Your search keyword '"Hazlett, H.C."' showing total 14 results

1. Subcortical Brain and Behavior Phenotypes Differentiate Infants With Autism Versus Language Delay

Author

Piven, J., Hazlett, H.C., Chappell, C., Dager, S., Estes, A.M., Shaw, D., Botteron, K., McKinstry, R., Constantino, J., Pruett, J., Schultz, R.T., Pandey, J., Paterson, S., Zwaigenbaum, L., Elison, J.T., Wolff, J.J., Evans, A.C., Collins, D.L., Pike, G.B., Fonov, V., Kostopoulos, P., Das, S., Gerig, G., Styner, M., Gu, H., Swanson, Meghan R., Shen, Mark D., Wolff, Jason J., Elison, Jed T., Emerson, Robert W., Styner, Martin A., Hazlett, Heather C., Truong, Kinh, Watson, Linda R., Paterson, Sarah, Marrus, Natasha, Botteron, Kelly N., Pandey, Juhi, Schultz, Robert T., Dager, Stephen R., Zwaigenbaum, Lonnie, Estes, Annette M., and Piven, Joseph

Published

2017

2. Increased Extra-axial Cerebrospinal Fluid in High-Risk Infants Who Later Develop Autism

Author

Shen, Mark D., Kim, Sun Hyung, McKinstry, Robert C., Gu, Hongbin, Hazlett, Heather C., Nordahl, Christine W., Emerson, Robert W., Shaw, Dennis, Elison, Jed T., Swanson, Meghan R., Fonov, Vladimir S., Gerig, Guido, Dager, Stephen R., Botteron, Kelly N., Paterson, Sarah, Schultz, Robert T., Evans, Alan C., Estes, Annette M., Zwaigenbaum, Lonnie, Styner, Martin A., Amaral, David G., Piven, Joseph, Piven, J., Hazlett, H.C., Chappell, C., Dager, S., Estes, A., Shaw, D., Botteron, K., McKinstry, R., Constantino, J., Pruett, J., Schultz, R., Zwaigenbaum, L., Elison, J., Evans, A.C., Collins, D.L., Pike, G.B., Fonov, V., Kostopoulos, P., Das, S., Gerig, G., Styner, M., and Gu, H.

Published

2017

3. The Emergence of Network Inefficiencies in Infants With Autism Spectrum Disorder

Author

Piven, J., Hazlett, H.C., Chappell, C., Dager, S.R., Estes, A.M., Shaw, D., Botteron, K.N., McKinstry, R.C., Constantino, J., Pruett, J.R., Schultz, R.T., Paterson, S., Zwaigenbaum, L., Elison, J.T., Evans, A.C., Collins, D.L., Pike, G.B., Fonov, V., Kostopoulos, P., Das, S., Gerig, G., Styner, M.A., Gu, H., Lewis, John D., Evans, Alan C., Pruett, John R., Jr., Botteron, Kelly N., McKinstry, Robert C., Zwaigenbaum, Lonnie, Estes, Annette M., Collins, D. Louis, Kostopoulos, Penelope, Gerig, Guido, Dager, Stephen R., Paterson, Sarah, Schultz, Robert T., Styner, Martin A., Hazlett, Heather C., and Piven, Joseph

Published

2017

4. Multi-object analysis of volume, pose, and shape using statistical discrimination

Author

Gorczowski, K., Styner, M., Ja Yeon Jeong, Marron, J.S., Piven, J., Hazlett, H.C., Pizer, S.M., and Gerig, G.

Subjects

Technology application, Brain research -- Technology application, Diagnostic imaging -- Evaluation, Geometric figures -- Analysis, Object recognition (Computers) -- Methods, Pattern recognition -- Methods

Published

2010

5. Sex differences associated with corpus callosum development in human infants: A longitudinal multimodal imaging study

Author

Piven, J., Pruett, J.R., Jr., Dager, S.R., IBIS Network, Soda, T., Hazlett, H.C., Estes, A.M., Elison, J.T., Gerig, G., Shen, M.D., Schmied, A., Wolff, J.J., Schultz, R.T., McKinstry, R.C., Botteron, K.N., Styner, M., and Swanson, M.R.

