UT Austin
School of Human Ecology
1 University Station
GEA 117/A2700
Austin, TX 78712
512-471-4287 - phone
512-471-5630 - fax

Snodderly, D. Max

Professor
Ph.D. 1969, Rockefeller University
NTR
Office: PAI 3.26
Office Number: 512-232-3307
Fax: 512-471-4661
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Publications

Research Interests

Dr. Snodderly's core interest is the study of vision. He does research on the effects of nutrition on the eye, with particular emphasis on the retina. He is interested in the effects of aging on visual function and the potential for nutrition to slow or to prevent age-related diseases such as cataract and macular degeneration. Together, these entities are the leading causes of blindness in the world and in the USA. Dr. Snodderly began his career with bachelor's and master's degrees from MIT in electrical engineering, followed by a doctorate in biology from the Rockefeller University and postdoctoral training in psychology at the University of California, Berkeley. He combines approaches from each of these disciplines in his research.

Current research on the retina focuses on the role of the macular pigment carotenoids that are thought to protect the primate fovea from damage by light. These pigments are derived from the diet and they confer the characteristic yellow color that bestows the name, macula lutea, on the foveal region. To study humans, he and his collaborators have developed psychophysical (perceptual) techniques that are noninvasive and permit investigations utilizing large numbers of subjects. Efforts are focused on making the psychophysical measurements of macular pigment easy and robust so that they can be used with elderly subjects who either have macular degeneration or are at risk for it. Measures of visual function are emphasized that should be sensitive indicators of age- related or disease-related changes in the retina. These include procedures that tap the S-cone pathways of the retina, such as increment thresholds, silent substitution, and chromatic cancellation.

Another project is the study of coding of information by neurons in the visual pathway. Recordings are made of electrical activity of neurons in the lateral geniculate nucleus and the visual cortex of alert, trained monkeys. These are basic studies designed to discover the neural mechanisms that make vision such an important asset. Experiments will emphasize the ways that visual aspects of the natural environment are coded by neurons in the visual pathway, including the influence of eye movements. Many people have theorized that important aspects of primate vision have evolved in response to selection pressures related to foraging for food, and this proposal will be tested as part of the research program.

Dr. Snodderly's research involves collaborators at several other universities who contribute a diversity of talents and insights to the work.

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