Transforming brain signals related to value evaluation and self‐control into behavioral choices

The processes involved in value evaluation and self‐control are critical when making behavioral choices. However, the evidence linking these two types of processes to behavioral choices in intertemporal decision‐making remains elusive. As the ventromedial prefrontal cortex (vmPFC), striatum, and dor...

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Veröffentlicht in:	Human brain mapping 2019-03, Vol.40 (4), p.1049-1061
Hauptverfasser:	Zha, Rujing, Bu, Junjie, Wei, Zhengde, Han, Long, Zhang, Pengyu, Ren, Jiecheng, Li, Ji‐An, Wang, Ying, Yang, Lizhuang, Vollstädt‐Klein, Sabine, Zhang, Xiaochu
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Schlagworte:	Addictions Addicts Adult Brain Brain - physiology Brain mapping Brain Mapping - methods Choice Behavior - physiology Decision making Decoding Evaluation Experiments Functional magnetic resonance imaging Humans Image Interpretation, Computer-Assisted - methods Impulsive behavior Impulsivity intertemporal decision‐making Magnetic resonance imaging Magnetic Resonance Imaging - methods Male multivoxel pattern analysis Neostriatum Neural networks Neuroimaging Pattern analysis Prefrontal cortex Self-Control Smoking valuation Value analysis Young Adult
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container_title	Human brain mapping
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creator	Zha, Rujing Bu, Junjie Wei, Zhengde Han, Long Zhang, Pengyu Ren, Jiecheng Li, Ji‐An Wang, Ying Yang, Lizhuang Vollstädt‐Klein, Sabine Zhang, Xiaochu
description	The processes involved in value evaluation and self‐control are critical when making behavioral choices. However, the evidence linking these two types of processes to behavioral choices in intertemporal decision‐making remains elusive. As the ventromedial prefrontal cortex (vmPFC), striatum, and dorsolateral prefrontal cortex (dlPFC) have been associated with these two processes, we focused on these three regions. We employed functional magnetic resonance imaging during a delayed discounting task (DDT) using a relatively large sample size, three independent samples. We evaluated how much information about a specific choice could be decoded from local patterns in each brain area using multivoxel pattern analysis (MVPA). To investigate the relationship between the dlPFC and vmPFC/striatum regions, we performed a psychophysiological interaction (PPI) analysis. In Experiment I, we found that the vmPFC and dlPFC, but not the striatum, could determine choices in healthy participants. Furthermore, we found that the dlPFC showed significant functional connectivity with the vmPFC, but not the striatum, when making decisions. These results could be replicated in Experiment II with an independent sample of healthy participants. In Experiment III, the choice‐decoding accuracy in the vmPFC and dlPFC was lower in patients with addiction (smokers and participants with Internet gaming disorder) than in healthy participants, and decoding accuracy in the dlPFC was related to impulsivity in addicts. Taken together, our findings may provide neural evidence supporting the hypothesis that value evaluation and self‐control processes both guide the intertemporal choices, and might provide potential neural targets for the diagnosis and treatment of impulsivity‐related brain disorders.
doi_str_mv	10.1002/hbm.24379
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However, the evidence linking these two types of processes to behavioral choices in intertemporal decision‐making remains elusive. As the ventromedial prefrontal cortex (vmPFC), striatum, and dorsolateral prefrontal cortex (dlPFC) have been associated with these two processes, we focused on these three regions. We employed functional magnetic resonance imaging during a delayed discounting task (DDT) using a relatively large sample size, three independent samples. We evaluated how much information about a specific choice could be decoded from local patterns in each brain area using multivoxel pattern analysis (MVPA). To investigate the relationship between the dlPFC and vmPFC/striatum regions, we performed a psychophysiological interaction (PPI) analysis. In Experiment I, we found that the vmPFC and dlPFC, but not the striatum, could determine choices in healthy participants. Furthermore, we found that the dlPFC showed significant functional connectivity with the vmPFC, but not the striatum, when making decisions. These results could be replicated in Experiment II with an independent sample of healthy participants. In Experiment III, the choice‐decoding accuracy in the vmPFC and dlPFC was lower in patients with addiction (smokers and participants with Internet gaming disorder) than in healthy participants, and decoding accuracy in the dlPFC was related to impulsivity in addicts. 