Abstract

The corpus callosum (CC) is the largest connective pathway in the human brain, linking cerebral hemispheres. There is longstanding debate in the scientific literature whether sex differences are evident in this structure, with many studies indicating the structure is larger in females. However, there are few data pertaining to this issue in infancy, during which time the most rapid developmental changes to the CC occur. In this study, we examined longitudinal brain imaging data collected from 104 infants at ages 6, 12, and 24 months. We identified sex differences in brain-size adjusted CC area and thickness characterized by a steeper rate of growth in males versus females from ages 6–24 months. In contrast to studies of older children and adults, CC size was larger for male compared to female infants. Based on diffusion tensor imaging data, we found that CC thickness is significantly associated with underlying microstructural organization. However, we observed no sex differences in the association between microstructure and thickness, suggesting that the role of factors such as axon density and/or myelination in determining CC size is generally equivalent between sexes. Finally, we found that CC length was negatively associated with nonverbal ability among females.

Published

2020

6. A Novel Method for High-Dimensional Anatomical Mapping of Extra-Axial Cerebrospinal Fluid: Application to the Infant Brain

Author

Kim, S.H., Evans, A.C., Estes, A.M., Dager, S.R., Botteron, K.N., Girault, J.B., Hazlett, H.C., Mostapha, M., Piven, J., McKinstry, R.C., Gerig, G., Shen, M.D., Styner, M.A., Schultz, R.T., and Pizer, S.M.

Abstract

Cerebrospinal fluid (CSF) plays an essential role in early postnatal brain development. Extra-axial CSF (EA-CSF) volume, which is characterized by CSF in the subarachnoid space surrounding the brain, is a promising marker in the early detection of young children at risk for neurodevelopmental disorders. Previous studies have focused on global EA-CSF volume across the entire dorsal extent of the brain, and not regionally-specific EA-CSF measurements, because no tools were previously available for extracting local EA-CSF measures suitable for localized cortical surface analysis. In this paper, we propose a novel framework for the localized, cortical surface-based analysis of EA-CSF. The proposed processing framework combines probabilistic brain tissue segmentation, cortical surface reconstruction, and streamline-based local EA-CSF quantification. The quantitative analysis of local EA-CSF was applied to a dataset of typically developing infants with longitudinal MRI scans from 6 to 24 months of age. There was a high degree of consistency in the spatial patterns of local EA-CSF across age using the proposed methods. Statistical analysis of local EA-CSF revealed several novel findings: several regions of the cerebral cortex showed reductions in EA-CSF from 6 to 24 months of age, and specific regions showed higher local EA-CSF in males compared to females. These age-, sex-, and anatomically-specific patterns of local EA-CSF would not have been observed if only a global EA-CSF measure were utilized. The proposed methods are integrated into a freely available, open-source, cross-platform, user-friendly software tool, allowing neuroimaging labs to quantify local extra-axial CSF in their neuroimaging studies to investigate its role in typical and atypical brain development.

Published

2020

7. Development of white matter circuitry in infants with fragile x syndrome

Author

Hazlett, H.C., Shen, M.D., Swanson, M.R., Estes, A., Botteron, K.N., Gerig, G., Piven, J., Styner, M., Wolff, J.J., and McKinstry, R.C.

