Neural Basis of the Oblique Effect

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Title: Neural Basis of the Oblique Effect

1
Neural Basis of the Oblique Effect

2
What questions does the group ask and why does
anyone care?

3
Alternative answers to problem

4
Alternatives continued

5
Methods

Shone an oriented light stimulus in the eye of
anesthetized and paralyzed cats
Used microelectrodes to make recordings of single
neurons in V1.
Classified cell as simple or complex.
Recorded orientation preference, tuning curve,
spatial frequency, firing rate of cells
Combined data from over 4,000 cells

6
Results
Fig 2
Fig 4
Fig 3
Fig 5B
7
Results continued
Fig 6
Fig 10
Fig 7A
Fig 7A
8
Conclusions

Combination of alternatives were confirmed
The effect exists only for a subpopulation of
cells simple cells in V1 with high spatial
frequency.
There are more cells tuned for cardinal
orientations and these cells exhibit a narrower
tuning width at horizontal angles.
The slopes of the tuning curves are also steeper
for horizontal orientations.
Response properties of individual neurons do not
change rate and latency.

9
More Conclusions

The effect is based on the population of neurons
in V1, not on changes in individual neurons.
Simple cells must directly project to higher
areas in addition to/instead of only to complex
cells.

10
Problems?

Varying N value could be misleading
Did not look at any cells outside of V1
Cats were anesthetized. It has been shown that
anesthesia itself changes neuronal response
properties.
Anesthesia also makes simultaneous psychophysics
in animals impossible. ? Direction of
causality unclear.

11
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