His primary scientific interests are in Neuroscience, Lateralization of brain function, Cognitive psychology, Internal medicine and Brain mapping. Neuroscience connects with themes related to Schizophrenia in his study. His studies deal with areas such as Superior temporal gyrus, Communication, Auditory cortex, Language area and Superior temporal sulcus as well as Lateralization of brain function.
He interconnects Context, Audiology, American Sign Language and Language production, Cognition in the investigation of issues within Cognitive psychology. His Internal medicine research integrates issues from Endocrinology and Cardiology. The various areas that Allen R. Braun examines in his Brain mapping study include Salient, Nerve net and Consciousness.
Allen R. Braun mostly deals with Neuroscience, Cognitive psychology, Lateralization of brain function, Audiology and Brain mapping. His study in Prefrontal cortex, Brain activity and meditation, Auditory cortex, Slow-wave sleep and Electroencephalography is carried out as part of his Neuroscience studies. The concepts of his Cognitive psychology study are interwoven with issues in Language production, Cognition, Functional magnetic resonance imaging and American Sign Language.
His study in Lateralization of brain function is interdisciplinary in nature, drawing from both Stroke, Middle temporal gyrus and Communication. His Audiology study combines topics in areas such as Motor control, Speech production, Cerebral blood flow and Fluency. His Brain mapping research includes elements of Cerebral cortex, Frontal lobe, Habituation, Visual system and Syntax.
Cognitive psychology, Neuroscience, Functional magnetic resonance imaging, Brain mapping and Electroencephalography are his primary areas of study. His Cognitive psychology research incorporates themes from Insula, Comprehension, Sentence, Natural language processing and Cognition. Many of his studies on Neuroscience apply to Deep brain stimulation as well.
His Functional magnetic resonance imaging research is multidisciplinary, incorporating perspectives in Neural correlates of consciousness, Affect and Artificial intelligence. His studies in Brain mapping integrate themes in fields like Independent component analysis and Feature. As a member of one scientific family, Allen R. Braun mostly works in the field of Neuroscience of sleep, focusing on Sleep onset and, on occasion, Slow-wave sleep.
His primary areas of study are Neuroscience, Brain mapping, Cognitive psychology, Neural correlates of consciousness and Functional magnetic resonance imaging. His Neuroscience study frequently draws connections between related disciplines such as Context. His Brain mapping research is multidisciplinary, relying on both Memory consolidation, Thalamus, Cerebral cortex, Electroencephalography and Neuroplasticity.
Allen R. Braun is involved in the study of Cognitive psychology that focuses on Lateralization of brain function in particular. His Neural correlates of consciousness research incorporates elements of Affect, Motor control, Language production, Theory of mind and Precuneus. His work on Inferior parietal lobule is typically connected to Premotor cortex as part of general Functional magnetic resonance imaging study, connecting several disciplines of science.
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Regional cerebral blood flow throughout the sleep-wake cycle. An H2(15)O PET study
A R Braun;T J Balkin;N J Wesenten;R E Carson.
Neural Substrates of Spontaneous Musical Performance: An fMRI Study of Jazz Improvisation
Charles J. Limb;Allen R. Braun.
PLOS ONE (2008)
Regional cerebral blood flow throughout the sleep- wake cycle
A. R. Braun;T. J. Balkin;N. J. Wesensten;R. E. Carson.
Asymmetry of Chimpanzee Planum Temporale: Humanlike Pattern of Wernicke's Brain Language Area Homolog
Patrick J. Gannon;Ralph L. Holloway;Douglas C. Broadfield;Allen R. Braun.
Dissociated pattern of activity in visual cortices and their projections during human rapid eye movement sleep.
Allen R. Braun;Thomas J. Balkin;Thomas J. Balkin;Nancy J. Wesensten;Nancy J. Wesensten;Fuad Gwadry;Fuad Gwadry.
Cerebral organization for language in deaf and hearing subjects: Biological constraints and effects of experience
Helen J. Neville;Daphne Bavelier;David Corina;Josef Rauschecker.
Proceedings of the National Academy of Sciences of the United States of America (1998)
Decoupling of the brain's default mode network during deep sleep
Silvina G. Horovitz;Allen R. Braun;Walter S. Carr;Dante Picchioni.
Proceedings of the National Academy of Sciences of the United States of America (2009)
Hierarchical and asymmetric temporal sensitivity in human auditory cortices
Anthony Boemio;Stephen Fromm;Allen Braun;David Poeppel.
Nature Neuroscience (2005)
D1 dopamine receptor activation required for postsynaptic expression of D2 agonist effects
Judith R. Walters;Debra A. Bergstrom;Joanne H. Carlson;Thomas N. Chase.
Language in context: emergent features of word, sentence, and narrative comprehension.
Jiang Xu;Stefan Kemeny;Grace Park;Carol Frattali.
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