Your search keyword '"Botteron K"' showing total 79 results

1. Infants later diagnosed with autism have lower canonical babbling ratios in the first year of life

Author

Yankowitz, L. D., Petrulla, V., Plate, S., Tunc, B., Guthrie, W., Meera, S. S., Tena, K., Pandey, J., Swanson, M. R., Pruett, Jr., J. R., Cola, M., Russell, A., Marrus, N., Hazlett, H. C., Botteron, K., Constantino, J. N., Dager, S. R., Estes, A., Zwaigenbaum, L., Piven, J., Schultz, R. T., and Parish-Morris, J.

Published

2022

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

Author

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

Subjects

Autism, Brain development, CSF, Extra-axial fluid, Infancy, MRI, Autism Spectrum Disorder, Axis, Cervical Vertebra, Cerebral Ventricles, Cerebrospinal Fluid, Child, Preschool, Female, Genetic Predisposition to Disease, Humans, Image Processing, Computer-Assisted, Infant, Longitudinal Studies, Magnetic Resonance Imaging, Male, Motor Skills, Organ Size, Pattern Recognition, Automated, Prodromal Symptoms, Prognosis, Sensitivity and Specificity, Severity of Illness Index, Siblings, Subarachnoid Space

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; Cohens 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

3. Analysis of Cortical Morphometric Variability Using Labeled Cortical Distance Maps

Author

Ceyhan, E., Nishino, T., Botteron, K. N., Miller, M. I., and Ratnanather, J. T.

Subjects

Statistics - Applications, Statistics - Methodology, 62F03, 62G10, 62P10, 92C50, 62H35

Abstract

Morphometric differences in the anatomy of cortical structures are associated with neuro-developmental and neuropsychiatric disorders. Such differences can be quantized and detected by a powerful tool called Labeled Cortical Distance Map (LCDM). The LCDM method pro-vides distances of labeled gray matter (GM) voxels from the GM/white matter (WM) surface for specific cortical structures (or tissues). Here we describe a method to analyze morphometric variability in the particular tissue using LCDM distances. To extract more of the information provided by LCDM distances, we perform pooling and censoring of LCDM distances. In particular, we employ Brown-Forsythe (BF) test of homogeneity of variance (HOV) on the LCDM distances. HOV analysis of pooled distances provides an overall analysis of morphometric variability of the LCDMs due to the disease in question, while the HOV analysis of censored distances suggests the location(s) of significant variation in these differences (i.e., at which distance from the GM/WM surface the morphometric variability starts to be significant). We also check for the influence of assumption violations on the HOV analysis of LCDM distances. In particular, we demonstrate that BF HOV test is robust to assumption violations such as the non-normality and within sample dependence of the residuals from the median for pooled and censored distances and are robust to data aggregation which occurs in analysis of censored distances. We illustrate the methodology on a real data example, namely, LCDM distances of GM voxels in ventral medial prefrontal cortices (VMPFCs) to see the effects of depression or being of high risk to depression on the morphometry of VMPFCs. The methodology used here is also valid for morphometric analysis of other cortical structures., Comment: 40 pages, 16 figures, 12 tables

Published

2015

4. The Importance of Temperament for Understanding Early Manifestations of Autism Spectrum Disorder in High-Risk Infants

Author

Paterson, Sarah J., Wolff, Jason J., Elison, Jed T., Winder-Patel, Breanna, Zwaigenbaum, Lonnie, Estes, Annette, Pandey, Juhi, Schultz, Robert T., Botteron, Kelly, Dager, Stephen R., Hazlett, Heather C., Piven, Joseph, Piven, J., Hazlett, H. C., Chappell, C., Dager, S., Estes, A., Shaw, D., Botteron, K. N., McKinstry, R. C., Constantino, J., Pruett, J., Schultz, R. T., Paterson, S., 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.

Abstract

The present study investigated the relationship between infant temperament characteristics and autism spectrum disorder (ASD) risk status. Temperament was examined at 6, 12, and 24 months in 282 infants at high familial risk for ASD and 114 low-risk controls using the Infant Behavior Questionnaire-Revised and Early Childhood Behavior Questionnaire. Infants were divided into three groups at 24 months: High-Risk Positive--classified as ASD (HR Pos), High-Risk Negative (HR Neg), and Low-Risk Negative (LR Neg). At 6 and 12 months HR Pos infants exhibited lower Surgency and Regulatory Capacity than LR Neg infants. By 12 months they also demonstrated increased Negative Affect. Group differences remained, when early signs of ASD were controlled for, suggesting that temperament differences could be useful targets for understanding the development of ASD.

Published

2019

5. Censoring Distances Based on Labeled Cortical Distance Maps in Cortical Morphometry

Author

Ceyhan, E., Nishino, T., Alexopolous, J., Todd, R. D., Botteron, K. N., Miller, M. I., and Ratnanather, J. T.

Subjects

Statistics - Applications, Statistics - Computation, 92C55, 62N01, 62J10, 62G10

Abstract

Shape differences are manifested in cortical structures due to neuropsychiatric disorders. Such differences can be measured by labeled cortical distance mapping (LCDM) which characterizes the morphometry of the laminar cortical mantle of cortical structures. LCDM data consist of signed distances of gray matter (GM) voxels with respect to GM/white matter (WM) surface. Volumes and descriptive measures (such as means and variances) for each subject and the pooled distances provide the morphometric differences between diagnostic groups, but they do not reveal all the morphometric information contained in LCDM distances. To extract more information from LCDM data, censoring of the distances is introduced. For censoring of LCDM distances, the range of LCDM distances is partitioned at a fixed increment size; and at each censoring step, and distances not exceeding the censoring distance are kept. Censored LCDM distances inherit the advantages of the pooled distances. Furthermore, the analysis of censored distances provides information about the location of morphometric differences which cannot be obtained from the pooled distances. However, at each step, the censored distances aggregate, which might confound the results. The influence of data aggregation is investigated with an extensive Monte Carlo simulation analysis and it is demonstrated that this influence is negligible. As an illustrative example, GM of ventral medial prefrontal cortices (VMPFCs) of subjects with major depressive disorder (MDD), subjects at high risk (HR) of MDD, and healthy control (Ctrl) subjects are used. A significant reduction in laminar thickness of the VMPFC and perhaps shrinkage in MDD and HR subjects is observed when compared to Ctrl subjects. The methodology is also applicable to LCDM-based morphometric measures of other cortical structures affected by disease., Comment: 25 pages, 10 figures

Published

2013

6. The Use of Labeled Cortical Distance Maps for Quantization and Analysis of Anatomical Morphometry of Brain Tissues

Author

Ceyhan, E., Hosakere, M., Nishino, T., Alexopoulos, J., Todd, R. D., Botteron, K. N., Miller, M. I., and Ratnanather, J. T.

Subjects

Statistics - Computation, Statistics - Applications

Abstract

Anatomical shape differences in cortical structures in the brain can be associated with various neuropsychiatric and neuro-developmental diseases or disorders. Labeled Cortical Distance Map (LCDM), can be a powerful tool to quantize such morphometric differences. In this article, we investigate various issues regarding the analysis of LCDM distances in relation to morphometry. The length of the LCDM distance vector provides the number of voxels (approximately a multiple of volume (in mm^3)); median, mode, range, and variance of LCDM distances are all suggestive of size, thickness, and shape differences. However these measures provide a crude summary based on LCDM distances which may convey much more information about the tissue in question. To utilize more of this information, we pool (merge) the LCDM distances from subjects in the same group or condition. The statistical methodology we employ require normality and within and between sample independence. We demonstrate that the violation of these assumptions have mild influence on the tests. We specify the types of alternatives the parametric and nonparametric tests are more sensitive for. We also show that the pooled LCDM distances provide powerful results for group differences in distribution, left-right morphometric asymmetry of the tissues, and variation of LCDM distances. As an illustrative example, we use gray matter (GM) tissue of ventral medial prefrontal cortices (VMPFCs) from subjects with major depressive disorder, subjects at high risk, and control subjects. We find significant evidence that VMPFCs of subjects with depressive disorders are different in shape compared to those of normal subjects.

Published

2008

7. 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

8. 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

9. Infants who develop autism show smaller inventories of deictic and symbolic gestures at 12 months of age.

Author

Wu, Dennis, Wolff, Jason J., Ravi, Shruthi, Elison, Jed T., Estes, Annette, Paterson, Sarah, St. John, Tanya, Abdi, Hervé, Moraglia, Luke E., Piven, Joseph, Swanson, Meghan R., Hazlett, H. C., Chappell, C., Dager, S., Estes, A., Shaw, D., Botteron, K., McKinstry, R., Constantino, J., and Pruett, J.