Abstract

IMPORTANCE Fragile X syndrome (FXS) is a genetic neurodevelopmental disorder and the most common inherited cause of intellectual disability in males. However, there are no published data on brain development in children with FXS during infancy. OBJECTIVE To characterize the development of white matter at ages 6, 12, and 24 months in infants with FXS compared with that of typically developing controls. DESIGN, SETTING, AND PARTICIPANTS Longitudinal behavioral and brain imaging datawere collected at 1 or more time points from 27 infants with FXS and 73 typically developing controls between August 1, 2008, and June 14, 2016, at 2 academic medical centers. Infants in the control group had no first- or second-degree relatives with intellectual or psychiatric disorders, including FXS and autism spectrum disorder. MAIN OUTCOMES AND MEASURES Nineteen major white matter pathwayswere defined in common atlas space based on anatomically informed methods. Diffusion parameters, including fractional anisotropy, were compared between groups using linear mixed effects modeling. Fiber pathways showing group differences were subsequently examined in association with direct measures of verbal and nonverbal development. RESULTS There were significant differences in the development of 12 of 19 fiber tracts between the 27 infants with FXS (22 boys and 5 girls) and the 73 infants in the control group (46 boys and 27 girls), with lower fractional anisotropy in bilateral subcortical-frontal, occipital-temporal, temporal-frontal, and cerebellar-thalamic pathways, as well as 4 of 6 subdivisions of the corpus callosum. For all 12 of these pathways, there were significant main effects between groups but not for the interaction of age × group, indicating that lower fractional anisotropy was present and stable from age 6 months in infants with FXS. Lower fractional anisotropy values in the uncinate fasciculi were correlated with lower nonverbal developmental quotient in the FXS group (left uncinate, F = 10.06; false discovery rate-corrected P = .03; right uncinate, F = 21.8; P = .004). CONCLUSIONS AND RELEVANCE The results substantiate in human infants the essential role of fragile X gene expression in the early development of white matter. The findings also suggest that the neurodevelopmental effects of FXS are well established at 6 months of age.

Published

2018

8. Increased Extra-axial Cerebrospinal Fluid in High-Risk Infants Who Later Develop Autism

Author

McKinstry, R.C., Constantino, J., Schultz, R.T., Styner, M.A., Kostopoulos, P., Emerson, R.W., Zwaigenbaum, L., Botteron, K., Dager, S.R., Gu, H., Styner, M., Swanson, M.R., Kim, S.H., Nordahl, C.W., Schultz, R., Infant Brain Imaging Study Network, Pike, G.B., Collins, D.L., Fonov, V.S., Shaw, D., Das, S., Gerig, G., Paterson, S., Amaral, D.G., Shen, M.D., Piven, J., Elison, J.T., Hazlett, H.C., Chappell, C., Estes, A.M., McKinstry, R., Elison, J., Pruett, J., Evans, A.C., and Botteron, K.N.

Subjects

mental disorders, behavioral disciplines and activities

Abstract

Background We previously reported that infants who developed autism spectrum disorder (ASD) had increased cerebrospinal fluid (CSF) in the subarachnoid space (i.e., extra-axial CSF) from 6 to 24 months of age. We attempted to confirm and extend this finding in a larger independent sample. Methods A longitudinal magnetic resonance imaging study of infants at risk for ASD was carried out on 343 infants, who underwent neuroimaging at 6, 12, and 24 months. Of these infants, 221 were at high risk for ASD because of an older sibling with ASD, and 122 were at low risk with no family history of ASD. A total of 47 infants were diagnosed with ASD at 24 months and were compared with 174 high-risk and 122 low-risk infants without ASD. Results Infants who developed ASD had significantly greater extra-axial CSF volume at 6 months compared with both comparison groups without ASD (18% greater than high-risk infants without ASD; Cohen's d = 0.54). Extra-axial CSF volume remained elevated through 24 months (d = 0.46). Infants with more severe autism symptoms had an even greater volume of extra-axial CSF from 6 to 24 months (24% greater at 6 months, d = 0.70; 15% greater at 24 months, d = 0.70). Extra-axial CSF volume at 6 months predicted which high-risk infants would be diagnosed with ASD at 24 months with an overall accuracy of 69% and corresponding 66% sensitivity and 68% specificity, which was fully cross-validated in a separate sample. Conclusions This study confirms and extends previous findings that increased extra-axial CSF is detectable at 6 months in high-risk infants who develop ASD. Future studies will address whether this anomaly is a contributing factor to the etiology of ASD or an early risk marker for ASD.

