This project aims to investigate (1) the efficacy of emotional association bias modification (EABM) training on internet gaming disorder (IGD); (2) the underlying neural mechanisms of such efficacy
As with the efficacy, the experiment aims to test whether EABM training will reduce positive emotional association bias towards gaming, compulsive choice of gaming pictures, cue-induced craving for gaming, the severity of gaming behaviors in individuals with IGD. As with the underlying neural mechanisms, the experiment aims to test whether EABM training will alter the activation of reward circuits in response to gaming pictures, the activation of executive control network (mainly refering to the prefrontal cortex) regarding regulation ability for craving and response inhibition ability.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Enrollment
87
The training aims at associating gaming pictures with negative words and pictures of healthy activities with positive words. Gaming pictures are always presented with a pair of negative words. Pictures of healthy activities are always presented with a pair of positive words. Each picture is presented with a fixed pair of words. Participants will be instructed to select one word to get the most monetary reward. Specifically, in response to each gaming picture, selecting one word will have a 70% chance to get a monetary reward and the other word will have a 30% chance to get a monetary reward. A similar rationale applies to the pictures of healthy activities. The reward setting will help consolidate target associations. Each training session includes 300 times/trials of each type of association, presented in pseudorandom way. The whole training includes 6 training sessions. Participants will receive one training session every days.
In the control group, neutral words instead of emotional words are used. All other settings are the same with those in the intervention group
State Key Laboratory of Cognitive Neuroscience and Learning, Beijing Normal University
Beijing, Beijing Municipality, China
Changes in gaming-related positive emotional association biases (EAB)
The gaming-related positive EAB will be assessed in a priming task. In the task, participants will be instructed to judge the emotional valence of positive or negative words following gaming pictures or healthy-activity pictures. Gaming-related positive EAB will be calculated by determining differences in reaction times (RTs; RTs (negative-word) minus RTs (positive-word)) in response to words following gaming pictures
Time frame: baseline , the 1st day after training
Changes in gaming-related compulsive thoughts
the scores of gaming-related compulsive thoughts will be assessed with the Yale-Brown Obsessive-Compulsive Scale modified for internet gaming disorder. The range of the score concerning gaming-related compulsive thoughts of this scale is from 0 to 20. Higher scores means more gaming-related compulsive thoughts.
Time frame: baseline, the 1st week after training, the 2nd week after training, the 3rd week after training, the 4th week after training, the 6th week after training, the 8th week after training
Changes in gaming-related compulsive behaviors
the scores of gaming-related compulsive behaviors will be assessed with the Yale-Brown Obsessive-Compulsive Scale modified for internet gaming disorder. The range of the score concerning gaming-related compulsive behaviors of this scale is from 0 to 20. Higher scores means more gaming-related compulsive behaviors.
Time frame: baseline, the 1st week after training, the 2nd week after training, the 3rd week after training, the 4th week after training, the 6th week after training, the 8th week after training
Changes in positive healthy-activity-related EAB
The healthy-activity-related positive EAB will be assessed in a priming task. In the task, participants will be instructed to judge the emotional valence of positive or negative words following gaming pictures or healthy-activity pictures. Healthy-activity-related positive EAB will be calculated by determining differences in reaction times (RTs; RTs (negative-word) minus RTs (positive-word)) in response to words following healthy-activity pictures
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Time frame: baseline and the 1st day after training
Changes in IGD severity
The scores of IGD severity will be assessed with the internet addiction test for internet gaming disorder. The range of the score of this scale is from 20 to 100. Higher scores means severer internet gaming disorder.
Time frame: baseline, the 4th week after training, the 8th week after training
Changes in weekly gaming time
weekly gaming time will be assessed by instructing participants to report weekly gaming hour in a questionaire
Time frame: baseline, the 1st week after training, the 2nd week after training, the 3rd week after training, the 4th week after training, the 6th week after training, the 8th week after training
Changes in craving
In the regulation-of-craving task, participants will report gaming-related craving during look condition, and during regulation condition using cognitive reappraisal,respectively. Craving will be assessed using a Visual Analog Scale (from 1 = 'not at all' to 9 = 'very high')
Time frame: baseline , the 1st day after training