Published online 2009 May 4. Prepublished online 2009 April 2. doi: 10.3389/neuro.18.003.2009.
Copyright © 2009 Falk.
New Information about Albert Einstein's Brain
Dean Falk1*
1Department of Anthropology, Florida State University, Tallahassee, FL, USA
Edited by: Steven M. Platek, Georgia Gwinnett College, USA
Reviewed by: Keith Erickson, Georgia Gwinnett College, Lawrenceville, USA; Andrew C. Gallup, Binghamton University, USA; Katerina Semendeferi, University of California-San Diego, USA; Harry Jerison, University of California, USA
*Correspondence:Dean Falk, Department of Anthropology, Florida State University, 1847 W. Tennessee Street, Tallahassee, FL 32306-7772, USA. e-mail: dfalk@fsu.edu
Received February 27, 2009; Accepted April 7, 2009.
This is an open-access article subject to an exclusive license agreement between the authors and the Frontiers Research Foundation, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are credited.
Tiny metal electrodes are attached to Albert Einstein's head to pick up impulses from his brain and to magnify and record them for study in 1950 in Princeton, N.J. Dr. Alejandro Arellano kneels beside him.
Image not related to this article/Imagem não relacionada com este artigo: NPR
Abstract
In order to glean information about hominin (or other) brains that no longer exist, details of external neuroanatomy that are reproduced on endocranial casts (endocasts) from fossilized braincases may be described and interpreted. Despite being, of necessity, speculative, such studies can be very informative when conducted in light of the literature on comparative neuroanatomy, paleontology, and functional imaging studies. Albert Einstein's brain no longer exists in an intact state, but there are photographs of it in various views. Applying techniques developed from paleoanthropology, previously unrecognized details of external neuroanatomy are identified on these photographs. This information should be of interest to paleoneurologists, comparative neuroanatomists, historians of science, and cognitive neuroscientists. The new identifications of cortical features should also be archived for future scholars who will have access to additional information from improved functional imaging technology. Meanwhile, to the extent possible, Einstein's cerebral cortex is investigated in light of available data about variation in human sulcal patterns. Although much of his cortical surface was unremarkable, regions in and near Einstein's primary somatosensory and motor cortices were unusual. It is possible that these atypical aspects of Einstein's cerebral cortex were related to the difficulty with which he acquired language, his preference for thinking in sensory impressions including visual images rather than words, and his early training on the violin.
Keywords: Albert Einstein, Brodmann's area 40, cortical asymmetries, parietal operculum, sulcal patterns, sensory and motor cortices
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