Published

2017

9. Subcortical Brain and Behavior Phenotypes Differentiate Infants With Autism Versus Language Delay

Author

Botteron, K.N., Dager, S.R., Hazlett, H.C., Emerson, R.W., Wolff, J.J., Schultz, R.T., Shen, M.D., Marrus, N., Zwaigenbaum, L., Elison, J.T., IBIS Network, Swanson, M.R., Piven, J., Truong, K., Pandey, J., Styner, M.A., Paterson, S., Watson, L.R., and Estes, A.M.

Subjects

mental disorders, behavioral disciplines and activities

Abstract

Background Younger siblings of children with autism spectrum disorder (ASD) are themselves at increased risk for ASD and other developmental concerns. It is unclear if infants who display developmental concerns, but are unaffected by ASD, share similar or dissimilar behavioral and brain phenotypes to infants with ASD. Most individuals with ASD exhibit heterogeneous difficulties with language, and their receptive-expressive language profiles are often atypical. Yet, little is known about the neurobiology that contributes to these language difficulties. Methods In this study, we used behavioral assessments and structural magnetic resonance imaging to investigate early brain structures and associations with later language skills. High-risk infants who were later diagnosed with ASD (n = 86) were compared with high-risk infants who showed signs of early language delay (n = 41) as well as with high- and low-risk infants who did not have ASD or language delay (n = 255 and 143, respectively). Results Results indicated that diminished language skills were evident at 12 months in infants with ASD and infants with early language delay. At 24 months of age, only the infants with ASD displayed atypical receptive-expressive language profiles. Associations between 12-month subcortical volumes and 24-month language skills were moderated by group status, indicating disordinal brain-behavior associations among infants with ASD and infants with language delay. Conclusions These results suggest that there are different brain mechanisms influencing language development in infants with ASD and infants with language delay, and that the two groups likely experience unique sets of genetic and environmental risk factors.

Published

2017

10. Subcortical Brain and Behavior Phenotypes Differentiate Infants With Autism Versus Language Delay

Author

Swanson, Meghan R., primary, Shen, Mark D., additional, Wolff, Jason J., additional, Elison, Jed T., additional, Emerson, Robert W., additional, Styner, Martin A., additional, Hazlett, Heather C., additional, Truong, Kinh, additional, Watson, Linda R., additional, Paterson, Sarah, additional, Marrus, Natasha, additional, Botteron, Kelly N., additional, Pandey, Juhi, additional, Schultz, Robert T., additional, Dager, Stephen R., additional, Zwaigenbaum, Lonnie, additional, Estes, Annette M., additional, Piven, Joseph, additional, Piven, J., additional, Hazlett, H.C., additional, Chappell, C., additional, Dager, S., additional, Estes, A.M., additional, Shaw, D., additional, Botteron, K., additional, McKinstry, R., additional, Constantino, J., additional, Pruett, J., additional, Schultz, R.T., additional, Pandey, J., additional, Paterson, S., additional, Zwaigenbaum, L., additional, Elison, J.T., additional, Wolff, J.J., additional, Evans, A.C., additional, Collins, D.L., additional, Pike, G.B., additional, Fonov, V., additional, Kostopoulos, P., additional, Das, S., additional, Gerig, G., additional, Styner, M., additional, and Gu, H., additional