Abstract

Gestures are an important social communication skill that infants and toddlers use to convey their thoughts, ideas, and intentions. Research suggests that early gesture use has important downstream impacts on developmental processes, such as language learning. However, autistic children are more likely to have challenges in their gestural development. The current study expands upon previous literature on the differences in gesture use between young autistic and non‐autistic toddlers by collecting data using a parent‐report questionnaire called the MCDI–Words and Gestures at three time points, 12, 18, and 24 months of age. Results (N = 467) showed that high‐likelihood infants who later met diagnostic criteria for ASD (n = 73 HL‐ASD) have attenuated gesture growth from 12 to 24 months for both deictic gestures and symbolic gestures when compared to high‐likelihood infants who later did not meet criteria for ASD (n = 249 HL‐Neg) and low‐likelihood infants who did not meet criteria for ASD (n = 145 LL‐Neg). Other social communicative skills, like play behaviors and imitation, were also found to be impacted in young autistic children when compared to their non‐autistic peers. Understanding early differences in social communication growth before a formal autism diagnosis can provide important insights for early intervention. Lay Summary: As infants learn to talk, they use gestures to communicate. In this study, we used a parent‐report questionnaire to look at the group level differences of gestures in the first 2 years of life by comparing infants who later developed autism to infants who did not develop autism. We found that infants who later developed autism have fewer gestures and a slower rate of gesture growth compared to infants who did not develop autism. Play behaviors and imitation skills were also impacted in young autistic children when compared to their non‐autistic peers. [ABSTRACT FROM AUTHOR]

Published

2024

10. Early brain development in infants at high risk for autism spectrum disorder

Author

Hazlett, Heather Cody, Gu, Hongbin, Munsell, Brent C., Kim, Sun Hyung, Styner, Martin, Wolff, Jason J., Elison, Jed T., Swanson, Meghan R., Zhu, Hongtu, Botteron, Kelly N., Collins, D. Louis, Constantino, John N., Dager, Stephen R., Estes, Annette M., Evans, Alan C., Fonov, Vladimir S., Gerig, Guido, Kostopoulos, Penelope, McKinstry, Robert C., Pandey, Juhi, Paterson, Sarah, Pruett, John R., Schultz, Robert T., Shaw, Dennis W., Zwaigenbaum, Lonnie, Piven, Joseph, Piven, J., Hazlett, H. C., Chappell, C., Dager, S. R., Estes, A. M., Shaw, D. W., Botteron, K. N., McKinstry, R. C., Constantino, J. N., Pruett Jr, J. R., Schultz, R. T., Paterson, S., Zwaigenbaum, L., Elison, J. T., Wolff, J. J., Evans, A. C., Collins, D. L., Pike, G. B., Fonov, V. S., Kostopoulos, P., Das, S., Gerig, G., Styner, M., and Gu, Core H.

Subjects

Risk factors, Health aspects, Autism -- Risk factors, Infant development -- Health aspects

Abstract

Author(s): Heather Cody Hazlett (corresponding author) [1, 2]; Hongbin Gu [1]; Brent C. Munsell [3]; Sun Hyung Kim [1]; Martin Styner [1]; Jason J. Wolff [4]; Jed T. Elison [5]; [...]

Published

2017

11. Language delay aggregates in toddler siblings of children with autism spectrum disorder

Author

Marrus, N, Hall, L P, Paterson, S J, Elison, J T, Wolff, J J, Swanson, M R, Parish-Morris, J, Eggebrecht, A T, Pruett, Jr., J R, Hazlett, H C, Zwaigenbaum, L, Dager, S, Estes, A M, Schultz, R T, Botteron, K N, Piven, J, Constantino, J N, and for the IBIS Network

Published

2018

12. Additional file 1 of Infants later diagnosed with autism have lower canonical babbling ratios in the first year of life

Author

Yankowitz, L. D., Petrulla, V., Plate, S., Tunc, B., Guthrie, W., Meera, S. S., Tena, K., Pandey, J., Swanson, M. R., Pruett, J. R., Cola, M., Russell, A., Marrus, N., Hazlett, H. C., Botteron, K., Constantino, J. N., Dager, S. R., Estes, A., Zwaigenbaum, L., Piven, J., Schultz, R. T., and Parish-Morris, J.

Abstract

Additional file 1: Supplementary Material. Supplementary figure, tables, and text.

Published

2022

13. Statistical Analysis of Cortical Morphometrics Using Pooled Distances Based on Labeled Cortical Distance Maps

Author

Ceyhan, E., Hosakere, M., Nishino, T., Alexopoulos, J., Todd, R. D., Botteron, K. N., Miller, M. I., and Ratnanather, J. T.

Published

2011

14. Examining the factor structure and discriminative utility of the Infant Behavior Questionnaire–Revised in infant siblings of autistic children.

Author

Sung, Sooyeon, Fenoglio, Angela, Wolff, Jason J., Schultz, Robert T., Botteron, Kelly N., Dager, Stephen R., Estes, Annette M., Hazlett, Heather C., Zwaigenbaum, Lonnie, Piven, Joseph, Elison, Jed T., Piven, J., Hazlett, H. C., Chappell, C., Dager, S., Estes, A., Shaw, D., Botteron, K., McKinstry, R., and Constantino, J.

Subjects

AUTISM risk factors, SIBLINGS, QUESTIONNAIRES, AUTISTIC children, TEMPERAMENT in infants, TEST validity, EMOTIONS

Abstract

Using the Infant Behavior Questionnaire–Revised in a longitudinal sample of infant siblings of autistic children (HR; n = 427, 171 female, 83.4% White) and a comparison group of low‐risk controls (LR, n = 200, 86 female, 81.5% White), collected between 2007 and 2017, this study identified an invariant factor structure of temperament traits across groups at 6 and 12 months. Second, after partitioning the groups by familial risk and diagnostic outcome at 24 months, results reveal an endophenotypic pattern of Positive Emotionality at both 6 and 12 months, (HR‐autism spectrum disorder [ASD] < HR‐no‐ASD < LR). Third, increased 'Duration of Orienting' at 12 months was associated with lower scores on the 24‐month developmental outcomes in HR infants. These findings may augment efforts for early identification of ASD. [ABSTRACT FROM AUTHOR]

Published

2022

15. The NIH MRI study of normal brain development: Gender-based differences in correlation of IQ with corticometric measures in healthy children aged 6 to 18

Author

Ad-Dabʼbagh, Y., Karama, S., Leonard, G., Lyttelton, O., Lepage, C., Botteron, K. N., and Evans, A. C.

Published

2009

16. Resting-state fMRI in sleeping infants more closely resembles adult sleep than adult wakefulness

Author

Mitra, Anish, Snyder, Abraham Z., Tagliazucchi, Enzo Rodolfo, Laufs, Helmut, Elison, Jed, Emerson, Robert W., Shen, Mark D., Wolff, Jason J., Botteron, Kelly N., Dager, Stephen, Estes, Annette M., Evans, A.C., Gerig, Guido, Hazlett, Heather C., Paterson, Sarah J., Schultz, Robert T., Styner, Martin A., Zwaigenbaum, Lonnie, Chappell, C., Estes, A., Shaw, D., Botteron, K., McKinstry, R., Constantino, J., Pruett, J., Schultz, R., Paterson, S., Collins, D.L., Pike, G.B., Fonov, V., Kostopoulos, P., Dasso, Sergio Alberto, Styner, M., Gu, H., Schlaggar, Bradley L., Piven, Joseph, Pruett, John R., and Raichle, Marcus

Subjects

Physiology, Ciencias Físicas, lcsh:Medicine, Audiology, Electroencephalography, Pediatrics, Diagnostic Radiology, purl.org/becyt/ford/1 [https], Families, 0302 clinical medicine, Mathematical and Statistical Techniques, Thalamus, Functional Magnetic Resonance Imaging, Medicine and Health Sciences, lcsh:Science, Children, Default mode network, Brain Mapping, Principal Component Analysis, Multidisciplinary, medicine.diagnostic_test, Radiology and Imaging, 05 social sciences, Brain, Software Engineering, Sleep in non-human animals, Magnetic Resonance Imaging, 3. Good health, Child, Preschool, Physical Sciences, Engineering and Technology, Wakefulness, Anatomy, Psychology, Infants, psychological phenomena and processes, Statistics (Mathematics), CIENCIAS NATURALES Y EXACTAS, Research Article, Adult, medicine.medical_specialty, Computer and Information Sciences, Imaging Techniques, NEUROIMAGING, Otras Ciencias Biológicas, Neuroimaging, Research and Analysis Methods, Non-rapid eye movement sleep, 050105 experimental psychology, Ciencias Biológicas, 03 medical and health sciences, DEVELOPMENT, Diagnostic Medicine, medicine, Connectome, Humans, 0501 psychology and cognitive sciences, Statistical Methods, purl.org/becyt/ford/1.6 [https], Preprocessing, Resting state fMRI, lcsh:R, Biology and Life Sciences, Infant, purl.org/becyt/ford/1.3 [https], SLEEP, Astronomía, Age Groups, People and Places, Multivariate Analysis, lcsh:Q, Population Groupings, Functional magnetic resonance imaging, Physiological Processes, Sleep, 030217 neurology & neurosurgery, Mathematics, Neuroscience

