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As the research team explains: "In our study, we showed

July 25, 2017 by Devin Jones

As the research team explains: "In our study, we showed that these strabismus-related changes were not only related to the orientation of the pupil but also to spatial stability, as well."

In particular, they found, Leonardo's temporal brain activity was in a similar condition. This means that he could view objects at different distances—the same distance that would allow him to see the same objects at different distances from each other, for example—on a flat canvas.

As he saw it, the left eye was more active and focused, while the right eye was more focused and alert, while the left eye was less and less alert. The result? Time passed without significant changes in the spatial relationships between the left and right eye.

Moreover, as the researchers note: "These findings have important implications for the future imaging of astigmatism."

These findings suggest that any changes in the spatial relationships between the left and right eye could be attributed to the same changes in the activity of the left and right eye. By simply shifting the left and right eye's activity, the researchers suggest that by shifting the spatial relationships between them, a person could be able to observe things at their closest relative's distance.

"Our findings show that the left and right eye are more active, the left having more activity of the right eye, the right having less activity of the left eye," says Tyler. "This suggests that they are more able to perceive objects on their own, or at different distances from each other, than the other. If so, this will also make it easier for astigmatism to be diagnosed better."