Published

2017

11. The Emergence of Network Inefficiencies in Infants With Autism Spectrum Disorder

Author

Lewis, John D., primary, Evans, Alan C., additional, Pruett, John R., additional, Botteron, Kelly N., additional, McKinstry, Robert C., additional, Zwaigenbaum, Lonnie, additional, Estes, Annette M., additional, Collins, D. Louis, additional, Kostopoulos, Penelope, additional, Gerig, Guido, additional, Dager, Stephen R., additional, Paterson, Sarah, additional, Schultz, Robert T., additional, Styner, Martin A., additional, Hazlett, Heather C., additional, Piven, Joseph, additional, Piven, J., additional, Hazlett, H.C., additional, Chappell, C., additional, Dager, S.R., additional, Estes, A.M., additional, Shaw, D., additional, Botteron, K.N., additional, McKinstry, R.C., additional, Constantino, J., additional, Pruett, J.R., additional, Schultz, R.T., additional, Paterson, S., additional, Zwaigenbaum, L., additional, Elison, J.T., additional, Evans, A.C., additional, Collins, D.L., additional, Pike, G.B., additional, Fonov, V., additional, Kostopoulos, P., additional, Das, S., additional, Gerig, G., additional, Styner, M.A., additional, and Gu, H., additional

Published

2017

12. Multi-Object Analysis of Volume, Pose, and Shape Using Statistical Discrimination

Author

Gerig, G., Marron, J.S., Hazlett, H.C., Piven, J., Gorczowski, K., Styner, M., Jeong, J.Y., and Pizer, S.M.

Abstract

One goal of statistical shape analysis is the discrimination between two populations of objects. Whereas traditional shape analysis was mostly concerned with studying single objects, analysis of multi-object complexes presents new challenges related to alignment and relative object pose. In this paper, we present a methodology for discriminant analysis of sets multiple shapes. Shapes are represented by sampled medial manifolds including normals to the boundary. Non-Euclidean metrics that describe geodesic distance between sets of sampled representations are used for shape alignment and discrimination. Our choice of discriminant method is the distance weighted discriminant (DWD) because of its generalization ability in high dimensional, low sample size settings. Using an unbiased, soft discrimination score we can associate a statistical hypothesis test with the discrimination results. Furthermore, localization and nature significant differences between populations can be visualized via the average best discriminating axis.

Published

2010

13. Splenium development and early spoken language in human infants.

Author

Swanson, Meghan R., Wolff, Jason J., Elison, Jed T., Gu, Hongbin, Hazlett, Heather C., Botteron, Kelly, Styner, Martin, Paterson, Sarah, Gerig, Guido, Constantino, John, Dager, Stephen, Estes, Annette, Vachet, Clement, Piven, Joseph, Hazlett, H.C., Chappell, C., Dager, S., Estes, A., Shaw, D., and Botteron, K.N.

Subjects

INFANTS, CORPUS callosum, NEURAL development, LANGUAGE & languages, TELENCEPHALON, MAGNETIC resonance imaging

Abstract

The association between developmental trajectories of language-related white matter fiber pathways from 6 to 24 months of age and individual differences in language production at 24 months of age was investigated. The splenium of the corpus callosum, a fiber pathway projecting through the posterior hub of the default mode network to occipital visual areas, was examined as well as pathways implicated in language function in the mature brain, including the arcuate fasciculi, uncinate fasciculi, and inferior longitudinal fasciculi. The hypothesis that the development of neural circuitry supporting domain-general orienting skills would relate to later language performance was tested in a large sample of typically developing infants. The present study included 77 infants with diffusion weighted MRI scans at 6, 12 and 24 months and language assessment at 24 months. The rate of change in splenium development varied significantly as a function of language production, such that children with greater change in fractional anisotropy ( FA) from 6 to 24 months produced more words at 24 months. Contrary to findings from older children and adults, significant associations between language production and FA in the arcuate, uncinate, or left inferior longitudinal fasciculi were not observed. The current study highlights the importance of tracing brain development trajectories from infancy to fully elucidate emerging brain-behavior associations while also emphasizing the role of the splenium as a key node in the structural network that supports the acquisition of spoken language. [ABSTRACT FROM AUTHOR]

Published

2017

14. Statistical Shape Analysis of Multi-Object Complexes.

Author

Gorczowski, K., Styner, M., Ja-Yeon Jeong, Marron, J.S., Piven, J., Hazlett, H.C., Pizer, S.M., and Gerig, G.

Published

2007