Abstract

Resting state functional magnetic resonance imaging (rs-fMRI) in infants enables important studies of functional brain organization early in human development. However, rs-fMRI in infants has universally been obtained during sleep to reduce participant motion artifact, raising the question of whether differences in functional organization between awake adults and sleeping infants that are commonly attributed to development may instead derive, at least in part, from sleep. This question is especially important as rs-fMRI differences in adult wake vs. sleep are well documented. To investigate this question, we compared functional connectivity and BOLD signal propagation patterns in 6, 12, and 24 month old sleeping infants with patterns in adult wakefulness and non-REM sleep. We find that important functional connectivity features seen during infant sleep closely resemble those seen during adult sleep, including reduced default mode network functional connectivity. However, we also find differences between infant and adult sleep, especially in thalamic BOLD signal propagation patterns. These findings highlight the importance of considering sleep state when drawing developmental inferences in infant rs-fMRI. Fil: Mitra, Anish. Washington University School Of Medicine In St. Louis; Estados Unidos Fil: Snyder, Abraham Z.. Washington University School Of Medicine In St. Louis; Estados Unidos Fil: Tagliazucchi, Enzo Rodolfo. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Física de Buenos Aires. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Física de Buenos Aires; Argentina Fil: Laufs, Helmut. Christian-albrechts-universitat Zu Kiel; Alemania Fil: Elison, Jed. University of Minnesota; Estados Unidos Fil: Emerson, Robert W.. University of North Carolina; Estados Unidos Fil: Shen, Mark D.. University of North Carolina; Estados Unidos Fil: Wolff, Jason J.. University of Minnesota; Estados Unidos Fil: Botteron, Kelly N.. Washington University School Of Medicine In St. Louis; Estados Unidos Fil: Dager, Stephen. University Of Washington, Seattle; Estados Unidos Fil: Estes, Annette M.. University Of Washington, Seattle; Estados Unidos Fil: Evans, A.C.. McGill University. Montreal Neurological Institute and Hospital; Canadá Fil: Gerig, Guido. University of New York; Estados Unidos Fil: Hazlett, Heather C.. University of North Carolina; Estados Unidos Fil: Paterson, Sarah J.. University of Pennsylvania; Estados Unidos Fil: Schultz, Robert T.. University of Pennsylvania; Estados Unidos Fil: Styner, Martin A.. University of North Carolina; Estados Unidos Fil: Zwaigenbaum, Lonnie. University of Alberta; Canadá Fil: Chappell, C.. Ibis Network Pi; Estados Unidos Fil: Estes, A.. University Of Washington, Seattle; Estados Unidos Fil: Shaw, D.. University Of Washington, Seattle; Estados Unidos Fil: Botteron, K.. University Of Washington, Seattle; Estados Unidos Fil: McKinstry, R.. University Of Washington, Seattle; Estados Unidos Fil: Constantino, J.. University Of Washington, Seattle; Estados Unidos Fil: Pruett, J.. University Of Washington, Seattle; Estados Unidos Fil: Schultz, R.. The Children?s Hospital Of Philadelphia; Estados Unidos Fil: Paterson, S.. The Children?s Hospital Of Philadelphia; Estados Unidos Fil: Collins, D.L.. McGill University. Montreal Neurological Institute and Hospital; Canadá Fil: Pike, G.B.. McGill University. Montreal Neurological Institute and Hospital; Canadá Fil: Fonov, V.. McGill University. Montreal Neurological Institute and Hospital; Canadá Fil: Kostopoulos, P.. McGill University. Montreal Neurological Institute and Hospital; Canadá Fil: Dasso, Sergio Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Física de Buenos Aires. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Física de Buenos Aires; Argentina Fil: Styner, M.. The University Of North Carolina System; Estados Unidos Fil: Gu, H.. Statistical Analysis Core; Estados Unidos Fil: Schlaggar, Bradley L.. Washington University School Of Medicine In St. Louis; Estados Unidos Fil: Piven, Joseph. University of North Carolina; Estados Unidos Fil: Pruett, John R.. Washington University School Of Medicine In St. Louis; Estados Unidos Fil: Raichle, Marcus. Washington University School Of Medicine In St. Louis; Estados Unidos

Published

2017

17. 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

18. 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

19. Analysis of cortical morphometric variability using labeled cortical distance maps

Author

Ceyhan, E., primary, Nishino, T., additional, Botteron, K. N., additional, Miller, M. I., additional, and Ratnanather, J. T., additional

Published

2017

20. Interactive Effects of Dehydroepiandrosterone and Testosterone on Cortical Thickness during Early Brain Development

Author

Nguyen, T.-V., primary, McCracken, J. T., additional, Ducharme, S., additional, Cropp, B. F., additional, Botteron, K. N., additional, Evans, A. C., additional, and Karama, S., additional

Published

2013

21. Statistical Analysis of Cortical Morphometrics Using Pooled Distances Based on Labeled Cortical Distance Maps

Author

Ceyhan, E., primary, Hosakere, M., additional, Nishino, T., additional, Alexopoulos, J., additional, Todd, R. D., additional, Botteron, K. N., additional, Miller, M. I., additional, and Ratnanather, J. T., additional

Published

2010

22. Hippocampal MR volumetry

Author

Haller, John W., primary, Botteron, K., additional, Brunsden, Barry S., additional, Sheline, Yvette I., additional, Walkup, Ronald K., additional, Black, Kevin J., additional, Gado, Mokhtar, additional, and Vannier, Michael W., additional

Published

1994

23. Refractory depression in children and adolescents.

Author

Botteron, Kelly N., Geller, Barbara, Botteron, K N, and Geller, B

Subjects

DEPRESSION in children, DEPRESSION in adolescence, PLACEBOS, ANTIDEPRESSANTS, SUBSTANCE abuse

Abstract

Refractory or treatments resistant depression in child and adolescent populations is a difficult construct to operationalize currently. To date, only one of the small number of completed double-blind placebo-controlled treatment investigations have not demonstrated a significant effect of antidepressants in comparison to placebo. However, it has been established that child and adolescent MDD is a serious disorder that appears to have clinical continuity with adult affective disorders and is generally of long duration with high rates of recurrence and eventual progression to mania, substance abuse, or other serious psychopathology. In addition, families of children with affective disorders evidence substantial genetic loading with high rates of affective disorders contributing both genetic vulnerability and potential environmental risk as well. There have been no empirically identified treatments that alter the long-term course of the illness. Thus treatment resistance is a significant issue for this population. This review will focus on controlled treatment trials and will examine the potential relevance of psychosocial impairment, genetic-familial risk, and neuromorphometric brain differences to treatment resistance in children and adolescents with major depression. [ABSTRACT FROM AUTHOR]

Published

1997

24. Is attention-deficit/hyperactivity disorder an energy deficiency syndrome?

Author

Todd, R. D. and Botteron, K. N.

Published

2001

25. Network inefficiencies in autism spectrum disorder at 24 months

Author

Kostopoulos, P, Evans, A C, Hazlett, H, Dager, S, Lewis, J D, Pruett, J R, Botteron, K, Estes, A, Zwaigenbaum, L, McKinstry, R, Collins, L, Schultz, R T, Paterson, S, Styner, M, Piven, J, and Gerig, G

Subjects

mental disorders, 10. No inequality

Abstract

Autism spectrum disorder (ASD) is a developmental disorder defined by behavioral symptoms that emerge during the first years of life. Associated with these symptoms are differences in the structure of a wide array of brain regions, and in the connectivity between these regions. However, the use of cohorts with large age variability and participants past the generally recognized age of onset of the defining behaviors means that many of the reported abnormalities may be a result of cascade effects of developmentally earlier deviations. This study assessed differences in connectivity in ASD at the age at which the defining behaviors first become clear. There were 113 24-month-old participants at high risk for ASD, 31 of whom were classified as ASD, and 23 typically developing 24-month-old participants at low risk for ASD. Utilizing diffusion data to obtain measures of the length and strength of connections between anatomical regions, we performed an analysis of network efficiency. Our results showed significantly decreased local and global efficiency over temporal, parietal and occipital lobes in high-risk infants classified as ASD, relative to both low- and high-risk infants not classified as ASD. The frontal lobes showed only a reduction in global efficiency in Broca's area. In addition, these same regions showed an inverse relation between efficiency and symptom severity across the high-risk infants. The results suggest delay or deficits in infants with ASD in the optimization of both local and global aspects of network structure in regions involved in processing auditory and visual stimuli, language and nonlinguistic social stimuli.

