Nicotine Withdrawal Weakens Brain Connections Tied to Self Control Over Cigarette Cravings

High relapse rate in smokers may be explained by diminished connectivity among key brain networks.

People who try to quit smoking often say that kicking the habit makes the voice inside telling them to light up even louder, but why people succumb to those cravings so often has never been fully understood. Now, a new brain imaging study in this week’s JAMA Psychiatry from scientists in Penn Medicine and the National Institute on Drug Abuse (NIDA) Intramural Research Program shows how smokers suffering from nicotine withdrawal may have more trouble shifting from a key brain network—known as default mode, when people are in a so-called “introspective” or “self-referential” state— and into a control network, the so-called executive control network, that could help exert more conscious, self-control over cravings and to focus on quitting for good.

The findings help validate a neurobiological basis behind why so many people trying to quit end up relapsing—up to 80 percent, depending on the type of treatment—and may lead to new ways to identify smokers at high risk for relapse who need more intensive smoking cessation therapy.

The brain imaging study was led by researchers at University of Pennsylvania’s new Brain and Behavior Change Program, led by Caryn Lerman, PhD, who is also the deputy director of Penn’s Abramson Cancer Center, and Elliot Stein, PhD, and collaborators at NIDA. They found that smokers who abstained from cigarettes showed weakened interconnectivity between certain large-scale networks in their brains: the default mode network, the executive control network, and the salience network. They posit that this weakened connectivity reduces smokers’ ability to shift into or maintain greater influence from the executive control network, which may ultimately help maintain their quitting attempt.

This is an MRI of the default mode network in the brain.
Imaging showed a significantly weaker connectivity between the salience network and default mode network during abstinence, compared with their sated state. Also, weakened connectivity during abstinence was linked with increases in smoking urges, negative mood, and withdrawal symptoms, suggesting that this weaker internetwork connectivity may make it more difficult for people to quit. The image, which is not connected with the research and is for illustrative purposes only, shows an MRI scan of areas of the brain in the default mode network. Credit John Graner, Neuroimaging Department, National Intrepid Center of Excellence, Walter Reed National Military Medical Center.

“What we believe this means is that smokers who just quit have a more difficult time shifting gears from inward thoughts about how they feel to an outward focus on the tasks at hand,” said Lerman, who also serves as the Mary W. Calkins professor in the Department of Psychiatry. “It’s very important for people who are trying to quit to be able to maintain activity within the control network— to be able to shift from thinking about yourself and your inner state to focus on your more immediate goals and plan.”

Prior studies have looked at the effects of nicotine on brain interconnectivity in the resting state, that is, in the absence of any specific goal directed activity. This is the first study, however, to compare resting brain connectivity in an abstinent state and when people are smoking as usual, and then relate those changes to symptoms of craving and mental performance.

For the study, researchers conducted brain scans on 37 healthy smokers (those who smoke more than 10 cigarettes a day) ages 19 to 61 using functional magnetic resonance imaging (fMRI) in two different sessions: 24 hours after biochemically confirmed abstinence and after smoking as usual.

Imaging showed a significantly weaker connectivity between the salience network and default mode network during abstinence, compared with their sated state. Also, weakened connectivity during abstinence was linked with increases in smoking urges, negative mood, and withdrawal symptoms, suggesting that this weaker internetwork connectivity may make it more difficult for people to quit.

Establishing the strength of the connectivity between these large-scale brain networks will be important in predicting people’s ability to quit and stay quit, the authors write. Also, such connectivity could serve as a clinical biomarker to identify smokers who are most likely to respond to a particular treatment.

“Symptoms of withdrawal are related to changes in smokers’ brains, as they adjust to being off of nicotine, and this study validates those experiences as having a biological basis,” said Lerman. “The next step will be to identify in advance those smokers who will have more difficultly quitting and target more intensive treatments, based on brain activity and network connectivity.”

Notes about this neuroscience and smoking research

Co-authors of study include Hong Gu and Yihong Yang of NIDA, and James Loughead of Penn’s Brain and Behavior Change Program, and Kosha Ruparel of Penn’s Brain Behavioral Laboratory in the department of Psychiatry.

This work was supported by grants from The National Cancer Institute (NCI) P50 CA143187, the National Institute on Drug Abuse (NIDA) R03 DA027438 and the Intramural Research Program at NIDA

Contact: Steve Graff – University of Pennsylvania
Source: University of Pennsylvania press release
Image Source: The image is credited to John Graner, Neuroimaging Department, National Intrepid Center of Excellence, Walter Reed National Military Medical Center, and is in the public domain.
Original Research: Abstract for “Large-Scale Brain Network Coupling Predicts Acute Nicotine Abstinence Effects on Craving and Cognitive Function” by Caryn Lerman, PhD; Hong Gu, PhD; James Loughead, PhD; Kosha Ruparel, MSE; Yihong Yang, PhD; and Elliot A. Stein, PhD in JAMA Psychiatry. Published online March 12 2014 doi:10.1001/jamapsychiatry.2013.4091

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