- Karl H. Pribram
Karl H. Pribram (born
February 25 ,1919 inVienna, Austria ) is a professor atGeorgetown University andGeorge Mason University , and an emeritus professor ofpsychology andpsychiatry atStanford University andRadford University . Board-certified as aneurosurgeon , Pribram did pioneering work on the definition of thelimbic system , the relationship of thefrontal cortex to the limbic system, the sensory-specific "association" cortex of the parietal andtemporal lobe s, and the classicalmotor cortex of the humanbrain . To the general public, Pribram is best known for his development of theholonomic brain model ofcognitive function and his contribution to ongoing neurological research into memory, emotion, motivation andconsciousness . American authorKatherine Neville is his significant other.Holonomic model
Pribram's holonomic model, developed in collaboration with quantum physicist
David Bohm , theorizes thatmemory /information is stored not in cells, but rather in waveinterference pattern s. Pribram was drawn to this conclusion by two facts:
* There arevisual cortex response functions that correspond to Gabor functions, which in turn are related to hologram image functions.
* Drasticlesions can be made in animal brains which reduce, but "do not extinguish" memories (training), as demonstrated byKarl Lashley in the 1920s.To formulate his model, Pribram utilized
Fourier analysis , based on theFourier Theorem , a variation of calculus that transforms complex patterns into componentsine waves . Some believe that Pribram's theory also explains how the human brain can store so many memories in the engram in such limited space. Pribram believes the brain operates according to the same mathematical principles as a hologram. Bohm has suggested these wave forms may compose hologram-like organizations.Technological advances associated with brain wave patterns, such as
neuroimaging andtranscranial magnetic stimulation (TMS), have provided understanding that was foreshadowed by the insights of Pribram and Bohm. TMS offers the potential for improving diagnostic objectivity and the efficacy of psychiatric interventions. Researchers have made significant advances with TMS brain implants, which focus magnetic pulses on specific brain regions, thereby perhaps altering the neurological wave patterns that Pribram describes.Other contributions
In the late 1940s and early 1950s, Pribram's work and neurobehavioral experiments established the composition of the limbic system. Over the next decades, much was learned about the function of the limbic system, the executive functions of the anterior
prefrontal cortex , and the role of thebasal ganglia in organizing our emotions and motivations. Pribram also discovered the sensory specific systems of the association cortex, and showed that these systems operate to organize the choices we make among sensory stimuli, not the sensing of the stimuli themselves.Bibliography
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Edited by Pribram
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External links
* [http://homepages.ihug.co.nz/~sai/pribram.htm "The Holographic Brain"] - Dr. Jeffrey Mishlove interviews Karl Pribham
* [http://www.acsa2000.net/bcngroup/jponkp/ "Comparison between Holographic Brain Theory and conventional models of neuronal computation"] – academic paper on Pribham's work
* [http://www.katherineneville.com/karl_havel_prize.htm "Pribram Receives Havel Prize For His Work in Neuroscience"] – news article
* [http://www.immaginehdv.com/detail.php?c=2&i=b90c95bf29b3909ced9b95a10d865cd329684d33 Global Lens Interview ] (Video)
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