26. Brain volumes, cognitive, and adaptive skills in school-age children with Down syndrome.

Author

Grzadzinski R, Mata K, Bhatt AS, Jatkar A, Garic D, Shen MD, Girault JB, St John T, Pandey J, Zwaigenbaum L, Estes A, Shen AM, Dager S, Schultz R, Botteron K, Marrus N, Styner M, Evans A, Kim SH, McKinstry R, Gerig G, Piven J, and Hazlett H

Subjects

Humans, Male, Female, Child, Brain diagnostic imaging, Brain pathology, Brain physiopathology, Autism Spectrum Disorder diagnostic imaging, Autism Spectrum Disorder physiopathology, Autism Spectrum Disorder pathology, Organ Size, Cerebellum diagnostic imaging, Cerebellum pathology, Cerebellum physiopathology, Down Syndrome diagnostic imaging, Down Syndrome physiopathology, Down Syndrome pathology, Magnetic Resonance Imaging, Adaptation, Psychological physiology, Cognition physiology

Abstract

Background: Down syndrome (DS) is the most common congenital neurodevelopmental disorder, present in about 1 in every 700 live births. Despite its prevalence, literature exploring the neurobiology underlying DS and how this neurobiology is related to behavior is limited. This study fills this gap by examining cortical volumes and behavioral correlates in school-age children with DS., Methods: School-age children (mean = 9.7 years ± 1.1) underwent comprehensive assessments, including cognitive and adaptive assessments, as well as an MRI scan without the use of sedation. Children with DS (n = 35) were compared to available samples of typically developing (TD; n = 80) and ASD children (n = 29). ANOVAs were conducted to compare groups on cognitive and adaptive assessments. ANCOVAs (covarying for age, sex, and total cerebral volume; TCV) compared cortical brain volumes between groups. Correlations between behavioral metrics and cortical and cerebellar volumes (separately for gray (GM) and white matter (WM)) were conducted separately by group., Results: As expected, children with DS had significantly lower cognitive skills compared to ASD and TD children. Daily Living adaptive skills were comparable between ASD children and children with DS, and both groups scored lower than TD children. Children with DS exhibited a smaller TCV compared to ASD and TD children. Additionally, when controlling for TCV, age, and sex, children with DS had significantly smaller total GM and tissue volumes. Cerebellum volumes were significantly correlated with Daily Living adaptive behaviors in the DS group only., Conclusions: Despite children with DS exhibiting lower cognitive skills and smaller brain volume overall than children with ASD, their deficits in Socialization and Daily Living adaptive skills are comparable. Differences in lobar volumes (e.g., Right Frontal GM/WM, Left Frontal WM, and Left and Right Temporal WM) were observed above and beyond overall differences in total volume. The correlation between cerebellum volumes and Daily Living adaptive behaviors in the DS group provides a novel area to explore in future research., Competing Interests: Declarations. Ethics approval and consent to participate: The research described in this work was approved by the local Institutional Review Board. Consent for publication: All authors have reviewed the manuscript and approved it for publication. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

27. White matter development and language abilities during infancy in autism spectrum disorder.

Author

McFayden TC, Rutsohn J, Cetin G, Forsen E, Swanson MR, Meera SS, Wolff JJ, Elison JT, Shen MD, Botteron K, Dager SR, Estes A, Gerig G, McKinstry RC, Pandey J, Schultz R, St John T, Styner M, Truong Y, Zwaigenbaum L, Hazlett HC, Piven J, and Girault JB

Subjects

Humans, Male, Female, Infant, Child, Preschool, Siblings, Language, Autism Spectrum Disorder physiopathology, Autism Spectrum Disorder pathology, White Matter pathology, White Matter diagnostic imaging, Diffusion Tensor Imaging methods, Language Development, Brain pathology, Brain diagnostic imaging

Abstract

White matter (WM) fiber tract differences are present in autism spectrum disorder (ASD) and could be important markers of behavior. One of the earliest phenotypic differences in ASD are language atypicalities. Although language has been linked to WM in typical development, no work has evaluated this association in early ASD. Participants came from the Infant Brain Imaging Study and included 321 infant siblings of children with ASD at high likelihood (HL) for developing ASD; 70 HL infants were later diagnosed with ASD (HL-ASD), and 251 HL infants were not diagnosed with ASD (HL-Neg). A control sample of 140 low likelihood infants not diagnosed with ASD (LL-Neg) were also included. Infants contributed expressive language, receptive language, and diffusion tensor imaging data at 6-, 12-, and 24 months. Mixed effects regression models were conducted to evaluate associations between WM and language trajectories. Trajectories of microstructural changes in the right arcuate fasciculus were associated with expressive language development. HL-ASD infants demonstrated a different developmental pattern compared to the HL-Neg and LL-Neg groups, wherein the HL-ASD group exhibited a positive association between WM fractional anisotropy and language whereas HL-Neg and LL-Neg groups showed weak or no association. No other fiber tracts demonstrated significant associations with language. In conclusion, results indicated arcuate fasciculus WM is linked to language in early toddlerhood for autistic toddlers, with the strongest associations emerging around 24 months. To our knowledge, this is the first study to evaluate associations between language and WM development during the pre-symptomatic period in ASD., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

28. A global multicohort study to map subcortical brain development and cognition in infancy and early childhood.

Author

Alex AM, Aguate F, Botteron K, Buss C, Chong YS, Dager SR, Donald KA, Entringer S, Fair DA, Fortier MV, Gaab N, Gilmore JH, Girault JB, Graham AM, Groenewold NA, Hazlett H, Lin W, Meaney MJ, Piven J, Qiu A, Rasmussen JM, Roos A, Schultz RT, Skeide MA, Stein DJ, Styner M, Thompson PM, Turesky TK, Wadhwa PD, Zar HJ, Zöllei L, de Los Campos G, and Knickmeyer RC

Subjects

Male, Female, Humans, Infant, Newborn, Child, Preschool, Child, Cognition, Brain diagnostic imaging, Neuroimaging, Magnetic Resonance Imaging, Premature Birth

Abstract

The human brain grows quickly during infancy and early childhood, but factors influencing brain maturation in this period remain poorly understood. To address this gap, we harmonized data from eight diverse cohorts, creating one of the largest pediatric neuroimaging datasets to date focused on birth to 6 years of age. We mapped the developmental trajectory of intracranial and subcortical volumes in ∼2,000 children and studied how sociodemographic factors and adverse birth outcomes influence brain structure and cognition. The amygdala was the first subcortical volume to mature, whereas the thalamus exhibited protracted development. Males had larger brain volumes than females, and children born preterm or with low birthweight showed catch-up growth with age. Socioeconomic factors exerted region- and time-specific effects. Regarding cognition, males scored lower than females; preterm birth affected all developmental areas tested, and socioeconomic factors affected visual reception and receptive language. Brain-cognition correlations revealed region-specific associations., (© 2023. The Author(s).)

Published

2024

29. Quantifying latent social motivation and its associations with joint attention and language in infants at high and low likelihood for autism spectrum disorder.

Author

Stallworthy IC, Berry D, Davis S, Wolff JJ, Burrows CA, Swanson MR, Grzadzinski RL, Botteron K, Dager SR, Estes AM, Schultz RT, Piven J, Elison JT, Pruett JR Jr, and Marrus N

Subjects

Humans, Infant, Motivation, Language, Communication, Attention, Autism Spectrum Disorder

Abstract

Social motivation-the psychobiological predisposition for social orienting, seeking social contact, and maintaining social interaction-manifests in early infancy and is hypothesized to be foundational for social communication development in typical and atypical populations. However, the lack of infant social-motivation measures has hindered delineation of associations between infant social motivation, other early-arising social abilities such as joint attention, and language outcomes. To investigate how infant social motivation contributes to joint attention and language, this study utilizes a mixed longitudinal sample of 741 infants at high (HL = 515) and low (LL = 226) likelihood for ASD. Using moderated nonlinear factor analysis (MNLFA), we incorporated items from parent-report measures to establish a novel latent factor model of infant social motivation that exhibits measurement invariance by age, sex, and familial ASD likelihood. We then examined developmental associations between 6- and 12-month social motivation, joint attention at 12-15 months, and language at 24 months of age. On average, greater social-motivation growth from 6-12 months was associated with greater initiating joint attention (IJA) and trend-level increases in sophistication of responding to joint attention (RJA). IJA and RJA were both positively associated with 24-month language abilities. There were no additional associations between social motivation and future language in our path model. These findings substantiate a novel, theoretically driven approach to modeling social motivation and suggest a developmental cascade through which social motivation impacts other foundational skills. These findings have implications for the timing and nature of intervention targets to support social communication development in infancy. HIGHLIGHTS: We describe a novel, theoretically based model of infant social motivation wherein multiple parent-reported indicators contribute to a unitary latent social-motivation factor. Analyses revealed social-motivation factor scores exhibited measurement invariance for a longitudinal sample of infants at high and low familial ASD likelihood. Social-motivation growth from ages 6-12 months is associated with better 12-15-month joint attention abilities, which in turn are associated with greater 24-month language skills. Findings inform timing and targets of potential interventions to support healthy social communication in the first year of life., (© 2022 The Authors. Developmental Science published by John Wiley & Sons Ltd.)

Published

2023

30. Infant vocalizing and phenotypic outcomes in autism: Evidence from the first 2 years.

Author

Plate S, Yankowitz L, Resorla L, Swanson MR, Meera SS, Estes A, Marrus N, Cola M, Petrulla V, Faggen A, Pandey J, Paterson S, Pruett JR Jr, Hazlett H, Dager S, St John T, Botteron K, Zwaigenbaum L, Piven J, Schultz RT, and Parish-Morris J

Subjects

Biomarkers, Communication, Female, Humans, Infant, Phenotype, Prospective Studies, Siblings, Autism Spectrum Disorder diagnosis, Autistic Disorder

Abstract

Infant vocalizations are early-emerging communicative markers shown to be atypical in autism spectrum disorder (ASD), but few longitudinal, prospective studies exist. In this study, 23,850 infant vocalizations from infants at low (LR)- and high (HR)-risk for ASD (HR-ASD = 23, female = 3; HR-Neg = 35, female = 13; LR = 32, female = 10; 80% White; collected from 2007 to 2017 near Philadelphia) were analyzed at 6, 12, and 24 months. At 12 months, HR-ASD infants produced fewer vocalizations than HR-Neg infants. From 6 to 24 months, HR-Neg infants demonstrated steeper vocalization growth compared to HR-ASD and LR infants. Finally, among HR infants, vocalizing at 12 months was associated with language, social phenotype, and diagnosis at age 2. Infant vocalizing is an objective behavioral marker that could facilitate earlier detection of ASD., (© 2021 The Authors. Child Development © 2021 Society for Research in Child Development.)

