David Hubel

Canadian neurophysiologist

David Hunter Hubel FRS (February 27, 1926 – September 22, 2013) was a Canadian neurophysiologist noted for his studies of the structure and function of the visual cortex. He was co-recipient with Torsten Wiesel of the 1981 Nobel Prize in Physiology or Medicine (shared with Roger W. Sperry), for their discoveries concerning information processing in the visual system. [4]

David Hubel
Born
David Hunter Hubel

(1926-02-27)February 27, 1926
DiedSeptember 22, 2013(2013-09-22) (aged 87)
NationalityAmerican-Canadian[1]
Alma materMcGill University
Known forVisual system
Spouse
Ruth Izzard
(m. 1953)
Awards
Scientific career
FieldsNeurophysiologist
Institutions

Career

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For much of his career, Hubel was the John Franklin Enders University Professor of Neurobiology at Harvard Medical School. In 1978, Hubel and Wiesel were awarded the Louisa Gross Horwitz Prize from Columbia University.[5][6][7] David Hunter Hubel (February 27, 1926 – September 22, 2013) was a Professor of Neurobiology Emeritus at Harvard Medical School.

Hubel was co-recipient with Torsten Wiesel of the 1981 Nobel Prize in Physiology or Medicine for their discoveries about information processing in the visual system. The prize was shared with Roger Sperry for his independent research on the cerebral hemispheres.

Hubel died of renal failure.[8]

Nobel award

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Hubel and Wiesel received the Nobel Prize for two major contributions:

  1. Their work in the 1960s and 1970s on how the visual system developed. They worked on parts of the visual cortex of the brain which get signals from the right or left eye.
  2. Their work describing how signals from the eye are processed by the brain to generate edge detectors, motion detectors, stereoscopic depth detectors and colour detectors. These are building blocks of the visual scene.

Some details

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Cells detect features

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In one experiment, done in 1959, they inserted a microelectrode into the primary visual cortex of an anesthetized cat. They then projected patterns of light and dark on a screen in front of the cat. They found that some neurons fired rapidly when presented with lines at one angle, while others responded best to another angle. Some of these neurons responded differently to light patterns than to dark patterns. Hubel and Wiesel called these neurons 'simple cells'.[9]

Still other neurons, which they called 'complex cells', detected edges regardless of how they were placed in the visual field, and could detect motion in certain directions.[10] These studies showed how the visual system constructs complex pictures of visual information from simple stimulus features.[11]

Flexibility of visual cortex

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They did important work in the study of cortical plasticity (flexibility).[11]

By depriving kittens from using one eye, they showed that columns in the primary visual cortex receiving inputs from the other eye took over the areas that would normally receive input from the deprived eye.

These kittens did not develop areas receiving input from both eyes, a feature needed for binocular vision. Hubel and Wiesel's experiments showed that ocular dominance (dominance of one eye is normal) develops early in childhood development, and cannot be reversed. Several childhood vision problems were understood better after this work.

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References

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  1. "David H. Hubel - Biographical". Nobelprize.org. 2013-09-22. Retrieved 2015-11-09.
  2. "Fellowship of the Royal Society 1660-2015". London: Royal Society. Archived from the original on 2015-07-15.
  3. Wurtz, Robert H. (2016). "David Hunter Hubel. 27 February 1926 — 22 September 2013". Biographical Memoirs of Fellows of the Royal Society. 62. London: Royal Society: 233–246. doi:10.1098/rsbm.2016.0022. S2CID 64537311.
  4. "The Nobel Prize in Physiology or Medicine 1981". NobelPrize.org. Retrieved 2020-06-28.
  5. Hubel, D. H.; Wiesel, T. N. (1959). "Receptive fields of single neurones in the cat's striate cortex". The Journal of Physiology. 124 (3): 574–591. doi:10.1113/jphysiol.1959.sp006308. PMC 1363130. PMID 14403679.
  6. Hubel, D. H.; Wiesel, T. N. (1962). "Receptive fields, binocular interaction and functional architecture in the cat's visual cortex". The Journal of Physiology. 160 (45): 106–154. doi:10.1113/jphysiol.1962.sp006837. PMC 1359523. PMID 14449617.
  7. Livingstone, M.; Hubel, D. (1988). "Segregation of form, color, movement, and depth: Anatomy, physiology, and perception". Science. 240 (4853): 740–749. doi:10.1126/science.3283936. PMID 3283936.
  8. David Hunter Hubel
  9. Hubel, David H.; Wiesel, Torsten N. (2005). Brain and visual perception: the story of a 25-year collaboration. Oxford University Press. p. 106. ISBN 978-0-19-517618-6.
  10. Hubel, David 1995. Eye, brain and vision. Scientific American Library. [1] Archived 2010-12-24 at the Wayback Machine chapter 4, p16
  11. 11.0 11.1 Goldstein (2001). Sensation and perception (6th ed.). London: Wadsworth.