Certain Parts Of The Brain Activated In People Who Heard Tailored Health Messages And Quit Smoking
People who demonstrated a stronger brain response to certain brain regions when receiving individually tailored smoking cessation messages were more likely to quit smoking four months after, a new study found.
The new University of Michigan study underscores the importance of delivering individually tailored public health messages to curb unhealthy behaviors, said principal investigator Hannah Faye Chua, who led the study as a research assistant professor at the U-M School of Public Health. It also begins to uncover the underlying neural reasons why these individually tailored messages are so much more effective than a one-size-fits-all approach, said Chua, who now works in the private sector. The study is scheduled for advance online publication Feb. 27 in the journal Nature Neuroscience.
Researchers have known for 15 years that tailored public health messages that account for a person’s individuality work better at curbing unhealthy behaviors but until now, they haven’t known why.
Chua and the research team hypothesized that portions of the brain activated during self-related processing were also engaged when people received individually tailored health messages, and that this brain activity accounted for the increased effectiveness of tailored messages.
For the study, the research group assessed 91 people who wanted to stop smoking, and based on those answers they designed an individual smoking cessation program for each subject.
Next, researchers imaged subjects’ brains with MRI to see which portions responded to tailored and untailored messages about smoking cessation, and also to neutral messages. They then compared the brain response to the brain response during a self-appraisal task in which participants, still in MRI, made yes-no judgments to self-related statements such as “I am shy” or “I am athletic.”
Several brain regions activated during the self-related task also appeared to activate during the tailored messages in the same group of smokers. After the scan, participants completed the full smoking intervention program that was designed for each subject.
“The bottom line is that people who are more likely to activate self-related regions of the brain during tailored message processing, particularly dorsomedial prefrontal cortex, are more likely to quit 4 months after,” Chua said.
The findings have broad public health implications. “The bigger picture of this is advertisers are increasing using functional MRI to test advertising,” said Vic Strecher, professor in the U-M SPH who worked on the project. “If you can imagine that people who create fast food or who sell cigarettes are doing this in an effort to convey a stronger message, we really need to better understand the ways our health messages can be more effective.”
Chua stressed that researchers don’t want to use functional MRI as a predictor for success of public health messages; it’s simply not economically feasible. They do, however, want to better understand and eventually map the portions of the brain responsible for making decisions that will improve their health.
Some people had a stronger brain response than others to the tailored messages, Chua said, but it’s not clear why. It may be that their brains are hardwired to process information differently, or that those people had a stronger desire or commitment to quitting.
“However, the desire is not just motivation, because there was no difference in motivation between quitters and non-quitters,” Chua said. More than 50 percent of people quit after the four month follow-up; most smoking cessation programs range from 15 to 30 percent success. “Over 50 percent is really a successful measure,” Chua said.
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