Published

2022

31. A Prospective Evaluation of Infant Cerebellar-Cerebral Functional Connectivity in Relation to Behavioral Development in Autism Spectrum Disorder.

Author

Hawks ZW, Todorov A, Marrus N, Nishino T, Talovic M, Nebel MB, Girault JB, Davis S, Marek S, Seitzman BA, Eggebrecht AT, Elison J, Dager S, Mosconi MW, Tychsen L, Snyder AZ, Botteron K, Estes A, Evans A, Gerig G, Hazlett HC, McKinstry RC, Pandey J, Schultz RT, Styner M, Wolff JJ, Zwaigenbaum L, Markson L, Petersen SE, Constantino JN, White DA, Piven J, and Pruett JR Jr

Abstract

Background: Autism spectrum disorder (ASD) is a neurodevelopmental disorder diagnosed based on social impairment, restricted interests, and repetitive behaviors. Contemporary theories posit that cerebellar pathology contributes causally to ASD by disrupting error-based learning (EBL) during infancy. The present study represents the first test of this theory in a prospective infant sample, with potential implications for ASD detection., Methods: Data from the Infant Brain Imaging Study ( n = 94, 68 male) were used to examine 6-month cerebellar functional connectivity magnetic resonance imaging in relation to later (12/24-month) ASD-associated behaviors and outcomes. Hypothesis-driven univariate analyses and machine learning-based predictive tests examined cerebellar-frontoparietal network (FPN; subserves error signaling in support of EBL) and cerebellar-default mode network (DMN; broadly implicated in ASD) connections. Cerebellar-FPN functional connectivity was used as a proxy for EBL, and cerebellar-DMN functional connectivity provided a comparative foil. Data-driven functional connectivity magnetic resonance imaging enrichment examined brain-wide behavioral associations, with post hoc tests of cerebellar connections., Results: Cerebellar-FPN and cerebellar-DMN connections did not demonstrate associations with ASD. Functional connectivity magnetic resonance imaging enrichment identified 6-month correlates of later ASD-associated behaviors in networks of a priori interest (FPN, DMN), as well as in cingulo-opercular (also implicated in error signaling) and medial visual networks. Post hoc tests did not suggest a role for cerebellar connections., Conclusions: We failed to identify cerebellar functional connectivity-based contributions to ASD. However, we observed prospective correlates of ASD-associated behaviors in networks that support EBL. Future studies may replicate and extend network-level positive results, and tests of the cerebellum may investigate brain-behavior associations at different developmental stages and/or using different neuroimaging modalities., (© 2021 The Authors.)

Published

2021

32. Social and non-social sensory responsivity in toddlers at high-risk for autism spectrum disorder.

Author

Gunderson J, Worthley E, Grzadzinski R, Burrows C, Estes A, Zwaigenbaum L, Botteron K, Dager S, Hazlett H, Schultz R, Piven J, and Wolff J

Subjects

Child, Preschool, Female, Humans, Infant, Male, Surveys and Questionnaires, Autism Spectrum Disorder

Abstract

Empirical evidence concerning sensory responsivity in young children who later develop autism spectrum disorder (ASD) remains relatively limited. It is unclear whether specific patterns or aspects of sensory responsivity underlay the emergence of the disorder. The goals of this study were to (a) examine whether social versus non-social context impacted the expression of sensory responsivity in infants at high risk for ASD, and (b) examine if sensory responsivity in social or non-social contexts was associated with severity of ASD symptoms. The Sensory Experiences Questionnaire 2.1 was collected for 338 infants (131 females, 207 males) at high-risk for ASD at 12 and/or 24 months of age. High-risk toddlers meeting diagnostic criteria for ASD (n = 75) showed elevated sensory responsivity in both social and non-social contexts at 12 months of age and differences widened over the second year of life. Individuals with ASD demonstrate higher responsivity in both contexts suggestive of generalized atypical sensory responsivity in ASD. LAY SUMMARY: Behaviors such as avoiding or noticing sensory input (e.g., sounds, touches) are often different in individuals with autism spectrum disorder (ASD) than those without. The reason for this is widely unknown. The findings from this study show that in toddlers, sensory responsivity increased in both social and non-social situations. Therefore, the setting of sensory input does not explain these differences., (© 2021 International Society for Autism Research and Wiley Periodicals LLC.)

Published

2021

33. Distributional Properties and Criterion Validity of a Shortened Version of the Social Responsiveness Scale: Results from the ECHO Program and Implications for Social Communication Research.

Author

Lyall K, Hosseini M, Ladd-Acosta C, Ning X, Catellier D, Constantino JN, Croen LA, Kaat AJ, Botteron K, Bush NR, Dager SR, Duarte CS, Fallin MD, Hazlett H, Hertz-Picciotto I, Joseph RM, Karagas MR, Korrick S, Landa R, Messinger D, Oken E, Ozonoff S, Piven J, Pandey J, Sathyanarayana S, Schultz RT, St John T, Schmidt R, Volk H, and Newschaffer CJ

Subjects

Adolescent, Area Under Curve, Child, Child, Preschool, Female, Humans, Male, Psychometrics, Reproducibility of Results, Autism Spectrum Disorder diagnosis, Communication, Psychiatric Status Rating Scales standards, Social Behavior

Abstract

Prior work proposed a shortened version of the Social Responsiveness Scale (SRS), a commonly used quantitative measure of social communication traits. We used data from 3031 participants (including 190 ASD cases) from the Environmental Influences on Child Health Outcomes (ECHO) Program to compare distributional properties and criterion validity of 16-item "short" to 65-item "full" SRS scores. Results demonstrated highly overlapping distributions of short and full scores. Both scores separated case from non-case individuals by approximately two standard deviations. ASD prediction was nearly identical for short and full scores (area under the curve values of 0.87, 0.86 respectively). Findings support comparability of shortened and full scores, suggesting opportunities to increase efficiency. Future work should confirm additional psychometric properties of short scores.

Published

2021

34. A voxel-wise assessment of growth differences in infants developing autism spectrum disorder.

Author

Cárdenas-de-la-Parra A, Lewis JD, Fonov VS, Botteron KN, McKinstry RC, Gerig G, Pruett JR Jr, Dager SR, Elison JT, Styner MA, Evans AC, Piven J, and Collins DL

Subjects

Brain diagnostic imaging, Gray Matter diagnostic imaging, Humans, Infant, Magnetic Resonance Imaging, Autism Spectrum Disorder diagnostic imaging, White Matter diagnostic imaging

Abstract

Autism Spectrum Disorder (ASD) is a phenotypically and etiologically heterogeneous developmental disorder typically diagnosed around 4 years of age. The development of biomarkers to help in earlier, presymptomatic diagnosis could facilitate earlier identification and therefore earlier intervention and may lead to better outcomes, as well as providing information to help better understand the underlying mechanisms of ASD. In this study, magnetic resonance imaging (MRI) scans of infants at high familial risk, from the Infant Brain Imaging Study (IBIS), at 6, 12 and 24 months of age were included in a morphological analysis, fitting a mixed-effects model to Tensor Based Morphometry (TBM) results to obtain voxel-wise growth trajectories. Subjects were grouped by familial risk and clinical diagnosis at 2 years of age. Several regions, including the posterior cingulate gyrus, the cingulum, the fusiform gyrus, and the precentral gyrus, showed a significant effect for the interaction of group and age associated with ASD, either as an increased or a decreased growth rate of the cerebrum. In general, our results showed increased growth rate within white matter with decreased growth rate found mostly in grey matter. Overall, the regions showing increased growth rate were larger and more numerous than those with decreased growth rate. These results detail, at the voxel level, differences in brain growth trajectories in ASD during the first years of life, previously reported in terms of overall brain volume and surface area., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

35. Hierarchical geodesic modeling on the diffusion orientation distribution function for longitudinal DW-MRI analysis.

Author

Kim H, Hong S, Styner M, Piven J, Botteron K, and Gerig G

Abstract

The analysis of anatomy that undergoes rapid changes, such as neuroimaging of the early developing brain, greatly benefits from spatio-temporal statistical analysis methods to represent population variations but also subject-wise characteristics over time. Methods for spatio-temporal modeling and for analysis of longitudinal shape and image data have been presented before, but, to our knowledge, not for diffusion weighted MR images (DW-MRI) fitted with higher-order diffusion models. To bridge the gap between rapidly evolving DW-MRI methods in longitudinal studies and the existing frameworks, which are often limited to the analysis of derived measures like fractional anisotropy (FA), we propose a new framework to estimate a population trajectory of longitudinal diffusion orientation distribution functions (dODFs) along with subject-specific changes by using hierarchical geodesic modeling. The dODF is an angular profile of the diffusion probability density function derived from high angular resolution diffusion imaging (HARDI) and we consider the dODF with the square-root representation to lie on the unit sphere in a Hilbert space, which is a well-known Riemannian manifold, to respect the nonlinear characteristics of dODFs. The proposed method is validated on synthetic longitudinal dODF data and tested on a longitudinal set of 60 HARDI images from 25 healthy infants to characterize dODF changes associated with early brain development., Competing Interests: Conflict of Interest Statement The authors declare that there are no conflicts or commercial interest related to this article.