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However, the evidence linking these two types of processes to behavioral choices in intertemporal decision‐making remains elusive. As the ventromedial prefrontal cortex (vmPFC), striatum, and dorsolateral prefrontal cortex (dlPFC) have been associated with these two processes, we focused on these three regions. We employed functional magnetic resonance imaging during a delayed discounting task (DDT) using a relatively large sample size, three independent samples. We evaluated how much information about a specific choice could be decoded from local patterns in each brain area using multivoxel pattern analysis (MVPA). To investigate the relationship between the dlPFC and vmPFC/striatum regions, we performed a psychophysiological interaction (PPI) analysis. In Experiment I, we found that the vmPFC and dlPFC, but not the striatum, could determine choices in healthy participants. Furthermore, we found that the dlPFC showed significant functional connectivity with the vmPFC, but not the striatum, when making decisions. These results could be replicated in Experiment II with an independent sample of healthy participants. In Experiment III, the choice‐decoding accuracy in the vmPFC and dlPFC was lower in patients with addiction (smokers and participants with Internet gaming disorder) than in healthy participants, and decoding accuracy in the dlPFC was related to impulsivity in addicts. Taken together, our findings may provide neural evidence supporting the hypothesis that value evaluation and self‐control processes both guide the intertemporal choices, and might provide potential neural targets for the diagnosis and treatment of impulsivity‐related brain disorders.</description><subject>Addictions</subject><subject>Addicts</subject><subject>Adult</subject><subject>Brain</subject><subject>Brain - physiology</subject><subject>Brain mapping</subject><subject>Brain Mapping - methods</subject><subject>Choice Behavior - physiology</subject><subject>Decision making</subject><subject>Decoding</subject><subject>Evaluation</subject><subject>Experiments</subject><subject>Functional magnetic resonance imaging</subject><subject>Humans</subject><subject>Image Interpretation, Computer-Assisted - methods</subject><subject>Impulsive behavior</subject><subject>Impulsivity</subject><subject>intertemporal decision‐making</subject><subject>Magnetic resonance imaging</subject><subject>Magnetic Resonance Imaging - methods</subject><subject>Male</subject><subject>multivoxel pattern analysis</subject><subject>Neostriatum</subject><subject>Neural networks</subject><subject>Neuroimaging</subject><subject>Pattern analysis</subject><subject>Prefrontal cortex</subject><subject>Self-Control</subject><subject>Smoking</subject><subject>valuation</subject><subject>Value analysis</subject><subject>Young Adult</subject><issn>1065-9471</issn><issn>1097-0193</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kcFqFTEUhoMotlYXvoAE3OjitieZTHKzEbRoK1Tc1HU4mcncm5JJajJzpTsfwWf0Scz01qKCm5xAPj7-k5-Q5wyOGQA_2drxmItG6QfkkIFWK2C6ebjcZbvSQrED8qSUKwDGWmCPyUEDrW7kWhwSvMwYy5Dy6OOG2ow-0uI3EUOh2QWcXE-nRHcYZkfdMnDyKVKMPS0uDD-__-hSnHIK1McKWrfFnU8ZA-22yXeuPCWPhmpzz-7mEfny4f3l6fnq4vPZx9O3F6tOiEbXU7WqHRQKzpRlQkvQ0PQMeysd9GClQr2WrZW2UqrndeFBaek64INA2xyRN3vv9WxH13eupsJgrrMfMd-YhN78_RL91mzSzshqFYpXwas7QU5fZ1cmM_rSuRAwujQXw5lkUq-5XNCX_6BXac7Lp1VKSa5BM6jU6z3V5VRKdsN9GAZmKc7U4sxtcZV98Wf6e_J3UxU42QPffHA3_zeZ83ef9spf1SmkiA</recordid><startdate>201903</startdate><enddate>201903</enddate><creator>Zha, Rujing</creator><creator>Bu, Junjie</creator><creator>Wei, Zhengde</creator><creator>Han, Long</creator><creator>Zhang, Pengyu</creator><creator>Ren, Jiecheng</creator><creator>Li, Ji‐An</creator><creator>Wang, Ying</creator><creator>Yang, Lizhuang</creator><creator>Vollstädt‐Klein, Sabine</creator><creator>Zhang, Xiaochu</creator><general>John Wiley & Sons, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QR</scope><scope>7TK</scope><scope>7U7</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>K9.</scope><scope>P64</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0003-0457-096X</orcidid><orcidid>https://orcid.org/0000-0002-7541-0130</orcidid></search><sort><creationdate>201903</creationdate><title>Transforming brain signals related to value evaluation and self‐control into behavioral choices</title><author>Zha, Rujing ; Bu, Junjie ; Wei, Zhengde ; Han, Long ; Zhang, Pengyu ; Ren, Jiecheng ; Li, Ji‐An ; Wang, Ying ; Yang, Lizhuang ; Vollstädt‐Klein, Sabine ; Zhang, Xiaochu</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4439-c47575f7a4217b14960903d1adb6e0d0b67a9865b6b5f77d2243f796ec02f4ab3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><topic>Addictions</topic><topic>Addicts</topic><topic>Adult</topic><topic>Brain</topic><topic>Brain - physiology</topic><topic>Brain mapping</topic><topic>Brain Mapping - methods</topic><topic>Choice Behavior - physiology</topic><topic>Decision making</topic><topic>Decoding</topic><topic>Evaluation</topic><topic>Experiments</topic><topic>Functional