7. Abstract Obesity and intake of certain foods increases cancer risk, but the most common treatment (behavioral weight loss programs) rarely produces lasting weight loss and eating behavior change, apparently because caloric restriction increases the reward value of food and prompts energy-sparing adaptations. Interventions that reduce the implicit valuation of cancer-risk foods (e.g., red meats, refined sugar) may be more effective. Emerging data suggest that behavioral response training and cognitive reappraisal training reduce valuation of such foods, which leads to decrease intake of these foods and weight loss. Internalized incentive value is reflected in a ventromedial prefrontal/orbitofrontal cortex valuation system (?vmPFC?), which encodes the implicit reward value of food and is central to a reinforcement cycle that perpetuates unhealthy eating. Thus, the vmPFC valuation system is a promising target for intervention because changes to the system might disrupt the unhealthy reinforcement cycle. Interestingly, various interventions influence the vmPFC through distinct pathways. Behavioral training alters motor input to valuation regions, whereas cognitive training relies on lateral prefrontal ?top-down? regions. The proposed translational neuroscience experiment will compare the efficacy with which two novel treatments cause lasting change in food valuation, and whether a composite of theory-based baseline individual differences in relevant processes (such as response tendencies and cognitive styles) moderate treatment effects. We will randomize 300 overweight/obese adults who are at risk for eating- and obesity-related cancers to behavioral response training toward healthy foods and away from cancer-risk foods, a cognitive reappraisal intervention focused on cancer-risk foods, or non?food inhibitory control training.
Aim 1 compares the efficacy and mechanisms of action of these two interventions to reduce valuation of cancer-risk foods relative to the active control condition, using neural, behavioral, self-report, and physiological measures of the process and outcomes.
Aim 2 is to establish the temporal pattern and durability of the effects across time ; food intake and habits , body fat, BMI, and waist-to-hip ratio will be measured pre, post, and at 3-, 6-, and 12-month follow-up.
Aim 3 uses machine learning to build and validate a low-cost, easy-to-administer composite that predicts whether and for how long an individual is likely to respond to intervention, and to which treatment. We hypothesize that self-report measures specifically related to valuation (e.g., willingness-to-pay) and to intervention-specific pathways to valuation (e.g., behavioral response tendencies, cognitive style) will predict differential response. Discovering these individual differences will provide a practical, low-cost tool to help interventionists ?match? a given person to an effective treatment for that person . This project is very innovative because no study has directly compared the distinct and common effects of these treatments on valuation, used brain imaging to study the mechanism of effects, tested whether these interventions produce a lasting change in food valuation and body fat, or built and validated a composite that moderates response .

Public Health Relevance

Excessive eating of energy-dense and obesity are risk factors for a range of cancers. There are programs to reduce intake of these foods and weight loss, but the effects of the programs rarely last. This project tests whether altering the value of cancer-risk foods can create lasting change, and uses neuroimaging to compare the efficacy of two programs to engage the valuation system on a neural level. Results will establish the pathways through which the programs work and suggest specific treatments for individuals based on a personalized profile.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA211224-02
Application #
9513489
Study Section
Social Psychology, Personality and Interpersonal Processes Study Section (SPIP)
Program Officer
Ferrer, Rebecca
Project Start
2017-08-01
Project End
2022-07-31
Budget Start
2018-08-01
Budget End
2019-07-31
Support Year
2
Fiscal Year
2018
Total Cost
Indirect Cost
Name
University of Oregon
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
City
Eugene
State
OR
Country
United States
Zip Code
97403
Horn, Sarah R; Roos, Leslie E; Berkman, Elliot T et al. (2018) Neuroendocrine and immune pathways from pre- and perinatal stress to substance abuse. Neurobiol Stress 9:140-150
Berkman, Elliot T (2018) The Neuroscience of Goals and Behavior Change. Consult Psychol J 70:28-44
Giuliani, Nicole R; Merchant, Junaid S; Cosme, Danielle et al. (2018) Neural predictors of eating behavior and dietary change. Ann N Y Acad Sci 1428:208-220
May, Lisa M; Kosek, Peter; Zeidan, Fadel et al. (2018) Enhancement of Meditation Analgesia by Opioid Antagonist in Experienced Meditators. Psychosom Med 80:807-813
Cosme, Danielle; Mobasser, Arian; Zeithamova, Dagmar et al. (2018) Choosing to regulate: does choice enhance craving regulation? Soc Cogn Affect Neurosci 13:300-309
Berkman, Elliot T (2018) Value-based choice: An integrative, neuroscience-informed model of health goals. Psychol Health 33:40-57