Published

2020

36. The Association Between Parental Age and Autism-Related Outcomes in Children at High Familial Risk for Autism.

Author

Lyall K, Song L, Botteron K, Croen LA, Dager SR, Fallin MD, Hazlett HC, Kauffman E, Landa R, Ladd-Acosta C, Messinger DS, Ozonoff S, Pandey J, Piven J, Schmidt RJ, Schultz RT, Stone WL, Newschaffer CJ, and Volk HE

Subjects

Adult, Autistic Disorder epidemiology, Autistic Disorder genetics, Child, Preschool, Female, Humans, Infant, Male, Prospective Studies, Autism Spectrum Disorder epidemiology, Autism Spectrum Disorder genetics, Genetic Predisposition to Disease, Maternal Age, Paternal Age

Abstract

Advanced parental age is a well-replicated risk factor for autism spectrum disorder (ASD), a neurodevelopmental condition with a complex and not well-defined etiology. We sought to determine parental age associations with ASD-related outcomes in subjects at high familial risk for ASD. A total of 397 younger siblings of a child with ASD, drawn from existing prospective high familial risk cohorts, were included in these analyses. Overall, we did not observe significant associations of advanced parental age with clinical ASD diagnosis, Social Responsiveness Scale, or Vineland Adaptive Behavior Scales scores. Instead, increased odds of ASD were found with paternal age < 30 years (adjusted odds ratio [AOR] = 2.83 and 95% confidence intervals [CI] = 1.14-7.02). Likewise, younger age (<30 years) for both parents was associated with decreases in Mullen Scales of Early Learning early learning composite (MSEL-ELC) scores (adjusted β = -9.62, 95% CI = -17.1 to -2.15). We also found significant increases in cognitive functioning based on MSEL-ELC scores with increasing paternal age (adjusted β associated with a 10-year increase in paternal age = 5.51, 95% CI = 0.70-10.3). Results suggest the potential for a different relationship between parental age and ASD-related outcomes in families with elevated ASD risk than has been observed in general population samples. Autism Res 2020, 13: 998-1010. © 2020 International Society for Autism Research, Wiley Periodicals, Inc. LAY SUMMARY: Previous work suggests that older parents have a greater likelihood of having a child with autism. We investigated this relationship in the younger siblings of families who already had a child with autism. In this setting, we found a higher likelihood of autism, as well as poorer cognitive scores, in the siblings with younger fathers, and higher cognitive scores in the siblings with older parents. These results suggest that parental age associations may differ based on children's familial risk for autism., (© 2020 International Society for Autism Research, Wiley Periodicals, Inc.)

Published

2020

37. Early language exposure supports later language skills in infants with and without autism.

Author

Swanson MR, Donovan K, Paterson S, Wolff JJ, Parish-Morris J, Meera SS, Watson LR, Estes AM, Marrus N, Elison JT, Shen MD, McNeilly HB, MacIntyre L, Zwaigenbaum L, St John T, Botteron K, Dager S, and Piven J

Subjects

Child, Preschool, Female, Humans, Infant, Longitudinal Studies, Male, Risk, Autism Spectrum Disorder physiopathology, Child Language, Parent-Child Relations

Abstract

The way that parents communicate with their typically developing infants is associated with later infant language development. Here we aim to show that these associations are observed in infants subsequently diagnosed with autism spectrum disorder (ASD). This study had three groups: high-familial-risk infants who did not have ASD (n = 46); high-familial-risk infants who had ASD (n = 14); and low-familial-risk infants who exhibited typical development (n = 36). All-day home language recordings were collected at 9 and 15 months, and language skills were assessed at 24 months. Across all infants in the study, including those with ASD, a richer home language environment (e.g., hearing more adult words and experiencing more conversational turns) at 9 and 15 months was associated with better language skills. Higher parental educational attainment was associated with a richer home language environment. Mediation analyses showed that the effect of education on child language skills was explained by the richness of the home language environment. Exploratory analyses revealed that typically developing infants experience an increase in caregiver-child conversational turns across 9-15 months, a pattern not seen in children with ASD. The current study shows that parent behavior during the earliest stages of life can have a significant impact on later development, highlighting the home language environment as means to support development in infants with ASD. Autism Res 2019, 12: 1784-1795. © 2019 International Society for Autism Research, Wiley Periodicals, Inc. LAY SUMMARY: It has long been understood that caregiver speech supports language skills in typically developing infants. In this study, parents of infants who were later diagnosed with ASD and parents of infants in the control groups completed all-day home language recordings. We found that for all infants in our study, those who heard more caregiver speech had better language skills later in life. Parental education level was also related to how much caregiver speech an infant experienced., (© 2019 International Society for Autism Research, Wiley Periodicals, Inc.)

Published

2019

38. Parent Support of Preschool Peer Relationships in Younger Siblings of Children with Autism Spectrum Disorder.

Author

Estes A, Munson J, John TS, Dager SR, Rodda A, Botteron K, Hazlett H, Schultz RT, Zwaigenbaum L, Piven J, and Guralnick MJ

Subjects

Adaptation, Psychological, Adult, Child, Child, Preschool, Female, Humans, Male, Parents psychology, Resilience, Psychological, Siblings psychology, Autism Spectrum Disorder psychology, Parent-Child Relations, Sibling Relations

Abstract

Preschool-aged siblings of children with ASD are at high-risk (HR) for ASD and related challenges, but little is known about their emerging peer competence and friendships. Parents are the main providers of peer-relationship opportunities during preschool. Understanding parental challenges supporting early peer relationships is needed for optimal peer competence and friendships in children with ASD. We describe differences in peer relationships among three groups of preschool-aged children (15 HR-ASD, 53 HR-NonASD, 40 low-risk, LR), and examine parent support activities at home and arranging community-based peer activities. Children with ASD demonstrated precursors to poor peer competence and friendship outcomes. Parents in the HR group showed resilience in many areas, but providing peer opportunities for preschool-age children with ASD demanded significant adaptations.

Published

2018

39. Naturalistic Language Recordings Reveal "Hypervocal" Infants at High Familial Risk for Autism.

Author

Swanson MR, Shen MD, Wolff JJ, Boyd B, Clements M, Rehg J, Elison JT, Paterson S, Parish-Morris J, Chappell JC, Hazlett HC, Emerson RW, Botteron K, Pandey J, Schultz RT, Dager SR, Zwaigenbaum L, Estes AM, and Piven J

Subjects

Female, Humans, Infant, Male, Risk, Signal Processing, Computer-Assisted, Autism Spectrum Disorder physiopathology, Child Development physiology, Infant Behavior physiology, Siblings, Social Behavior, Verbal Behavior physiology

Abstract

Children's early language environments are related to later development. Little is known about this association in siblings of children with autism spectrum disorder (ASD), who often experience language delays or have ASD. Fifty-nine 9-month-old infants at high or low familial risk for ASD contributed full-day in-home language recordings. High-risk infants produced more vocalizations than low-risk peers; conversational turns and adult words did not differ by group. Vocalization differences were driven by a subgroup of "hypervocal" infants. Despite more vocalizations overall, these infants engaged in less social babbling during a standardized clinic assessment, and they experienced fewer conversational turns relative to their rate of vocalizations. Two ways in which these individual and environmental differences may relate to subsequent development are discussed., (© 2017 The Authors. Child Development © 2017 Society for Research in Child Development, Inc.)

Published

2018

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

Author

Swanson MR, Wolff JJ, Elison JT, Gu H, Hazlett HC, Botteron K, Styner M, Paterson S, Gerig G, Constantino J, Dager S, Estes A, Vachet C, and Piven J

Subjects

Child Development, Corpus Callosum, Diffusion Magnetic Resonance Imaging, Humans, Infant, Nerve Fibers, Myelinated, Language, Language Development, Neural Pathways physiology, Speech Intelligibility physiology

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., (© 2015 John Wiley & Sons Ltd.)

Published

2017

41. Emerging Executive Functioning and Motor Development in Infants at High and Low Risk for Autism Spectrum Disorder.

Author

St John T, Estes AM, Dager SR, Kostopoulos P, Wolff JJ, Pandey J, Elison JT, Paterson SJ, Schultz RT, Botteron K, Hazlett H, and Piven J

Abstract

Existing evidence suggests executive functioning (EF) deficits may be present in children with autism spectrum disorder (ASD) by 3 years of age. It is less clear when, prior to 3 years, EF deficits may emerge and how EF unfold over time. The contribution of motor skill difficulties to poorer EF in children with ASD has not been systematically studied. We investigated the developmental trajectory of EF in infants at high and low familial risk for ASD (HR and LR) and the potential associations between motor skills, diagnostic group, and EF performance. Participants included 186 HR and 76 LR infants. EF (A-not-B), motor skills (Fine and Gross Motor), and cognitive ability were directly assessed at 12 months and 24 months of age. Participants were directly evaluated for ASD at 24 months using DSM-IV-TR criteria and categorized as HR-ASD, HR-Negative, and LR-Negative. HR-ASD and HR-Negative siblings demonstrated less improvement in EF over time compared to the LR-Negative group. Motor skills were associated with group and EF performance at 12 months. No group differences were found at 12 months, but at 24 months, the HR-ASD and HR-Negative groups performed worse than the LR-Negative group overall after controlling for visual reception and maternal education. On reversal trials, the HR-ASD group performed worse than the LR-Negative group. Motor skills were associated with group and EF performance on reversal trials at 24 months. Findings suggest that HR siblings demonstrate altered EF development and that motor skills may play an important role in this process.

