F. Kurth, D. Schijven, O. A. van den Heuvel, M. Hoogman, D. van Rooij, D. J. Stein, J. K. Buitelaar, S. Bölte, G. Auzias, A. Kushki, G. Venkatasubramanian, K. Rubia, S. Bollmann, J. Isaksson, F. Jaspers-Fayer, R. Marsh, M. C. Batistuzzo, P. D. Arnold, R. A. Bressan, S. E. Stewart, P. Gruner, L. Sorensen, P. M. Pan, T. J. Silk, R. C. Gur, A. I. Cubillo, J. Haavik, R. L. O'Gorman Tuura, C. A. Hartman, R. Calvo, J. McGrath, S. Calderoni, A. Jackowski, K. C. Chantiluke, T. D. Satterthwaite, G. F. Busatto, J. T. Nigg, R. E. Gur, A. Retico, M. Tosetti, L. Gallagher, P. R. Szeszko, J. Neufeld, A. E. Ortiz, C. Ghisleni, L. Lazaro, P. J. Hoekstra, E. Anagnostou, L. Hoekstra, B. Simpson, J. K. Plessen, C. Deruelle, N. Soreni, A. James, J. Narayanaswamy, J. Y. Reddy, J. Fitzgerald, M. A. Bellgrove, G. A. Salum, J. Janssen, F. Muratori, M. Vila, M. Garcia Giral, S. H. Ameis, P. Bosco, K. Lundin Remnélius, C. Huyser, J. C. Pariente, M. Jalbrzikowski, P. G. Rosa, K. M. O'Hearn, S. Ehrlich, J. Mollon, A. Zugman, A. Christakou, C. Arango, S. E. Fisher, X. Kong, B. Franke, S. E. Medland, S. I. Thomopoulos, N. Jahanshad, D. C. Glahn, P. M. Thompson, C. Francks, E. Luders
{"title":"神经发育过程中大脑结构不对称的大规模分析:4265 名儿童和青少年的年龄与性别关系。","authors":"F. Kurth, D. Schijven, O. A. van den Heuvel, M. Hoogman, D. van Rooij, D. J. Stein, J. K. Buitelaar, S. Bölte, G. Auzias, A. Kushki, G. Venkatasubramanian, K. Rubia, S. Bollmann, J. Isaksson, F. Jaspers-Fayer, R. Marsh, M. C. Batistuzzo, P. D. Arnold, R. A. Bressan, S. E. Stewart, P. Gruner, L. Sorensen, P. M. Pan, T. J. Silk, R. C. Gur, A. I. Cubillo, J. Haavik, R. L. O'Gorman Tuura, C. A. Hartman, R. Calvo, J. McGrath, S. Calderoni, A. Jackowski, K. C. Chantiluke, T. D. Satterthwaite, G. F. Busatto, J. T. Nigg, R. E. Gur, A. Retico, M. Tosetti, L. Gallagher, P. R. Szeszko, J. Neufeld, A. E. Ortiz, C. Ghisleni, L. Lazaro, P. J. Hoekstra, E. Anagnostou, L. Hoekstra, B. Simpson, J. K. Plessen, C. Deruelle, N. Soreni, A. James, J. Narayanaswamy, J. Y. Reddy, J. Fitzgerald, M. A. Bellgrove, G. A. Salum, J. Janssen, F. Muratori, M. Vila, M. Garcia Giral, S. H. Ameis, P. Bosco, K. Lundin Remnélius, C. Huyser, J. C. Pariente, M. Jalbrzikowski, P. G. Rosa, K. M. O'Hearn, S. Ehrlich, J. Mollon, A. Zugman, A. Christakou, C. Arango, S. E. Fisher, X. Kong, B. Franke, S. E. Medland, S. I. Thomopoulos, N. Jahanshad, D. C. Glahn, P. M. Thompson, C. Francks, E. Luders","doi":"10.1002/hbm.26754","DOIUrl":null,"url":null,"abstract":"<p>Only a small number of studies have assessed structural differences between the two hemispheres during childhood and adolescence. However, the existing findings lack consistency or are restricted to a particular brain region, a specific brain feature, or a relatively narrow age range. Here, we investigated associations between brain asymmetry and age as well as sex in one of the largest pediatric samples to date (<i>n</i> = 4265), aged 1–18 years, scanned at 69 sites participating in the ENIGMA (Enhancing NeuroImaging Genetics through Meta-Analysis) consortium. Our study revealed that significant brain asymmetries already exist in childhood, but their magnitude and direction depend on the brain region examined and the morphometric measurement used (cortical volume or thickness, regional surface area, or subcortical volume). With respect to effects of age, some asymmetries became weaker over time while others became stronger; sometimes they even reversed direction. With respect to sex differences, the total number of regions exhibiting significant asymmetries was larger in females than in males, while the total number of measurements indicating significant asymmetries was larger in males (as we obtained more than one measurement per cortical region). The magnitude of the significant asymmetries was also greater in males. However, effect sizes for both age effects and sex differences were small. Taken together, these findings suggest that cerebral asymmetries are an inherent organizational pattern of the brain that manifests early in life. Overall, brain asymmetry appears to be relatively stable throughout childhood and adolescence, with some differential effects in males and females.