神经活动和连接性与食物去/不去训练引起的食物偏好变化有关

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Haishuo Xia , Qian Wu , Grant S. Shields , Haoyu Nie , Xin Hu , Shiyu Liu , Zhehan Zhou , Hong Chen , Yingkai Yang
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引用次数: 0

摘要

在多次观看开胃食物的过程中(即在食物开始/停止训练过程中),只要不做出反应,就能改变个体对食物的偏好--这反过来又能促进更健康的饮食行为。然而,食物 "去/不去 "训练引起食物偏好改变的神经机制还相对不清楚。我们在本功能磁共振成像(fMRI)研究中解决了这一问题。为此,我们在食物去/不去训练之前和之后,在扫描仪上对 91 名参与者进行了一项新颖的被动观看任务。参与者的食物偏好通过二元食物选择任务进行测量。在行为层面上,我们发现了训练对食物偏好的预期效果:参加者在训练后更喜欢吃 "去 "而不是 "不去 "的食物。在神经层面,我们发现食物偏好的变化与训练相关的 "去 "与 "不去 "的活动和功能连接差异有关,如前扣带回皮层和额上回的活动较少,但额上回和枕中回之间的功能连接较多。关键的是,动态因果建模表明,这种偏好变化效应主要是由额上回到枕中回的自上而下的影响所驱动的。这些发现共同表明了食物去/不去训练效应的神经机制--即前额叶区域和视觉区域之间与观看食物相关的相互作用可能与食物去/不去训练后食物偏好的改变有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neural activity and connectivity are related to food preference changes induced by food go/no-go training

Simply withholding a response while viewing an appetizing food, over the course of many presentations (i.e., during food go/no-go training) can modify individuals' food preferences—which could, in turn, promote healthier eating behaviors. However, the neural mechanisms underlying this food go/no-go training-induced change in food preferences are still relatively unclear. We addressed this issue in the present functional magnetic resonance imaging (fMRI) study. To this end, we administered a novel passive viewing task before and after food go/no-go training to 91 participants in the scanner. Participants’ food preferences were measured with a binary food choice task. At the behavioral level, we found the expected training effect on food preferences: Participants preferred go over no-go foods following training. At the neural level, we found that changes in food preferences were associated with training-related go vs. no-go differences in activity and functional connectivity, such as less activity in the anterior cingulate cortex and superior frontal gyrus but greater functional connectivity between the superior frontal gyrus and middle occipital gyrus. Critically, Dynamic causal modeling showed that this preference change effect was largely driven by top-down influence from the superior frontal gyrus to the middle occipital gyrus. Together, these findings suggest a neural mechanism of the food go/no-go training effect—namely, that the food-viewing-related interplay between prefrontal regions and visual regions might be related to the food preference change following food go/no-go training.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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