Published

2016

42. Early Childhood Depression and Alterations in the Trajectory of Gray Matter Maturation in Middle Childhood and Early Adolescence.

Author

Luby JL, Belden AC, Jackson JJ, Lessov-Schlaggar CN, Harms MP, Tillman R, Botteron K, Whalen D, and Barch DM

Subjects

Adolescent, Cerebral Cortex pathology, Child, Child, Preschool, Depressive Disorder pathology, Female, Gray Matter pathology, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Organ Size, Prospective Studies, Cerebral Cortex growth & development, Depressive Disorder, Major pathology, Gray Matter growth & development

Abstract

Importance: The trajectory of cortical gray matter development in childhood has been characterized by early neurogenesis and volume increase, peaking at puberty followed by selective elimination and myelination, resulting in volume loss and thinning. This inverted U-shaped trajectory, as well as cortical thickness, has been associated with cognitive and emotional function. Synaptic pruning-based volume decline has been related to experience-dependent plasticity in animals. To date, there have been no data to inform whether and how childhood depression might be associated with this trajectory., Objective: To examine the effects of early childhood depression, from the preschool age to the school age period, on cortical gray matter development measured across 3 waves of neuroimaging from late school age to early adolescence., Design, Setting, and Participants: Data were collected in an academic research setting from September 22, 2003, to December 13, 2014, on 193 children aged 3 to 6 years from the St Louis, Missouri, metropolitan area who were observed for up to 11 years in a longitudinal behavioral and neuroimaging study of childhood depression. Multilevel modeling was applied to explore the association between the number of childhood depression symptoms and prior diagnosis of major depressive disorder and the trajectory of gray matter change across 3 scan waves. Data analysis was conducted from October 29, 2014, to September 28, 2015., Main Outcomes and Measures: Volume, thickness, and surface area of cortical gray matter measured using structural magnetic resonance imaging at 3 scan waves., Results: Of the 193 children, 90 had a diagnosis of major depressive disorder; 116 children had 3 full waves of neuroimaging scans. Findings demonstrated marked alterations in cortical gray matter volume loss (slope estimate, -0.93 cm³; 95% CI, -1.75 to -0.10 cm³ per scan wave) and thinning (slope estimate, -0.0044 mm; 95% CI, -0.0077 to -0.0012 mm per scan wave) associated with experiencing an episode of major depressive disorder before the first magnetic resonance imaging scan. In contrast, no significant associations were found between development of gray matter and family history of depression or experiences of traumatic or stressful life events during this period., Conclusions and Relevance: This study demonstrates an association between early childhood depression and the trajectory of cortical gray matter development in late school age and early adolescence. These findings underscore the significance of early childhood depression on alterations in neural development., Competing Interests: Dr. Luby declares no conflict of interest. Dr. Belden declares no conflict of interest. Dr. Harms declares no conflict of interest. Dr. Botteron declares no conflict of interest. Dr. Jackson declares no conflict of interest. Dr. Lessov-Schlaggar declares no conflict of interest. Ms. Tillman declares no conflict of interest. Dr. Whalen declares no conflict of interest.

Published

2016

43. Ventromedial prefrontal cortex thinning in preschool-onset depression.

Author

Marrus N, Belden A, Nishino T, Handler T, Ratnanather JT, Miller M, Barch D, Luby J, and Botteron K

Subjects

Age of Onset, Anxiety Disorders complications, Anxiety Disorders pathology, Case-Control Studies, Child, Depressive Disorder, Major complications, Depressive Disorder, Major psychology, Female, Humans, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Male, Neuroimaging, Depressive Disorder, Major pathology, Prefrontal Cortex pathology

Abstract

Background: The ventromedial prefrontal cortex (VMPFC) is a key center of affect regulation and processing, fundamental aspects of emotional competence which are disrupted in mood disorders. Structural alterations of VMPFC have consistently been observed in adult major depression and are associated with depression severity, yet it is unknown whether young children with depression demonstrate similar abnormalities. We investigated cortical thickness differences in the VMPFC of children with a history of preschool-onset depression (PO-MDD)., Methods: Participants in a longitudinal study of PO-MDD underwent structural brain imaging between the ages of 7 and 12 years. Using local cortical distance metrics, cortical thickness of the VMPFC was compared in children with and without a history of PO-MDD., Results: Children previously diagnosed with PO-MDD (n=34) had significantly thinner right VMPFC vs. children without a history of PO-MDD [(n=95); F(1,126)=5.97, (p=.016)]. This effect was specific to children with a history of PO-MDD vs. other psychiatric conditions and was independent of comorbid anxiety or externalizing disorders. Decreases in right VMPFC thickness were predicted by preschool depressive symptoms independent of depressive symptoms in school age., Limitations: Results are cross-sectional and cannot distinguish whether thinner right VMPFC represents a vulnerability marker of MDD, consequence of MDD, or marker of remitted MDD. Longitudinal imaging is needed to contextualize how this difference relates to normative VMPFC structural development., Conclusions: Onset of depression at preschool age was associated with decreased cortical thickness of right VMPFC. This finding implicates the VMPFC in depression from very early stages of brain development., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

44. Behavioral, cognitive, and adaptive development in infants with autism spectrum disorder in the first 2 years of life.

Author

Estes A, Zwaigenbaum L, Gu H, St John T, Paterson S, Elison JT, Hazlett H, Botteron K, Dager SR, Schultz RT, Kostopoulos P, Evans A, Dawson G, Eliason J, Alvarez S, and Piven J

Abstract

Background: To delineate the early progression of autism spectrum disorder (ASD) symptoms, this study investigated developmental characteristics of infants at high familial risk for ASD (HR), and infants at low risk (LR)., Methods: Participants included 210 HR and 98 LR infants across 4 sites with comparable behavioral data at age 6, 12, and 24 months assessed in the domains of cognitive development (Mullen Scales of Early Learning), adaptive skills (Vineland Adaptive Behavioral Scales), and early behavioral features of ASD (Autism Observation Scale for Infants). Participants evaluated according to the DSM-IV-TR criteria at 24 months and categorized as ASD-positive or ASD-negative were further stratified by empirically derived cutoff scores using the Autism Diagnostic Observation Schedule yielding four groups: HR-ASD-High, HR-ASD-Moderate (HR-ASD-Mod), HR-ASD-Negative (HR-Neg), and LR-ASD-Negative (LR-Neg)., Results: The four groups demonstrated different developmental trajectories that became increasingly distinct from 6 to 24 months across all domains. At 6 months, the HR-ASD-High group demonstrated less advanced Gross Motor and Visual Reception skills compared with the LR-Neg group. By 12 months, the HR-ASD-High group demonstrated increased behavioral features of ASD and decreased cognitive and adaptive functioning compared to the HR-Neg and LR-Neg groups. By 24 months, both the HR-ASD-High and HR-ASD-Moderate groups demonstrated differences from the LR- and HR-Neg groups in all domains., Conclusions: These findings reveal atypical sensorimotor development at 6 months of age which is associated with ASD at 24 months in the most severely affected group of infants. Sensorimotor differences precede the unfolding of cognitive and adaptive deficits and behavioral features of autism across the 6- to 24-month interval. The less severely affected group demonstrates later symptom onset, in the second year of life, with initial differences in the social-communication domain.

Published

2015

45. Network inefficiencies in autism spectrum disorder at 24 months.

Author

Lewis JD, Evans AC, Pruett JR, Botteron K, Zwaigenbaum L, Estes A, Gerig G, Collins L, Kostopoulos P, McKinstry R, Dager S, Paterson S, Schultz RT, Styner M, Hazlett H, and Piven J

Subjects

Child, Preschool, Diffusion Tensor Imaging, Female, Humans, Male, Risk, Severity of Illness Index, Cerebral Cortex physiopathology, Child Development Disorders, Pervasive physiopathology, Nerve Net physiopathology

Abstract

Autism spectrum disorder (ASD) is a developmental disorder defined by behavioral symptoms that emerge during the first years of life. Associated with these symptoms are differences in the structure of a wide array of brain regions, and in the connectivity between these regions. However, the use of cohorts with large age variability and participants past the generally recognized age of onset of the defining behaviors means that many of the reported abnormalities may be a result of cascade effects of developmentally earlier deviations. This study assessed differences in connectivity in ASD at the age at which the defining behaviors first become clear. There were 113 24-month-old participants at high risk for ASD, 31 of whom were classified as ASD, and 23 typically developing 24-month-old participants at low risk for ASD. Utilizing diffusion data to obtain measures of the length and strength of connections between anatomical regions, we performed an analysis of network efficiency. Our results showed significantly decreased local and global efficiency over temporal, parietal and occipital lobes in high-risk infants classified as ASD, relative to both low- and high-risk infants not classified as ASD. The frontal lobes showed only a reduction in global efficiency in Broca's area. In addition, these same regions showed an inverse relation between efficiency and symptom severity across the high-risk infants. The results suggest delay or deficits in infants with ASD in the optimization of both local and global aspects of network structure in regions involved in processing auditory and visual stimuli, language and nonlinguistic social stimuli.

