Very preterm adolescents show gender-dependent alteration of the structural brain correlates of spelling abilities
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R. Murray | M. Walshe | A. Mechelli | M. Allin | C. Nosarti | F. Scott | L. Rifkin | R. Murray | Fiona Scott
[1] Michelle Hampson,et al. Preterm birth results in alterations in neural connectivity at age 16 years , 2011, NeuroImage.
[2] G. Pilu,et al. Mode of delivery in the preterm gestation and maternal and neonatal outcome , 2010, The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians.
[3] E. Bertino,et al. Guidelines for the establishment and operation of a donor human milk bank , 2010, The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians.
[4] B. Luna,et al. Reading performance correlates with white‐matter properties in preterm and term children , 2010, Developmental medicine and child neurology.
[5] Michelle Hampson,et al. Alterations in neural connectivity in preterm children at school age , 2009, NeuroImage.
[6] J. Oosterlaan,et al. Meta-Analysis of Neurobehavioral Outcomes in Very Preterm and/or Very Low Birth Weight Children , 2009, Pediatrics.
[7] J. Rose,et al. Neonatal brain structure on MRI and diffusion tensor imaging, sex, and neurodevelopment in very‐low‐birthweight preterm children , 2009, Developmental medicine and child neurology.
[8] Derek K. Jones,et al. Diffusion tensor MRI of the corpus callosum and cognitive function in adults born preterm , 2009, Neuroreport.
[9] R Todd Constable,et al. Longitudinal Brain Volume Changes in Preterm and Term Control Subjects During Late Childhood and Adolescence , 2009, Pediatrics.
[10] B. Vohr,et al. Alterations in functional connectivity for language in prematurely born adolescents , 2009, Brain : a journal of neurology.
[11] C. Junqué,et al. Corpus callosum and prefrontal functions in adolescents with history of very preterm birth , 2008, Neuropsychologia.
[12] Virginia W. Berninger,et al. Abnormal fMRI connectivity in children with dyslexia during a phoneme task: Before but not after treatment , 2008, Journal of Neurolinguistics.
[13] Chiara Nosarti,et al. Cerebellar growth and behavioural & neuropsychological outcome in preterm adolescents. , 2008, Brain : a journal of neurology.
[14] B. Vohr,et al. Brain volume reductions within multiple cognitive systems in male preterm children at age twelve. , 2008, The Journal of pediatrics.
[15] B. Vohr,et al. Prematurely Born Children Demonstrate White Matter Microstructural Differences at 12 Years of Age, Relative to Term Control Subjects: An Investigation of Group and Gender Effects , 2008, Pediatrics.
[16] Saroj Saigal,et al. An overview of mortality and sequelae of preterm birth from infancy to adulthood , 2008, The Lancet.
[17] Catalina J. Hooper,et al. Working memory performance in typically developing children and adolescents: behavioral evidence of protracted frontal lobe development. , 2007 .
[18] Chiara Nosarti,et al. Growth of the corpus callosum in adolescents born preterm. , 2007, Archives of pediatrics & adolescent medicine.
[19] M. Walshe,et al. Cognitive maturation in preterm and term born adolescents , 2007, Journal of Neurology, Neurosurgery, and Psychiatry.
[20] Paul M. Thompson,et al. Sexual dimorphism of brain developmental trajectories during childhood and adolescence , 2007, NeuroImage.
[21] Tali Bitan,et al. Neural correlates of mapping from phonology to orthography in children performing an auditory spelling task. , 2007, Developmental science.
[22] A. Dale,et al. Clinical findings and white matter abnormalities seen on diffusion tensor imaging in adolescents with very low birth weight. , 2007, Brain : a journal of neurology.
[23] Núria Bargalló,et al. White matter volume and concentration reductions in adolescents with history of very preterm birth: A voxel-based morphometry study , 2006, NeuroImage.
[24] Deanne K. Thompson,et al. Perinatal risk factors altering regional brain structure in the preterm infant. , 2006, Brain : a journal of neurology.
