When Dr. Josef Parvizi of Stanford University asked Ron Blackwell to look around his hospital room, everything seemed fine. His vision was normal. The TV looked like the TV and the “get well” balloons looked like balloons. Parvizi looked just like himself.

“Then they said ‘What do you see now?’” Blackwell recalled to NBCNews.com. “And then colors appeared and I thought that was so amazing. I said ‘How did you do that?’ Then he said ‘OK, what now?’ and I didn’t see anything different, and then he said ‘Look at my forehead,’ and his face changed. His eyes dropped, like, two inches, his nose skewed to his left." When Parvizi asked Blackwell to look at a female assistant in the room, the woman's face appeared to lift upward. 

Nothing else changed. The TV looked normal, Parvizi’s shirt and tie looked normal. Only faces changed.

As Parvizi and a Stanford colleague, Kalant Grill-Spector, detail in an article published this month in the Journal of Neuroscience, that’s because Parvizi had sent tiny jolts of electricity into a part of Blackwell’s brain called the fusiform gyrus.

Scientists have known for a while now that people, and at least some primates, have an area of the brain that’s responsible for processing faces specifically. We’ve evolved it, Grill-Spector explained in an interview, because we’re social beings. We need to know who our friends and enemies are, who’s a family member, who we can trust.

If the fusiform gyrus, located in the temporal lobe, is injured, people can lose the ability to recognize faces, even of people they’ve known for a long time. This is called prosopagnosia. People can also be born with prosopagnosia. The neurologist and writer Oliver Sacks, for example, has written about his own struggles with the condition.  

People with prosopagnosia, which can be mild to severe, can have difficulty maintaining social relationships. For example, Grill-Spector recalled a young female student who has taken part in her lab studies.

The student had a boyfriend. One day the boyfriend stopped by her room, but he’d just come from playing sports, and was wearing clothes she’d never seen. He was also wet. Missing her usual cues, she didn’t recognize him, and he realized it. That was OK, but his girlfriend thought this stranger was pretty cute and began flirting.

Blackwell doesn’t have prosopagnosia; the experiment was a bit of serendipity. The 47-year-old applications engineer for an electronics company has suffered from epilepsy since childhood. When his seizures became worse in 2010, he consulted with Parvizi.

They decided brain surgery might help. First, though, doctors had to locate the precise origin of the seizures. To do that, they implanted electrodes through Blackwell’s skull and into his brain, including the fusiform gyrus. The idea was to use the electrodes to map the location.

The diagnostic worked, but the surgery couldn’t be done because the originating area was too close to vital tissue.

But Parvizi and Grill-Spector, knowing electrodes were located in and near the fusiform gyrus, wondered if, before they were removed, the devices  could be used to map the nerve bundles responsible for face recognition.

“We need a better understanding of the neural basis of prosopagnosia,” Grill-Spector said. “If we can understand the circuit, maybe there’ll be some way in the future to stimulate them in a positive way.”

Blackwell wasn’t told what the experiment was for, so there’d be no risk he’d be “coached” into seeing facial changes. “I figured it was just more testing,” related to the epilepsy, Blackwell said.

After a series of trials, including sham stimulations that produced no effects, and stimulations of two nearby electrodes that did not cause the same kind of facial distortion effects, Parvizi and Grill-Spector concluded they’d located two critical areas in the mid and posterior fusiform gyrus responsible for accurate face viewing. They dubbed them “mFus- and pFus-faces.”

In the end, things worked out for Blackwell, too. He’s on a new drug regimen that has controlled his seizures and, he says, he’s doing “perfectly fine.”

Correction: An earlier version of this story indicated Dr. Kalanit Grill-Spector was in the room at the time of the procedure. She was not. 

Brian Alexander (www.BrianRAlexander.com) is co-author, with Larry Young Ph.D., of "The Chemistry Between Us: Love, Sex and the Science of Attraction," (www.TheChemistryBetweenUs.com), now on sale.

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By Jennifer Welsh
LiveScience

Some people are better at recognizing a face. Now a study of individuals who have prosopagnosia, a disorder rendering them unable to distinguish another's mug, suggests a possible cause: a breakdown in a brain pathway used to process faces.

This breakdown seems to occur at different places in people with the disorder: About half of patients are able to recognize faces, but the signal gets lost before reaching the brain's higher-order centers. The other half seem to have difficulty analyzing faces to begin with, the researchers found.

"This is something we don't have a handle on. There are probably lots of different types of prosopagnosia. There are connections between these different areas, and there are a lot of places this can break down or fail to develop properly," study researcher Bradley Duchaine, of Dartmouth University, told LiveScience. "In many cases we don't understand why they failed to develop the mechanism necessary for face perception."

Duchaine brought in 12 people who were born with prosopagnosia and had them look at several photos of faces while their brain activity was monitored with electrodes. The faces included those of well-known celebrities and many people that the patients shouldn't recognize. The researchers compared the brain activities with those of people who recognize faces normally. [ Inside the Brain: A Journey Through Time ]

A normal brain will show certain responses when it recognizes a face. There will be a strong response after 250 milliseconds in one area of the brain that is responsible for analyzing the visual information from a face and making the connection of whether or not that face is familiar. Then, another response occurs in another area at around 600 ms, which connects that face with higher-level processing including specific information you know about that person.

When the prosopagnosia patients didn't recognize the famous faces, the researchers saw a weak-to-no response at 600 ms, suggesting their brains didn't complete the face-recognition circuit. If they did recognize a face (for example, a president who had been in office for a few years or someone with a unique birthmark), their brains looked just like a normal person's; they showed strong reactions at both 250 ms and 600 ms.

Interestingly, half of the patients showed a normal response at 250 ms and half didn't. The group who responded to the famous faces seems to have normal face-processing and memory abilities, but the signal gets lost when connecting to higher-level processing (the event that takes place at 600 ms) so they aren't able to connect those facial features to information about a known person.

"They are recognizing it at 250 milliseconds, but for some reason that information isn't passed along to those processes that are producing the 600 millisecond response," Duchaine said. "You might imagine there is some kind of disconnection between these [brain] areas, but we don't know what the problem is there."

Recent studies have found that this trait is inherited in families : If your parents are good at remembering a face, you probably will be too. People can also develop prosopagnosia after an accident or stroke in their temporal lobe, which damages the facial recognition centers. Duchaine studied only people who were born with the inability, though.

In contrast to prosopagnosia, some people can remember faces of people they met years ago and only in passing. The " super-recognizers," as they're being called, excel at recalling faces and suggest that there is — as with many things — a broad spectrum of ability in this realm.

Jia-Liu, a researcher at Beijing Normal University in China who wasn't involved in the study, said the study was very interesting. "This study is also important because this marker may be used in diagnosis of prosopagnosia and other cognitive disorders with deficits in face recognition, such as autism," Liu said.

The study was published Jan. 23 in the journal Brain.

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