</p>","PeriodicalId":13019,"journal":{"name":"Human Brain Mapping","volume":null,"pages":null},"PeriodicalIF":3.5000,"publicationDate":"2024-07-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11267452/pdf/","citationCount":"0","resultStr":"{\"title\":\"Large-scale analysis of structural brain asymmetries during neurodevelopment: Associations with age and sex in 4265 children and adolescents\",\"authors\":\"F. Kurth, D. Schijven, O. A. van den Heuvel, M. Hoogman, D. van Rooij, D. J. Stein, J. K. Buitelaar, S. Bölte, G. Auzias, A. Kushki, G. Venkatasubramanian, K. Rubia, S. Bollmann, J. Isaksson, F. Jaspers-Fayer, R. Marsh, M. C. Batistuzzo, P. D. Arnold, R. A. Bressan, S. E. Stewart, P. Gruner, L. Sorensen, P. M. Pan, T. J. Silk, R. C. Gur, A. I. Cubillo, J. Haavik, R. L. O'Gorman Tuura, C. A. Hartman, R. Calvo, J. McGrath, S. Calderoni, A. Jackowski, K. C. Chantiluke, T. D. Satterthwaite, G. F. Busatto, J. T. Nigg, R. E. Gur, A. Retico, M. Tosetti, L. Gallagher, P. R. Szeszko, J. Neufeld, A. E. Ortiz, C. Ghisleni, L. Lazaro, P. J. Hoekstra, E. Anagnostou, L. Hoekstra, B. Simpson, J. K. Plessen, C. Deruelle, N. Soreni, A. James, J. Narayanaswamy, J. Y. Reddy, J. Fitzgerald, M. A. Bellgrove, G. A. Salum, J. Janssen, F. Muratori, M. Vila, M. Garcia Giral, S. H. Ameis, P. Bosco, K. Lundin Remnélius, C. Huyser, J. C. Pariente, M. Jalbrzikowski, P. G. Rosa, K. M. O'Hearn, S. Ehrlich, J. Mollon, A. Zugman, A. Christakou, C. Arango, S. E. Fisher, X. Kong, B. Franke, S. E. Medland, S. I. Thomopoulos, N. Jahanshad, D. C. Glahn, P. M. Thompson, C. Francks, E. 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Large-scale analysis of structural brain asymmetries during neurodevelopment: Associations with age and sex in 4265 children and adolescents
Only a small number of studies have assessed structural differences between the two hemispheres during childhood and adolescence. However, the existing findings lack consistency or are restricted to a particular brain region, a specific brain feature, or a relatively narrow age range. Here, we investigated associations between brain asymmetry and age as well as sex in one of the largest pediatric samples to date (n = 4265), aged 1–18 years, scanned at 69 sites participating in the ENIGMA (Enhancing NeuroImaging Genetics through Meta-Analysis) consortium. Our study revealed that significant brain asymmetries already exist in childhood, but their magnitude and direction depend on the brain region examined and the morphometric measurement used (cortical volume or thickness, regional surface area, or subcortical volume). With respect to effects of age, some asymmetries became weaker over time while others became stronger; sometimes they even reversed direction. With respect to sex differences, the total number of regions exhibiting significant asymmetries was larger in females than in males, while the total number of measurements indicating significant asymmetries was larger in males (as we obtained more than one measurement per cortical region). The magnitude of the significant asymmetries was also greater in males. However, effect sizes for both age effects and sex differences were small. Taken together, these findings suggest that cerebral asymmetries are an inherent organizational pattern of the brain that manifests early in life. Overall, brain asymmetry appears to be relatively stable throughout childhood and adolescence, with some differential effects in males and females.
期刊介绍:
Human Brain Mapping publishes peer-reviewed basic, clinical, technical, and theoretical research in the interdisciplinary and rapidly expanding field of human brain mapping. The journal features research derived from non-invasive brain imaging modalities used to explore the spatial and temporal organization of the neural systems supporting human behavior. Imaging modalities of interest include positron emission tomography, event-related potentials, electro-and magnetoencephalography, magnetic resonance imaging, and single-photon emission tomography. Brain mapping research in both normal and clinical populations is encouraged.
Article formats include Research Articles, Review Articles, Clinical Case Studies, and Technique, as well as Technological Developments, Theoretical Articles, and Synthetic Reviews. Technical advances, such as novel brain imaging methods, analyses for detecting or localizing neural activity, synergistic uses of multiple imaging modalities, and strategies for the design of behavioral paradigms and neural-systems modeling are of particular interest. The journal endorses the propagation of methodological standards and encourages database development in the field of human brain mapping.
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