Background: People are constantly exposed to unhealthy foods. Some studies of adults show that training attention away from unhealthy foods might reduce overeating. Researchers want to see what happens in the brain when teens train their attention away from food through a program on a smartphone. Objective: To study the relationship between eating patterns, body weight, and how the brain reacts to different images. Eligibility: Right-handed females ages 12-17 who are overweight (Body Mass Index at or above the 85th percentile for age). Design: Participants will have 6 visits over about 8 months. Visit 1: participants will be screened with: Height, weight, blood pressure, and waist size measurements Medical history Physical exam Urine sample DXA scan. Participants will lie on a table while a very small dose of x-rays passes through the body. Questions about their general health, social and psychological functioning, and eating habits Parents or guardians of minor participants will answer questions about their child s functioning and demographic data. Before visits 2-6, participants will not eat or drink for about 12 hours. These visits will include some or all of these procedures: Blood drawn MRI scan. Participants will lie on a stretcher that slides in and out of a metal cylinder in a strong magnetic field. A device will be placed over the head. Meals provided. Participants will fill out rating forms. Simple thinking tasks A cone containing magnetic field detectors placed onto the head Medical history Physical exam Urine sample Participants will be assigned to a 2-week smartphone program that involves looking at pictures. Participants will complete short tasks and answer some questions about their eating habits and mood on the smartphone.
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Changes in Food-cue Visual Probe Task Attention Bias (AB) Reaction Time
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudate Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudate Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pallidum Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pallidum Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Putamen Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Putamen Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Anterior Cingulate Cortex Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Anterior Cingulate Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Anterior Cingulate Cortex Left Hemisphere - During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Anterior Cingulate Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Lateral Orbitofrontal Cortex Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Lateral Orbitofrontal Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Medial Orbitofrontal Cortex Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Medial Orbitofrontal Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Dorsolateral Prefrontal Cortex Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Dorsolateral Prefrontal Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Dorsolateral Prefrontal Cortex Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Dorsolateral Prefrontal Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Superior Dorsolateral Prefrontal Cortex Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Superior Dorsolateral Prefrontal Cortex Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Opercularis Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Opercularis Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Orbitalis Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Orbitalis Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Triangularis Left Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Triangularis Right Hemisphere During Attention Capture (0-250ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudate Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudate Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pallidum Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pallidum Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Putamen Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Putamen Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Anterior Cingulate Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Anterior Cingulate Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Anterior Cingulate Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Anterior Cingulate Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Lateral Orbitofrontal Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Lateral Orbitofrontal Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Medial Orbitofrontal Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Medial Orbitofrontal Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Dorsolateral Prefrontal Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Caudal Dorsolateral Prefrontal Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Dorsolateral Prefrontal Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Rostral Dorsolateral Prefrontal Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Superior Dorsolateral Prefrontal Cortex Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Superior Dorsolateral Prefrontal Cortex Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Opercularis Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Opercularis Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Orbitalis Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Orbitalis Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Triangularis Left Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks
Change in Beta Band (13-35 Hz) Oscillatory Power During Food-cue Visual Probe Attention Bias Task in the Pars Triangularis Right Hemisphere During Attention Deployment (250-500ms Following Stimulus)
Timeframe: 2-weeks