD fetuses. Significant decreases in sulcal depth were found in bilateral Sylvian fissures and right central and parieto-occipital sulci. On the other hand, significantly increased sulcal depth was shown in the left superior temporal sulcus, which is related to atypical hemispheric asymmetry of cortical folding. Moreover, these group differences increased as gestation progressed. This study demonstrates that regional sulcal depth is a sensitive marker for detecting alterations of cortical development in DS during fetal life, which may be associated with later neurocognitive impairment.

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The influence of biophysical parameters in a biomechanical model of cortical folding patterns

Scientific Reports ◽

10.1038/s41598-021-87124-y ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Xiaoyu Wang ◽

Julien Lefèvre ◽

Amine Bohi ◽

Mariam Al Harrach ◽

Mickael Dinomais ◽

...

Keyword(s):

Cortical Thickness ◽

Mean Curvature ◽

Three Dimensional ◽

Biomechanical Model ◽

Mechanical Forces ◽

Cortical Folding ◽

Biophysical Parameters ◽

Gyrification Index ◽

Initial Geometry ◽

Sulcal Depth

AbstractAbnormal cortical folding patterns, such as lissencephaly, pachygyria and polymicrogyria malformations, may be related to neurodevelopmental disorders. In this context, computational modeling is a powerful tool to provide a better understanding of the early brain folding process. Recent studies based on biomechanical modeling have shown that mechanical forces play a crucial role in the formation of cortical convolutions. However, the effect of biophysical parameters in these models remain unclear. In this paper, we investigate the effect of the cortical growth, the initial geometry and the initial cortical thickness on folding patterns. In addition, we not only use several descriptors of the folds such as the dimensionless mean curvature, the surface-based three-dimensional gyrification index and the sulcal depth, but also propose a new metric to quantify the folds orientation. The results demonstrate that the cortical growth mode does almost not affect the complexity degree of surface morphology; the variation in the initial geometry changes the folds orientation and depth, and in particular, the slenderer the shape is, the more folds along its longest axis could be seen and the deeper the sulci become. Moreover, the thinner the initial cortical thickness is, the higher the spatial frequency of the folds is, but the shallower the sulci become, which is in agreement with the previously reported effects of cortical thickness.

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Hypogyrification in obsessive-compulsive disorder

Psychological Medicine ◽

10.1017/s0033291716003202 ◽

2016 ◽

Vol 47 (6) ◽

pp. 1053-1061 ◽

Cited By ~ 4

Author(s):

O. G. Rus ◽

T. J. Reess ◽

G. Wagner ◽

M. Zaudig ◽

C. Zimmer ◽

...

Keyword(s):

Obsessive Compulsive Disorder ◽

Symptom Severity ◽

Healthy Subjects ◽

Age Of Onset ◽

Positive Association ◽

Cortical Folding ◽

Obsessive Compulsive ◽

Compulsive Disorder ◽

Co Morbidity ◽

Gyrification Index

BackgroundPrevious studies hypothesized that neurodevelopmental risk factors may play a role in the pathogenesis of obsessive-compulsive disorder (OCD). Cortical folding has been shown to be a reliable indicator for normal and altered neurodevelopment, but in OCD it has barely been investigated up to now. The present study investigates whether alterations in gyrification are detectable in OCD and, if so, how these are associated with clinical characteristics.MethodWe compared the local Gyrification Index (lGI) between 75 OCD patients and 75 matched healthy subjects across the whole brain. In addition, for those regions exhibiting an altered lGI in patients we explored a potential relationship to symptom severity, age of onset, and influence of medication.ResultsOCD patients had a significantly decreased lGI in right parietal, precentral but also insula, temporal, pars triangularis and rostral middle frontal regions compared to healthy subjects. A positive association with age of onset was found but no association with symptom severity. There was no effect of co-morbidity or medication.ConclusionsThe reduced gyrification found in OCD confirms previous findings in other psychiatric disorders and suggests that alterations may already occur during early stages of brain development. Our findings support the idea that altered cortical folding might represent a trait characteristic of the disorder although longitudinal studies are needed to clarify the trajectory of this morphological measure in OCD.