magnetic resonance imaging</topic><topic>Humans</topic><topic>Image Interpretation, Computer-Assisted - methods</topic><topic>Impulsive behavior</topic><topic>Impulsivity</topic><topic>intertemporal decision‐making</topic><topic>Magnetic resonance imaging</topic><topic>Magnetic Resonance Imaging - methods</topic><topic>Male</topic><topic>multivoxel pattern analysis</topic><topic>Neostriatum</topic><topic>Neural networks</topic><topic>Neuroimaging</topic><topic>Pattern analysis</topic><topic>Prefrontal cortex</topic><topic>Self-Control</topic><topic>Smoking</topic><topic>valuation</topic><topic>Value analysis</topic><topic>Young Adult</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Zha, Rujing</creatorcontrib><creatorcontrib>Bu, Junjie</creatorcontrib><creatorcontrib>Wei, Zhengde</creatorcontrib><creatorcontrib>Han, Long</creatorcontrib><creatorcontrib>Zhang, Pengyu</creatorcontrib><creatorcontrib>Ren, Jiecheng</creatorcontrib><creatorcontrib>Li, Ji‐An</creatorcontrib><creatorcontrib>Wang, Ying</creatorcontrib><creatorcontrib>Yang, Lizhuang</creatorcontrib><creatorcontrib>Vollstädt‐Klein, Sabine</creatorcontrib><creatorcontrib>Zhang, Xiaochu</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Chemoreception Abstracts</collection><collection>Neurosciences Abstracts</collection><collection>Toxicology Abstracts</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Engineering Research Database</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Human brain mapping</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zha, Rujing</au><au>Bu, Junjie</au><au>Wei, Zhengde</au><au>Han, Long</au><au>Zhang, Pengyu</au><au>Ren, Jiecheng</au><au>Li, Ji‐An</au><au>Wang, Ying</au><au>Yang, Lizhuang</au><au>Vollstädt‐Klein, Sabine</au><au>Zhang, Xiaochu</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Transforming brain signals related to value evaluation and self‐control into behavioral choices</atitle><jtitle>Human brain mapping</jtitle><addtitle>Hum Brain Mapp</addtitle><date>2019-03</date><risdate>2019</risdate><volume>40</volume><issue>4</issue><spage>1049</spage><epage>1061</epage><pages>1049-1061</pages><issn>1065-9471</issn><eissn>1097-0193</eissn><abstract>The processes involved in value evaluation and self‐control are critical when making behavioral choices. However, the evidence linking these two types of processes to behavioral choices in intertemporal decision‐making remains elusive. As the ventromedial prefrontal cortex (vmPFC), striatum, and dorsolateral prefrontal cortex (dlPFC) have been associated with these two processes, we focused on these three regions. We employed functional magnetic resonance imaging during a delayed discounting task (DDT) using a relatively large sample size, three independent samples. We evaluated how much information about a specific choice could be decoded from local patterns in each brain area using multivoxel pattern analysis (MVPA). To investigate the relationship between the dlPFC and vmPFC/striatum regions, we performed a psychophysiological interaction (PPI) analysis. In Experiment I, we found that the vmPFC and dlPFC, but not the striatum, could determine choices in healthy participants. Furthermore, we found that the dlPFC showed significant functional connectivity with the vmPFC, but not the striatum, when making decisions. These results could be replicated in Experiment II with an independent sample of healthy participants. In Experiment III, the choice‐decoding accuracy in the vmPFC and dlPFC was lower in patients with addiction (smokers and participants with Internet gaming disorder) than in healthy participants, and decoding accuracy in the dlPFC was related to impulsivity in addicts. Taken together, our findings may provide neural evidence supporting the hypothesis that value evaluation and self‐control processes both guide the intertemporal choices, and might provide potential neural targets for the diagnosis and treatment of impulsivity‐related brain disorders.</abstract><cop>Hoboken, USA</cop><pub>John Wiley & Sons, Inc</pub><pmid>30593684</pmid><doi>10.1002/hbm.24379</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0003-0457-096X</orcidid><orcidid>https://orcid.org/0000-0002-7541-0130</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Addictions Addicts Adult Brain Brain - physiology Brain mapping Brain Mapping - methods Choice Behavior - physiology Decision making Decoding Evaluation Experiments Functional magnetic resonance imaging Humans Image Interpretation, Computer-Assisted - methods Impulsive behavior Impulsivity intertemporal decision‐making Magnetic resonance imaging Magnetic Resonance Imaging - methods Male multivoxel pattern analysis Neostriatum Neural networks Neuroimaging Pattern analysis Prefrontal cortex Self-Control Smoking valuation Value analysis Young Adult
title	Transforming brain signals related to value evaluation and self‐control into behavioral choices
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