[25] F. Baas,et al. The COMT val 158 met polymorphism and brain morphometry in healthy young adults , 2006, Neuroscience Letters.
[26] Núria Bargalló,et al. Correlations of thalamic reductions with verbal fluency impairment in those born prematurely , 2006, Neuroreport.
[27] Alan H. Wilman,et al. Males and females differ in brain activation during cognitive tasks , 2006, NeuroImage.
[28] R. Murray,et al. Neurological abnormalities in young adults born preterm , 2006, Journal of Neurology, Neurosurgery & Psychiatry.
[29] Cecil R. Reynolds,et al. A Model of the Development of Frontal Lobe Functioning: Findings From a Meta-Analysis , 2005, Applied neuropsychology.
[30] Chiara Nosarti,et al. Vermis and lateral lobes of the cerebellum in adolescents born very preterm , 2005, Neuroreport.
[31] Karl J. Friston,et al. Structural Covariance in the Human Cortex , 2005, The Journal of Neuroscience.
[32] Bin Huang,et al. Outcome of low birthweight in China: A 16‐year longitudinal study , 2005 .
[33] A. Proverbio,et al. Developmental changes in the linguistic brain after puberty , 2005, Trends in Cognitive Sciences.
[34] Chiara Nosarti,et al. Hyperactivity in adolescents born very preterm is associated with decreased caudate volume , 2005, Biological Psychiatry.
[35] A. LaCroix,et al. Risk Factors Associated with Acute Pyelonephritis in Healthy Women , 2005, Annals of Internal Medicine.
[36] Steven C. R. Williams,et al. Mapping IQ and gray matter density in healthy young people , 2004, NeuroImage.
[37] P. Filipek,et al. Long-term neuropsychological outcomes of very low birth weight: Associations with early risks for periventricular brain insults , 2004, Journal of the International Neuropsychological Society.
[38] James R. Booth,et al. Development of Brain Mechanisms for Processing Orthographic and Phonologic Representations , 2004, Journal of Cognitive Neuroscience.
[39] Chiara Nosarti,et al. Corpus callosum size and very preterm birth: relationship to neuropsychological outcome. , 2004, Brain : a journal of neurology.
[40] Chiara Nosarti,et al. Brain volumes in adult survivors of very low birth weight: a sibling-controlled study. , 2004, Pediatrics.
[41] Allan L Reiss,et al. Sex differences in cerebral volumes of 8-year-olds born preterm. , 2004, The Journal of pediatrics.
[42] Paul M. Thompson,et al. Gender differences in the left inferior frontal gyrus in normal children , 2004, NeuroImage.
[43] B. Vohr,et al. Center differences and outcomes of extremely low birth weight infants. , 2004, Pediatrics.
[44] N. Minich,et al. Longitudinal outcomes of very low birth weight: Neuropsychological findings , 2004, Journal of the International Neuropsychological Society.
[45] J. Wyatt,et al. The neurodevelopmental progress of infants less than 33 weeks into adolescence , 2004, Archives of Disease in Childhood.
[46] F. Craik,et al. Executive function across the life span. , 2004, Acta psychologica.
[47] B. Szende,et al. Human brain of preterm infants after hypoxic-ischaemic injuries: no evidence of a substantial role for apoptosis by using a fine-tuned ultrasound-guided neuropathological analysis , 2004, Brain and Development.
[48] Monica Luciana,et al. Cognitive development in children born preterm: Implications for theories of brain plasticity following early injury , 2003, Development and Psychopathology.
[49] H. Forssberg,et al. Preterm Children Have Disturbances of White Matter at 11 Years of Age as Shown by Diffusion Tensor Imaging , 2003, Pediatric Research.
[50] Thomas A Zeffiro,et al. Development of neural mechanisms for reading , 2003, Nature Neuroscience.