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Cortical gyrification and its relationships with molecular measures and cognition in children with the FMR1 premutation

Scientific Reports ◽

10.1038/s41598-020-73040-0 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Jun Yi Wang ◽

Merna Danial ◽

Cyrus Soleymanzadeh ◽

Bella Kim ◽

Yiming Xia ◽

...

Keyword(s):

Cortical Folding ◽

Significant Group ◽

Cgg Repeat ◽

Fmr1 Premutation ◽

Cortical Areas ◽

Gyrification Index ◽

Psychiatric Conditions ◽

Iq Scores ◽

And Control ◽

Molecular Measures

Abstract Neurobiological basis for cognitive development and psychiatric conditions remains unexplored in children with the FMR1 premutation (PM). Knock-in mouse models of PM revealed defects in embryonic cortical development that may affect cortical folding. Cortical-folding complexity quantified using local gyrification index (LGI) was examined in 61 children (age 8–12 years, 19/14 male/female PM carriers, 15/13 male/female controls). Whole-brain vertex-wise analysis of LGI was performed for group comparisons and correlations with IQ. Individuals with aberrant gyrification in 68 cortical areas were identified using Z-scores of LGI (hyper: Z ≥ 2.58, hypo: Z ≤ − 2.58). Significant group-by-sex-by-age interaction in LGI was detected in right inferior temporal and fusiform cortices, which correlated negatively with CGG repeat length in the PM carriers. Sixteen PM boys (hyper/hypo: 7/9) and 10 PM girls (hyper/hypo: 2/5, 3 both) displayed aberrant LGI in 1–17 regions/person while 2 control boys (hyper/hypo: 0/2) and 2 control girls (hyper/hypo: 1/1) met the same criteria in only 1 region/person. LGI in the precuneus and cingulate cortices correlated positively with IQ scores in PM and control boys while negatively in PM girls and no significant correlation in control girls. These findings reveal aberrant gyrification, which may underlie cognitive performance in children with the PM.

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Quantitative MRI-Based Analysis Identifies Developmental Limbic Abnormalities in PCDH19 Encephalopathy

Cerebral Cortex ◽

10.1093/cercor/bhaa177 ◽

2020 ◽

Vol 30 (11) ◽

pp. 6039-6050 ◽

Cited By ~ 1

Author(s):

Matteo Lenge ◽

Carla Marini ◽

Edoardo Canale ◽

Antonio Napolitano ◽

Salvatore De Masi ◽

...

Keyword(s):

White Matter ◽

Gene Mutations ◽

Quantitative Mri ◽

Cortical Folding ◽

Limbic Structures ◽

Developmental Abnormalities ◽

Calcium Dependent ◽

Dependent Cell ◽

Gyrification Index ◽

Circuit Formation

Abstract Protocadherin-19 (PCDH19) is a calcium dependent cell-adhesion molecule involved in neuronal circuit formation with prevalent expression in the limbic structures. PCDH19-gene mutations cause a developmental encephalopathy with prominent infantile onset focal seizures, variably associated with intellectual disability and autistic features. Diagnostic neuroimaging is usually unrevealing. We used quantitative MRI to investigate the cortex and white matter in a group of 20 PCDH19-mutated patients. By a statistical comparison between quantitative features in PCDH19 brains and in a group of age and sex matched controls, we found that patients exhibited bilateral reductions of local gyrification index (lGI) in limbic cortical areas, including the parahippocampal and entorhinal cortex and the fusiform and lingual gyri, and altered diffusivity features in the underlying white matter. In patients with an earlier onset of seizures, worse psychiatric manifestations and cognitive impairment, reductions of lGI and diffusivity abnormalities in the limbic areas were more pronounced. Developmental abnormalities involving the limbic structures likely represent a measurable anatomic counterpart of the reduced contribution of the PCDH19 protein to local cortical folding and white matter organization and are functionally reflected in the phenotypic features involving cognitive and communicative skills as well as local epileptogenesis.

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