Richard A. Andersen (neuroscientist)

Richard Alan Andersen (born October 27, 1950) is an American neuroscientist. He is the James G. Boswell Professor of Neuroscience at the California Institute of Technology in Pasadena, California.[1] His research focuses on visual physiology with an emphasis on translational research to humans in the field of neuroprosthetics, brain-computer interfaces, and cortical repair.

Richard Alan Andersen
BornOctober 27, 1950 (1950-10-27) (age 72)
NationalityAmerican
CitizenshipAmerican
Alma mater
AwardsW. Alden Spencer Award (1994)
Scientific career
FieldsNeuroscience
InstitutionsCalifornia Institute of Technology

Massachusetts Institute of Technology
Salk Institute for Biological Studies

Johns Hopkins School of Medicine
ThesisFunctional Connections of the Central Auditory Nervous System: Thalamocortical, Corticothalamic and Corticotectal Connections of the AI, AII and AAF Auditory Cortical Fields (1979)
Doctoral advisorMichael Merzenich
Other academic advisorsVernon Benjamin Mountcastle
Websitewww.vis.caltech.edu

Biography

Andersen was born in New Kensington, Pennsylvania, on October 27, 1950.[1] He received his undergraduate degree in biochemistry at the University of California, Davis, in 1973, working in the laboratory of Prof. Robert Scobey over two summers.[1] Andersen then received his PhD in physiology under the mentorship of Prof. Michael Merzenich from the University of California, San Francisco, in 1979. He completed a postdoctoral fellowship with Prof. Vernon Mountcastle at the Johns Hopkins University School of Medicine in 1981. After serving as an assistant and associate professor at the Salk Institute in La Jolla, California and an adjunct associate professor at the University of California, San Diego, he moved to MIT, first as an associate and later as a full professor in the Department of Brain and Cognitive Science. In 1993 he moved to Caltech to join the Division of Biology.

Andersen, an author of over 200 scientific publications, is a member of the National Academy of Sciences and the Institute of Medicine of the National Academies as well as a fellow of the American Academy of Arts and Sciences, AAAS and the Neuroscience Research Program in La Jolla, California, and he holds several patents in the area of biotechnology. He has served as principal or co-investigator on dozens of grants, raising millions of dollars for basic and applied research in the visual neurosciences. Andersen has served as the director of Caltech's Sloan-Schwartz Center for Theoretical Neurobiology and MIT's McDonnell-Pew Center for Cognitive Neuroscience as well as serving on numerous advisory and editorial boards. He has delivered numerous named lectureships and has served as a visiting professor at the Collège de France.

Awards he has received have included the McKnight Neuroscience Brain Disorders Award, NASA Tech Brief Award, the McKnight Technical Innovation in Neuroscience Award, the Spencer Award from Columbia College of Physicians and Surgeons and the McKnight Foundation Scholars Award. He was elected a Fellow of the American Academy of Arts and Sciences in 2002.[2]

Research

Early work centered on the discovery and elucidation of cortical gain fields, a general rule of multiplicative computation used by many areas of the cortex.[3][4] Andersen and Zipser of UCSD developed one of the first neural network models of cortical function, which generated a mathematical basis for testing hypotheses based on laboratory findings.[5] His research established that the posterior parietal cortex (PPC) is involved in forming movement intentions—the early and abstract plans for movement.[6] Previously this part of the brain was thought only to function for spatial awareness and attention. His laboratory discovered the lateral intraparietal area (LIP) in the PPC and established its role in eye movements.[7] He also discovered the parietal reach region, an area involved in forming early reach plans.[8] His lab has also made a number of discoveries related to visual motion perception. He established that the middle temporal area processes the perception of form from motion.[9] He found that the perception of the direction of heading, important for navigation, is computed in the brain using both visual stimuli and eye movement signals.[10] His lab has also determined how eye position and limb position signals are combined for eye-hand coordination.[11]

In recent years he has extended his research to translational studies. His group has established that the intention signals from the PPC can be used as control signals for neural prosthetics.[12] Neural prosthetics can assist paralyzed patients by recording their brain signals, interpreting them, and then allowing them to use these processed signals to control external, assistive devices such as robot limbs, computers or wheelchairs simply using by thinking about it. Another new direction the Andersen group is pursuing is the use of electrical stimulation for brain repair.