[51] R. Buxton,et al. Alternative brain organization after prenatal cerebral injury: Convergent fMRI and cognitive data , 2003, Journal of the International Neuropsychological Society.
[52] B. Vohr,et al. School-age outcomes of very low birth weight infants in the indomethacin intraventricular hemorrhage prevention trial. , 2003, Pediatrics.
[53] M. Eckert,et al. Anatomical correlates of dyslexia: frontal and cerebellar findings. , 2003, Brain : a journal of neurology.
[54] Ivanei E. Bramati,et al. The cerebral correlates of set-shifting: an fMRI study of the trail making test. , 2002, Arquivos de neuro-psiquiatria.
[55] L J Abernethy,et al. Quantitative magnetic resonance imaging of the brain in survivors of very low birth weight , 2002, Archives of disease in childhood.
[56] A. Bhutta,et al. Cognitive and behavioral outcomes of school-aged children who were born preterm: a meta-analysis. , 2002, JAMA.
[57] Chiara Nosarti,et al. Adolescents who were born very preterm have decreased brain volumes. , 2002, Brain : a journal of neurology.
[58] Tyrone D. Cannon,et al. Genetic influences on brain structure , 2001, Nature Neuroscience.
[59] A. Toga,et al. Mapping Continued Brain Growth and Gray Matter Density Reduction in Dorsal Frontal Cortex: Inverse Relationships during Postadolescent Brain Maturation , 2001, The Journal of Neuroscience.
[60] Alan C. Evans,et al. Structural asymmetries in the human brain: a voxel-based statistical analysis of 142 MRI scans. , 2001, Cerebral cortex.
[61] D G Gadian,et al. Calculation difficulties in children of very low birthweight: a neural correlate. , 2001, Brain : a journal of neurology.
[62] A. Toga,et al. Mapping cortical asymmetry and complexity patterns in normal children , 2001, Psychiatry Research: Neuroimaging.
[63] Karl J. Friston,et al. A Voxel-Based Morphometric Study of Ageing in 465 Normal Adult Human Brains , 2001, NeuroImage.
[64] N. Makris,et al. Normal sexual dimorphism of the adult human brain assessed by in vivo magnetic resonance imaging. , 2001, Cerebral cortex.
[65] J. Wyatt,et al. Neuropsychological outcome at adolescence of very preterm birth and its relation to brain structure. , 2001, Developmental medicine and child neurology.
[66] H. Taylor,et al. Perinatal brain injury in preterm infants and later neurobehavioral function. , 2000, JAMA.
[67] Christopher J. Cannistraci,et al. Regional brain volume abnormalities and long-term cognitive outcome in preterm infants. , 2000, JAMA.
[68] L. Goldstein,et al. Verbal fluency and executive dysfunction in amyotrophic lateral sclerosis (ALS) , 2000, Neuropsychologia.
[69] Alan Lucas,et al. Hippocampal Volume and Everyday Memory in Children of Very Low Birth Weight , 2000, Pediatric Research.
[70] Karl J. Friston,et al. Voxel-Based Morphometry—The Methods , 2000, NeuroImage.
[71] E. Tideman. Longitudinal follow-up of children born preterm: cognitive development at age 19. , 2000, Early human development.
[72] H. Kolk. Multiple Route Plasticity , 2000, Brain and Language.
[73] D. LeBihan,et al. Functional anatomy of cognitive development , 2000, Neurology.
[74] Alan C. Evans,et al. Brain development during childhood and adolescence: a longitudinal MRI study , 1999, Nature Neuroscience.
[75] R W Cooke,et al. Cranial magnetic resonance imaging and school performance in very low birth weight infants in adolescence , 1999, Archives of disease in childhood. Fetal and neonatal edition.
[76] B. McEwen,et al. Permanence of brain sex differences and structural plasticity of the adult brain. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[77] A. Toga,et al. Localizing Age-Related Changes in Brain Structure between Childhood and Adolescence Using Statistical Parametric Mapping , 1999, NeuroImage.
