June 22, 2016
FOR IMMEDIATE RELEASE
CONTACT: Jill Rosen
She no longer recognizes a Van Gogh, but can tell you how to prepare a watercolor palette.
She can’t recall a single famous composer, but knows the purpose of a viola’s bridge.
She hasn’t flown a plane since 2007, when viral encephalitis destroyed her hippocampus, the part of the brain used to form new memories and retrieve old ones. And she couldn’t describe a single trip she’s ever taken. But in detail, she’ll list the steps needed to keep a plane from stalling and where to find the rudder controls.
Johns Hopkins University cognitive scientists say the sharp contrasts in this patient’s memory profile — her inability to remember facts about pursuits once vital to her life as an artist, musician and amateur aviator, while clearly remembering facts relevant to performing in these domains — suggest conventional wisdom about how the brain stores knowledge is incorrect.
Conventional wisdom about memory firmly separates declarative knowledge, memories about facts, from memories for skills, or “muscle memory.” For instance, a severe amnesiac with muscle memory might never forget how to ride a bike, but probably couldn’t recall anything about the Tour de France. But because skilled performance, like playing music or flying airplanes, requires much more than mere muscle memory, and because this patient retained it despite losing most other aspects of her declarative memory, researchers conclude this type of skill-related declarative knowledge is different.
“There is such a contrast between her not being able to tell us anything about her former life and not being able to tell us anything about many aspects of art and music that she once knew well, but when we ask her to tell us how to do a watercolor, she is articulate and full of detail,” said Barbara Landau, the Dick and Lydia Todd Professor of Cognitive Science at Johns Hopkins. “How can you talk about this knowledge of “how to” as distinct from declarative knowledge? It is declarative knowledge.”
Before her illness, Lonni Sue Johnson, 64, was an accomplished artist whose portfolio included six New Yorker covers. She was also an amateur violist who played in orchestras and chamber groups and a licensed single-engine airplane pilot who flew more than 400 flights and owned two planes. Her illness left her with severe brain damage and catastrophic memory impairment, including severe losses of memory about her previous life and severely restricted ability to learn new facts.
She has very little memory of her past — not even of her wedding day. She forgets having done something immediately after doing it. She also has very little memory for general world knowledge, including facts about the fields at which she once excelled.
To determine whether Johnson’s “skill-related” memory was preserved despite extensive losses in memory for general world knowledge, the team tested her on her memory for facts related to performing four of her former top skills — art, music, aviation and driving. They gave the same tests to people of similar age and experience in those areas, as well as to people with no experience in them.
The oral tests, of about 80 questions each, covered information about the techniques, equipment and terminology involved in performing the various skills. They included, things like, “How might one remove excess paint when painting with watercolor?” And, “How should one touch the strings of an instrument to produce a harmonic?”
In art and driving, Johnson scored nearly as high as experts taking the test. In music and aviation, she did not perform as well, but knew considerably more than the novices.
“Although Johnson had not created watercolors, had not flown a plane, and had not driven since her illness, she could still describe how one would go about carrying out these activities,” said Johns Hopkins cognitive scientist Michael McCloskey. “These findings suggest that skill-related knowledge can be spared even with dramatic losses in other kinds of knowledge.”
The team also included first author Emma Gregory, a former Johns Hopkins post-doctoral fellow, and research assistant Zoe Ovans, also of Johns Hopkins.
This research was supported by the Brain Science Institute of Johns Hopkins.
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