References

  1. Davis, Tinsley H. (2008-06-17). "Profile of Richard A. Andersen". Proceedings of the National Academy of Sciences. 105 (24): 8167–8169. Bibcode:2008PNAS..105.8167D. doi:10.1073/pnas.0804405105. ISSN 0027-8424. PMC 2448808. PMID 18550826.
  2. "Richard A. Andersen". American Academy of Arts & Sciences. Retrieved 2021-05-24.
  3. Andersen, R. A.; Mountcastle, V. B. (1983-03-01). "The influence of the angle of gaze upon the excitability of the light- sensitive neurons of the posterior parietal cortex". Journal of Neuroscience. 3 (3): 532–548. doi:10.1523/JNEUROSCI.03-03-00532.1983. ISSN 0270-6474. PMC 6564545. PMID 6827308.
  4. Andersen, R. A.; Essick, G. K.; Siegel, R. M. (1985-10-25). "Encoding of spatial location by posterior parietal neurons". Science. 230 (4724): 456–458. Bibcode:1985Sci...230..456A. doi:10.1126/science.4048942. ISSN 0036-8075. PMID 4048942.
  5. Zipser, David; Andersen, Richard A. (1988). "A back-propagation programmed network that simulates response properties of a subset of posterior parietal neurons". Nature. 331 (6158): 679–684. Bibcode:1988Natur.331..679Z. doi:10.1038/331679a0. ISSN 1476-4687. PMID 3344044. S2CID 4247425.
  6. Gnadt, J. W.; Andersen, R. A. (1988-03-01). "Memory related motor planning activity in posterior parietal cortex of macaque". Experimental Brain Research. 70 (1): 216–220. doi:10.1007/BF00271862. ISSN 1432-1106. PMID 3402565. S2CID 8411726.
  7. Andersen, R. A.; Asanuma, C.; Cowan, W. M. (1985). "Callosal and prefrontal associational projecting cell populations in area 7A of the macaque monkey: A study using retrogradely transported fluorescent dyes". Journal of Comparative Neurology. 232 (4): 443–455. doi:10.1002/cne.902320403. ISSN 1096-9861. PMID 3980763. S2CID 42128535.
  8. Snyder, L. H.; Batista, A. P.; Andersen, R. A. (1997). "Coding of intention in the posterior parietal cortex". Nature. 386 (6621): 167–170. Bibcode:1997Natur.386..167S. doi:10.1038/386167a0. ISSN 1476-4687. PMID 9062187. S2CID 4280303.
  9. Bradley, David C.; Chang, Grace C.; Andersen, Richard A. (1998). "Encoding of three-dimensional structure-from-motion by primate area MT neurons". Nature. 392 (6677): 714–717. Bibcode:1998Natur.392..714B. doi:10.1038/33688. ISSN 1476-4687. PMID 9565031. S2CID 4361995.
  10. Bradley, D. C.; Maxwell, M.; Andersen, R. A.; Banks, M. S.; Shenoy, K. V. (1996-09-13). "Mechanisms of Heading Perception in Primate Visual Cortex". Science. 273 (5281): 1544–1547. Bibcode:1996Sci...273.1544B. doi:10.1126/science.273.5281.1544. ISSN 0036-8075. PMID 8703215. S2CID 42751629.
  11. Pesaran, Bijan; Nelson, Matthew J.; Andersen, Richard A. (2006-07-06). "Dorsal Premotor Neurons Encode the Relative Position of the Hand, Eye, and Goal during Reach Planning". Neuron. 51 (1): 125–134. doi:10.1016/j.neuron.2006.05.025. ISSN 0896-6273. PMC 3066049. PMID 16815337.
  12. Musallam, S.; Corneil, B. D.; Greger, B.; Scherberger, H.; Andersen, R. A. (2004-07-09). "Cognitive Control Signals for Neural Prosthetics". Science. 305 (5681): 258–262. Bibcode:2004Sci...305..258M. doi:10.1126/science.1097938. ISSN 0036-8075. PMID 15247483. S2CID 3112034.
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