[78] D. Miller,et al. Brain structure and neurocognitive and behavioural function in adolescents who were born very preterm , 1999, The Lancet.
[79] N. Marlow,et al. Cognitive and educational outcome of very‐low‐birthweight children in early adolescence , 1998, Developmental medicine and child neurology.
[80] Karl J. Friston,et al. Human Brain Function , 1997 .
[81] Stephen M. Rao,et al. Human Brain Language Areas Identified by Functional Magnetic Resonance Imaging , 1997, The Journal of Neuroscience.
[82] A. Fanaroff,et al. Outcomes of extremely-low-birth-weight infants. , 1996, The New England journal of medicine.
[83] S. Brooke,et al. Endocrine Modulators of Necrotic Neuron Death , 1996, Brain pathology.
[84] Mitsuhiro Kawata,et al. Roles of steroid hormones and their receptors in structural organization in the nervous system , 1995, Neuroscience Research.
[85] S. Raz,et al. A Female Advantage in Cognitive Recovery from Early Cerebral Insult. , 1995 .
[86] J. Hutchison,et al. Developmental regulation of sex differences in the brain: Can the role of gonadal steroids be redefined? , 1994, Neuroscience.
[87] B. J. Casey,et al. Quantitative magnetic resonance imaging of human brain development: ages 4-18. , 1996, Cerebral cortex.
[88] A. L. Leiner,et al. Cognitive and language functions of the human cerebellum , 1993, Trends in Neurosciences.
[89] M. Zilbovicius,et al. Changes in regional cerebral blood flow during brain maturation in children and adolescents. , 1992, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[90] S. Chaikind,et al. The impact of low birthweight on special education costs. , 1991, Journal of health economics.
[91] Bryan Kolb,et al. Plasticity in the neocortex: mechanisms underlying recovery from early brain damage , 1989, Progress in Neurobiology.
[92] J. Talairach,et al. Co-Planar Stereotaxic Atlas of the Human Brain: 3-Dimensional Proportional System: An Approach to Cerebral Imaging , 1988 .
[93] Doreen Kimura,et al. Are men's and women's brains really different? , 1987 .
[94] Martha Taylor Sarno,et al. Assessment of Aphasia and Related Disorders , 1973 .
[95] E. Kaplan,et al. The assessment of aphasia and related disorders , 1972 .
[96] B. Vohr. Neurodevelopmental Outcomes of Preterm Birth: Cognitive and functional outcomes of children born preterm , 2010 .
[97] R. Murray,et al. Neurodevelopmental outcomes of preterm birth : from childhood to adult life , 2010 .
[98] R. Murray,et al. Neurodevelopmental Outcomes of Preterm Birth: Academic performance and learning disabilities , 2010 .
[99] R. Murray,et al. Neurodevelopmental outcomes following very preterm birth , 2010 .
[100] Chiara Nosarti,et al. Grey and white matter distribution in very preterm adolescents mediates neurodevelopmental outcome. , 2008, Brain : a journal of neurology.
[101] Maxwell P. Henderson,et al. Effects of very low birthweight on brain structure in adulthood. , 2004, Developmental medicine and child neurology.
[102] G. Aylward. Cognitive and neuropsychological outcomes: more than IQ scores. , 2002, Mental retardation and developmental disabilities research reviews.
[103] M. Allin,et al. Cognitive and motor function and the size of the cerebellum in adolescents born very pre-term. , 2001, Brain : a journal of neurology.
[104] J. Barth,et al. The Halstead-Reitan Neuropsychological Test Battery. , 2000 .
[105] A. Fanaroff,et al. Outcomes of children of extremely low birthweight and gestational age in the 1990's. , 1999, Early human development.
[106] B. McEwen,et al. Gonadal steroid influences on brain development and sexual differentiation. , 1983, International review of physiology.
[107] F. Newcombe,et al. Missile wounds of the brain: a study of psychological deficits , 1969 .