A researcher has developed a computer model of the human brain that more realistically simulates actual patterns of brain impairment than existing methods. The novel advancement creates a digital simulation environment that could help stroke victims and patients with other brain injuries by serving as a testing ground for hypotheses about specific neurological damage.

A University at Buffalo neuroimaging researcher has developed a computer model of the human brain that more realistically simulates actual patterns of brain impairment than existing methods. The novel advancement represents the union of two established approaches to create a digital simulation environment that could help stroke victims and patients with other brain injuries by serving as a testing ground for hypotheses about specific neurological damage.

«This model is tied accurately to the functional connectivity of the brain and is able to demonstrate realistic patterns of cognitive impairment,» says Christopher McNorgan, an assistant professor of psychology in UB’s College of Arts and Sciences. «Since the model reflects how the brain is connected, we can manipulate it in ways that provide insights, for example, into the areas of a patient’s brain that might be damaged.

«This recent work doesn’t prove that we have a digital facsimile of the human brain, but the findings indicate that the model is performing in a way that is consistent with how the brain performs, and that at least suggests that the model is taking on properties that are moving in the direction of possibly one day creating a facsimile.»

The findings provide a powerful means of identifying and understanding brain networks and how they function, which could lead to what once were unrealized possibilities for discovery and understanding.

Details on the model and the results of its testing appear in the journal NeuroImage.

Story Source: Materials provided by University at Buffalo. Original written by Bert Gambini. Note: Content may be edited for style and length.