Published

2014

46. The effects of poverty on childhood brain development: the mediating effect of caregiving and stressful life events.

Author

Luby J, Belden A, Botteron K, Marrus N, Harms MP, Babb C, Nishino T, and Barch D

Subjects

Caregivers, Child, Depression epidemiology, Female, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Stress, Psychological, Washington, Brain growth & development, Child Development, Depression etiology, Life Change Events, Poverty statistics & numerical data

Abstract

IMPORTANCE The study provides novel data to inform the mechanisms by which poverty negatively impacts childhood brain development. OBJECTIVE To investigate whether the income-to-needs ratio experienced in early childhood impacts brain development at school age and to explore the mediators of this effect. DESIGN, SETTING, AND PARTICIPANTS This study was conducted at an academic research unit at the Washington University School of Medicine in St Louis. Data from a prospective longitudinal study of emotion development in preschool children who participated in neuroimaging at school age were used to investigate the effects of poverty on brain development. Children were assessed annually for 3 to 6 years prior to the time of a magnetic resonance imaging scan, during which they were evaluated on psychosocial, behavioral, and other developmental dimensions. Preschoolers included in the study were 3 to 6 years of age and were recruited from primary care and day care sites in the St Louis metropolitan area; they were annually assessed behaviorally for 5 to 10 years. Healthy preschoolers and those with clinical symptoms of depression participated in neuroimaging at school age/early adolescence. EXPOSURE Household poverty as measured by the income-to-needs ratio. MAIN OUTCOMES AND MEASURES Brain volumes of children's white matter and cortical gray matter, as well as hippocampus and amygdala volumes, obtained using magnetic resonance imaging. Mediators of interest were caregiver support/hostility measured observationally during the preschool period and stressful life events measured prospectively. RESULTS Poverty was associated with smaller white and cortical gray matter and hippocampal and amygdala volumes. The effects of poverty on hippocampal volume were mediated by caregiving support/hostility on the left and right, as well as stressful life events on the left. CONCLUSIONS AND RELEVANCE The finding that exposure to poverty in early childhood materially impacts brain development at school age further underscores the importance of attention to the well-established deleterious effects of poverty on child development. Findings that these effects on the hippocampus are mediated by caregiving and stressful life events suggest that attempts to enhance early caregiving should be a focused public health target for prevention and early intervention. Findings substantiate the behavioral literature on the negative effects of poverty on child development and provide new data confirming that effects extend to brain development. Mechanisms for these effects on the hippocampus are suggested to inform intervention.

Published

2013

47. Default mode network connectivity in children with a history of preschool onset depression.

Author

Gaffrey MS, Luby JL, Botteron K, Repovš G, and Barch DM

Subjects

Age of Onset, Case-Control Studies, Child, Female, Gyrus Cinguli physiopathology, Humans, Magnetic Resonance Imaging instrumentation, Male, Prospective Studies, Psychiatric Status Rating Scales, Wechsler Scales, Brain physiopathology, Depressive Disorder, Major physiopathology, Magnetic Resonance Imaging methods, Nerve Net physiopathology

Abstract

Background: Atypical Default Mode Network (DMN) functional connectivity has been previously reported in depressed adults. However, there is relatively little data informing the developmental nature of this phenomenon. The current case-control study examined the DMN in a unique prospective sample of school-age children with a previous history of preschool depression., Methods: DMN functional connectivity was assessed using resting state functional connectivity magnetic resonance imaging data and the posterior cingulate (PCC) as a seed region of interest. Thirty-nine medication naïve school age children (21 with a history of preschool depression and 18 healthy peers) and their families who were ascertained as preschoolers and prospectively assessed over at least 4 annual waves as part of a federally funded study of preschool depression were included., Results:   Decreased connectivity between the PCC and regions within the middle temporal gyrus (MTG), inferior parietal lobule, and cerebellum was found in children with known depression during the preschool period. Increased connectivity between the PCC and regions within the subgenual and anterior cingulate cortices and anterior MTG bilaterally was also found in these children. Additionally, a clinically relevant 'brain-behavior' relationship between atypical functional connectivity of the PCC and disruptions in emotion regulation was identified., Conclusions: To our knowledge, this is the first study to examine the DMN in children known to have experienced the onset of a clinically significant depressive syndrome during preschool. Results suggest that a history of preschool depression is associated with atypical DMN connectivity. However, longitudinal studies are needed to clarify whether the current findings of atypical DMN connectivity are a precursor or a consequence of preschool depression., (© 2012 The Authors. Journal of Child Psychology and Psychiatry © 2012 Association for Child and Adolescent Mental Health.)

Published

2012

48. Anomalous functional brain activation following negative mood induction in children with pre-school onset major depression.

Author

Pagliaccio D, Luby J, Gaffrey M, Belden A, Botteron K, Gotlib IH, and Barch DM

Subjects

Acoustic Stimulation methods, Child, Child, Preschool, Depressive Disorder, Major diagnosis, Depressive Disorder, Major psychology, Female, Humans, Limbic System physiopathology, Magnetic Resonance Imaging methods, Male, Photic Stimulation methods, Prefrontal Cortex physiopathology, Affect physiology, Brain physiopathology, Depressive Disorder, Major physiopathology, Nerve Net physiopathology

Abstract

While major depressive disorder has been shown to be a significant mental health issue for school-age children, recent research indicates that depression can be observed in children as early as the preschool period. Yet, little work has been done to explore the neurobiological factors associated with this early form of depression. Given research suggesting a relation between adult depression and anomalies in emotion-related neural circuitry, the goal of the current study was to elucidate changes in functional activation during negative mood induction and emotion regulation in school-age children with a history of preschool-onset depression. The results suggest that a history of depression during the preschool period is associated with decreased activity in prefrontal cortex during mood induction and regulation. Moreover, the severity of current depressed mood was associated with increased activity in limbic regions, such as the amygdala, particularly in children with a history of depression. Similar to results observed in adult depression, the current findings indicate disruptions in emotion-related neural circuitry associated with preschool-onset depression., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

49. Unbiased average age-appropriate atlases for pediatric studies.

Author

Fonov V, Evans AC, Botteron K, Almli CR, McKinstry RC, and Collins DL

Subjects

Adolescent, Age Factors, Algorithms, Brain growth & development, Child, Child, Preschool, Databases, Factual, Humans, Image Processing, Computer-Assisted methods, Observer Variation, Reference Values, Brain anatomy & histology, Magnetic Resonance Imaging methods, Pediatrics methods

Abstract

Spatial normalization, registration, and segmentation techniques for Magnetic Resonance Imaging (MRI) often use a target or template volume to facilitate processing, take advantage of prior information, and define a common coordinate system for analysis. In the neuroimaging literature, the MNI305 Talairach-like coordinate system is often used as a standard template. However, when studying pediatric populations, variation from the adult brain makes the MNI305 suboptimal for processing brain images of children. Morphological changes occurring during development render the use of age-appropriate templates desirable to reduce potential errors and minimize bias during processing of pediatric data. This paper presents the methods used to create unbiased, age-appropriate MRI atlas templates for pediatric studies that represent the average anatomy for the age range of 4.5-18.5 years, while maintaining a high level of anatomical detail and contrast. The creation of anatomical T1-weighted, T2-weighted, and proton density-weighted templates for specific developmentally important age-ranges, used data derived from the largest epidemiological, representative (healthy and normal) sample of the U.S. population, where each subject was carefully screened for medical and psychiatric factors and characterized using established neuropsychological and behavioral assessments. Use of these age-specific templates was evaluated by computing average tissue maps for gray matter, white matter, and cerebrospinal fluid for each specific age range, and by conducting an exemplar voxel-wise deformation-based morphometry study using 66 young (4.5-6.9 years) participants to demonstrate the benefits of using the age-appropriate templates. The public availability of these atlases/templates will facilitate analysis of pediatric MRI data and enable comparison of results between studies in a common standardized space specific to pediatric research., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

50. Segmentation of arteries in MPRAGE images of the ventral medial prefrontal cortex.

Author

Penumetcha N, Jedynak B, Hosakere M, Ceyhan E, Botteron KN, and Ratnanather JT

Subjects

Algorithms, Humans, Image Enhancement methods, Numerical Analysis, Computer-Assisted, Pattern Recognition, Automated methods, Subtraction Technique, Arteries anatomy & histology, Magnetic Resonance Imaging methods, Prefrontal Cortex blood supply

Abstract

A method for removing arteries that appear bright with intensities similar to white matter in Magnetized Prepared Rapid Gradient Echo images of the ventral medial prefrontal cortex is described. The Fast Marching method is used to generate a curve within the artery. Then, the largest connected component is selected to segment the artery which is used to mask the image. The surface reconstructed from the masked image yielded cortical thickness maps similar to those generated by manually pruning the arteries from surfaces reconstructed from the original image. The method may be useful in masking vasculature in other cortical regions.

Published

2008