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1.
Hum Brain Mapp ; 35(9): 4904-15, 2014 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-24737721

RESUMO

Fragile X syndrome (FXS), due to mutations of the FMR1 gene, is the most common known inherited cause of developmental disability as well as the most common single-gene risk factor for autism. Our goal was to examine variation in brain structure in FXS with topological data analysis (TDA), and to assess how such variation is associated with measures of IQ and autism-related behaviors. To this end, we analyzed imaging and behavioral data from young boys (n = 52; aged 1.57-4.15 years) diagnosed with FXS. Application of topological methods to structural MRI data revealed two large subgroups within the study population. Comparison of these subgroups showed significant between-subgroup neuroanatomical differences similar to those previously reported to distinguish children with FXS from typically developing controls (e.g., enlarged caudate). In addition to neuroanatomy, the groups showed significant differences in IQ and autism severity scores. These results suggest that despite arising from a single gene mutation, FXS may encompass two biologically, and clinically separable phenotypes. In addition, these findings underscore the potential of TDA as a powerful tool in the search for biological phenotypes of neuropsychiatric disorders.


Assuntos
Encéfalo/patologia , Síndrome do Cromossomo X Frágil/patologia , Síndrome do Cromossomo X Frágil/parasitologia , Fenótipo , Transtorno Autístico/diagnóstico , Transtorno Autístico/psicologia , Encéfalo/crescimento & desenvolvimento , Pré-Escolar , Substância Cinzenta/crescimento & desenvolvimento , Substância Cinzenta/patologia , Humanos , Processamento de Imagem Assistida por Computador , Imageamento Tridimensional , Lactente , Inteligência , Testes de Inteligência , Imageamento por Ressonância Magnética , Masculino , Análise Multinível , Escalas de Graduação Psiquiátrica , Substância Branca/crescimento & desenvolvimento , Substância Branca/patologia
2.
Proc Natl Acad Sci U S A ; 107(20): 9335-9, 2010 May 18.
Artigo em Inglês | MEDLINE | ID: mdl-20439717

RESUMO

Longitudinal neuroimaging investigation of fragile X syndrome (FXS), the most common cause of inherited intellectual disability and autism, provides an opportunity to study the influence of a specific genetic factor on neurodevelopment in the living human brain. We examined voxel-wise gray and white matter volumes (GMV, WMV) over a 2-year period in 1- to 3-year-old boys with FXS (n = 41) and compared these findings to age- and developmentally matched controls (n = 28). We found enlarged GMV in the caudate, thalamus, and fusiform gyri and reduced GMV in the cerebellar vermis in FXS at both timepoints, suggesting early, possibly prenatal, genetically mediated alterations in neurodevelopment. In contrast, regions in which initial GMV was similar, followed by an altered growth trajectory leading to increased size in FXS, such as the orbital gyri, basal forebrain, and thalamus, suggests delayed or otherwise disrupted synaptic pruning occurring postnatally. WMV of striatal-prefrontal regions was greater in FXS compared with controls, and group differences became more exaggerated over time, indicating the possibility that such WM abnormalities are the result of primary FMRP-deficiency-related axonal pathology, as opposed to secondary connectional dysregulation between morphologically atypical brain structures. Our results indicate that structural abnormalities of different brain regions in FXS evolve differently over time reflecting time-dependent effects of FMRP deficiency and provide insight into their neuropathologic underpinnings. The creation of an early and accurate human brain phenotype for FXS in humans will significantly improve our capability to detect whether new disease-specific treatments can "rescue" the FXS phenotype in affected individuals.


Assuntos
Encéfalo/crescimento & desenvolvimento , Encéfalo/patologia , Síndrome do Cromossomo X Frágil/patologia , Fenótipo , Pré-Escolar , Proteína do X Frágil da Deficiência Intelectual/metabolismo , Humanos , Lactente , Imageamento por Ressonância Magnética , Masculino , Tamanho do Órgão/fisiologia
3.
Artigo em Inglês | MEDLINE | ID: mdl-29780195

RESUMO

Craniosynostosis, the premature fusion of one or more cranial sutures, leads to grossly abnormal head shapes and pressure elevations within the brain caused by these deformities. To date, accepted treatments for craniosynostosis involve improving surgical skull shape aesthetics. However, the relationship between improved head shape and brain structure after surgery has not been yet established. Typically, clinical standard care involves the collection of diagnostic medical computed tomography (CT) imaging to evaluate the fused sutures and plan the surgical treatment. CT is known to provide very good reconstructions of the hard tissues in the skull but it fails to acquire good soft brain tissue contrast. This study intends to use magnetic resonance imaging to evaluate brain structure in a small dataset of sagittal craniosynostosis patients and thus quantify the effects of surgical intervention in overall brain structure. Very importantly, these effects are to be contrasted with normative shape, volume and brain structure databases. The work presented here wants to address gaps in clinical knowledge in craniosynostosis focusing on understanding the changes in brain volume and shape secondary to surgery, and compare those with normally developing children. This initial pilot study has the potential to add significant quality to the surgical care of a vulnerable patient population in whom we currently have limited understanding of brain developmental outcomes.

4.
Arch Gen Psychiatry ; 66(5): 509-16, 2009 May.
Artigo em Inglês | MEDLINE | ID: mdl-19414710

RESUMO

CONTEXT: Cerebral cortical volume enlargement has been reported in 2- to 4-year-olds with autism. Little is known about the volume of subregions during this period of development. The amygdala is hypothesized to be abnormal in volume and related to core clinical features in autism. OBJECTIVES: To examine amygdala volume at 2 years with follow-up at 4 years of age in children with autism and to explore the relationship between amygdala volume and selected behavioral features of autism. DESIGN: Longitudinal magnetic resonance imaging study. SETTING: University medical setting. PARTICIPANTS: Fifty autistic and 33 control (11 developmentally delayed, 22 typically developing) children between 18 and 35 months (2 years) of age followed up at 42 to 59 months (4 years) of age. MAIN OUTCOME MEASURES: Amygdala volumes in relation to joint attention ability measured with a new observational coding system, the Social Orienting Continuum and Response Scale; group comparisons including total tissue volume, sex, IQ, and age as covariates. RESULTS: Amygdala enlargement was observed in subjects with autism at both 2 and 4 years of age. Significant change over time in volume was observed, although the rate of change did not differ between groups. Amygdala volume was associated with joint attention ability at age 4 years in subjects with autism. CONCLUSIONS: The amygdala is enlarged in autism relative to controls by age 2 years but shows no relative increase in magnitude between 2 and 4 years of age. A significant association between amygdala volume and joint attention suggests that alterations to this structure may be linked to a core deficit of autism.


Assuntos
Tonsila do Cerebelo/patologia , Atenção/fisiologia , Transtorno Autístico/fisiopatologia , Comunicação , Deficiências do Desenvolvimento/fisiopatologia , Processamento de Imagem Assistida por Computador , Imageamento por Ressonância Magnética , Orientação/fisiologia , Teoria da Construção Pessoal , Comportamento Social , Fatores Etários , Transtorno Autístico/diagnóstico , Pré-Escolar , Deficiências do Desenvolvimento/diagnóstico , Dominância Cerebral/fisiologia , Diagnóstico Precoce , Feminino , Seguimentos , Humanos , Masculino , Tamanho do Órgão/fisiologia , Determinação da Personalidade , Valores de Referência
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