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Richard Cytowic's book The Man Who Tasted Shapes may be purchased
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A Synesthesia Experiment: Consciousness of Neural Activity
James A. Schirillo
University of Chicago
Visual Sciences Center
939 East 57th Street
Chicago, IL. 60637
U.S.A.
schirillo@uchicago.edu
Copyright (c) James A. Schirillo 1995
PSYCHE, 2(10), July 1995
http://psyche.cs.monash.edu.au/v2/psyche-2-10-cytowic.html
KEYWORDS: consciousness, color perception, synesthesia, neurology.
COMMENTARY ON: Cytowic, R. E. (1995) Synesthesia: Phenomenology and Neuropsychology
PSYCHE, 2(10).
1. The Direction of Perceptual Pathways
1.1 Cytowic proposes that individual experiences in synesthetics differ
because intermediate stages of neural processing are being drawn into consciousness,
rather than their (neocortical) terminal outputs. He assumes that some perceptual
information flows from limbic and hippocampal structures to the calcarine
cortex.
1.2 The fact that "all these [synesthetic] phenomena... have in common...
a disruption, inhibition, or suppression of higher cognitive activity"
(Cytowic, 1989, page 114), may only imply that synesthesia is the result
of impoverished perceptual inputs that project to the limbic system and
hippocampus. Currently, there is no anatomical or neurological evidence
that visual memory has projections from either limbic or hippocampal structures
to the calcarine cortex. Thus, I propose the following experiment to resolve
this issue.
2. A Proposed Experiment
2.1. Consider the perception of a color (e.g., "blue") while hearing
a given tone in synesthesia. If the synesthetic color, "blue",
is a percept, it must have some extent in space making it different from
its corresponding linguistic color name. Therefore, the synesthetic percept,
"blue", implies that the actual color of the surface sharing the
same perceptual space is either neutral or being suppressed.
2.2. Consequently, adding a certain amount of real "yellow" light
in the same spatial region where "blue" is a synesthetic percept
will have one of three possible effects. (A) It may make that region appear
"gray", as when mixing colored lights (Hurvich & Jameson,
1957). This would demonstrate that a given individual's cortical color-opponent
system interacts with lower level neurological structures, such as color
memory. (B) If the synesthetic individual is using language to 'imagine'
colored surfaces, mixing synesthetic "blue" and real "yellow"
light will create the appearance of a "green" surface (as when
mixing paints). A "green" percept implies that the 'blobs' in
areas 17 & 18 are probably not involved (see simple synesthesia with
gross brainstem lesions and analysis of color; Cytowic, 1989, page(s) 108
and 163-5, respectively). (C) If the synesthetic experience suppresses the
'real' sensory experience, adding "yellow" light will not effect
the percept, and the region will remain "blue". In this case,
the percept of "blue" is occurring as a result of hippocampal
stimulation, which subsequently suppresses either the input (or output)
from the calcarine cortex.
References
Cytowic, R.E. (1989) Synesthesia: A Union of the Senses. New
York: Springer Verlag.
Cytowic, R.E. (1995) Synesthesia: Phenomenology and neuropsychology. PSYCHE,
2(10).
Hurvich, L.M. & Jameson, D. (1957) An opponent-process theory of color
vision. Psychological Review, 64, 384-404.
