Somatosensory lateralization in the newborn brain
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Marvin D. Nelson | Stephan G. Erberich | Ashok Panigrahy | Philippe Friedlich | Istvan Seri | Floyd Gilles | F. Gilles | A. Panigrahy | S. Erberich | I. Seri | M. Nelson | P. Friedlich
[1] Marvin D Nelson,et al. MR imaging of newborns by using an MR-compatible incubator with integrated radiofrequency coils: initial experience. , 2004, Radiology.
[2] M. Paley,et al. Ultrafast magnetic resonance imaging of the neonate in a magnetic resonance-compatible incubator with a built-in coil. , 2004, Pediatrics.
[3] Koji Inui,et al. Pain processing within the primary somatosensory cortex in humans , 2003, The European journal of neuroscience.
[4] Claudio Babiloni,et al. Functional topography of the secondary somatosensory cortex for nonpainful and painful stimuli: an fMRI study , 2003, NeuroImage.
[5] Marvin D. Nelson,et al. Functional MRI in neonates using neonatal head coil and MR compatible incubator , 2003, NeuroImage.
[6] J. Mehler,et al. Sounds and silence: An optical topography study of language recognition at birth , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[7] J. Roll,et al. Motor and parietal cortical areas both underlie kinaesthesia. , 2003, Brain research. Cognitive brain research.
[8] S. Dehaene,et al. Functional Neuroimaging of Speech Perception in Infants , 2002, Science.
[9] Gentaro Taga,et al. Functional brain imaging using fMRI and optical topography in infancy. , 2002, Sleep medicine.
[10] Hirohiko Kimura,et al. Age-Dependent Change in Metabolic Response to Photic Stimulation of the Primary Visual Cortex in Infants: Functional Magnetic Resonance Imaging Study , 2002, Journal of computer assisted tomography.
[11] E. J. Potchen,et al. Cortical activation during rhythmic hand movements performed under three types of control: An fMRI study , 2002, Cognitive, affective & behavioral neuroscience.
[12] T. Field,et al. Relative right versus left frontal EEG in neonates. , 2002, Developmental psychobiology.
[13] Milos Judas,et al. Correlation between the sequential ingrowth of afferents and transient patterns of cortical lamination in preterm infants , 2002, The Anatomical record.
[14] Gabriel Curio,et al. Event-related fMRI of the somatosensory system using electrical finger stimulation , 2002, Neuroreport.
[15] N Forss,et al. Functional overlap of finger representations in human SI and SII cortices. , 2001, Journal of neurophysiology.
[16] M. Sur,et al. Development and plasticity of cortical areas and networks , 2001, Nature Reviews Neuroscience.
[17] Lee M. Miller,et al. Stimulus-Based State Control in the Thalamocortical System , 2000, The Journal of Neuroscience.
[18] G. Dehaene-Lambertz. Cerebral Specialization for Speech and Non-Speech Stimuli in Infants , 2000, Journal of Cognitive Neuroscience.
[19] C. W. Yoxall,et al. Determinants of Cerebral Fractional Oxygen Extraction Using Near Infrared Spectroscopy in Preterm Neonates , 2000, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.
[20] E Rostrup,et al. Functional magnetic resonance imaging of the normal and abnormal visual system in early life. , 2000, Neuropediatrics.
[21] T. Mima,et al. Brain structures related to active and passive finger movements in man. , 1999, Brain : a journal of neurology.
[22] P. Hepper,et al. Development of lateralized behaviour in the human fetus from 12 to 27 weeks’gestation , 1999, Developmental medicine and child neurology.
[23] W. Williams,et al. Persistent low cerebral blood flow velocity following profound hypothermic circulatory arrest in infants , 1995, Canadian journal of anaesthesia = Journal canadien d'anesthesie.
[24] R. Turner,et al. Characterizing Evoked Hemodynamics with fMRI , 1995, NeuroImage.
[25] B Bouferrache,et al. Regulation of sleep and body temperature in response to exposure to cool and warm environments in neonates. , 1994, Pediatrics.
[26] G. Simbruner,et al. Brain Temperature Discriminates Between Neonates with Damaged, Hypoperfused, and Normal Brains , 1994, American journal of perinatology.
[27] G. Martin,et al. Development of brainstem and cerebellar projections to the diencephalon with notes on thalamocortical projections: Studies in the north american opossum , 1987, The Journal of comparative neurology.
[28] A L Towe,et al. Properties of proprioceptive neurons in the cuneate nucleus of the cat. , 1987, Journal of neurophysiology.
[29] K. H. Marks,et al. Energy metabolism and substrate utilization in low birth weight neonates under radiant warmers. , 1986, Pediatrics.
[30] M. Flower. Neuromaturation of the human fetus. , 1985, The Journal of medicine and philosophy.
[31] G. Cioni,et al. Lateralization of Sensory and Motor Functions in Human Neonates , 1982, Perceptual and motor skills.
[32] A. Towe,et al. Doubly projecting neurons of the dorsal column nuclei , 1981, Neuroscience Letters.
[33] M. Karplus,et al. Lack of limb motor asymmetry in the neonate. , 1978, Journal of neurobiology.
[34] G. Martin,et al. The early development of subcortical projections to presumptive somatic sensory-motor areas of neocortex in the North American opossum , 2004, Anatomy and Embryology.
[35] P. Zeeuwe,et al. Changes in cerebral hemodynamics and oxygenation during hypothermic cardiopulmonary bypass in neonates and infants. , 1996, Biology of the neonate.
[36] U. Tan,et al. The lateralization of the grasp reflex in human newborns. , 1992, The International journal of neuroscience.
[37] U. Tan. The relation of hand preference to hand performance in left-handers: importance of the left brain. , 1992, The International journal of neuroscience.
[38] G. Martin,et al. Anatomical demonstration of the location and collateralization of rubral neurons which project to the spinal cord, lateral brainstem and inferior olive in the North American opossum. , 1983, Brain, behavior and evolution.
[39] G. Martin,et al. Organization of projections from the gracile, medial cuneate and lateral nuclei in the North American opossum. Horseradish peroxidase study of the cells projecting to the cerebellum, thalamus and spinal cord. , 1981, Brain, behavior and evolution.
[40] G. Martin,et al. Organization of Projections from the Gracile, Medial Cuneate and Lateral Cuneate Nuclei in the North American Opossum , 1981 .