Your search keyword '"Zhang, Xiaochu"' showing total 8 results

1. Alcohol dependence inpatients classification with GLM and hierarchical clustering integration using fMRI data of alcohol multiple scenario cues

Author

Alarefi, Abdulqawi, Alhusaini, Naji, Wang, Xunshi, Tao, Rui, Rui, Qinqin, Gao, Guoqing, Pang, Liangjun, Qiu, Bensheng, and Zhang, Xiaochu

Published

2022

2. The neural mechanisms of immediate and follow-up of the treatment effect of hypnosis on smoking craving

Author

Li, Xiaoming, Chen, Lijun, Ma, Ru, Wang, Haibao, Wan, Li, Bu, Junjie, Hong, Wei, Lv, Wanwan, Yang, Yihong, Rao, Hengyi, and Zhang, Xiaochu

Published

2020

3. The orbitofrontal cortex represents advantageous choice in the Iowa gambling task.

Author

Zha, Rujing, Li, Peng, Liu, Ying, Alarefi, Abdulqawi, Zhang, Xiaochu, and Li, Jun

Subjects

PREFRONTAL cortex, FUNCTIONAL magnetic resonance imaging

Abstract

A good‐based model, the central neurobiological model of economic decision‐making, proposes that the orbitofrontal cortex (OFC) represents binary choice outcome, that is, the chosen good. A good is defined by a group of determinants characterizing the conditions in which the commodity is offered, including commodity type, cost, risk, time delay, and ambiguity. Previous studies have found that the OFC represents the binary choice outcome in decision‐making tasks involving commodity type, cost, risk, and delay. Real‐life decisions are often complex and involve uncertainty, rewards, and penalties; however, whether the OFC represents binary choice outcomes in a complex decision‐making situation, for example, Iowa gambling task (IGT), remains unclear. Here, we propose that the OFC represents binary choice outcome, that is, advantageous choice versus disadvantageous choice, in the IGT. We propose two hypotheses: first, the activity pattern in the human OFC represents an advantageous choice; and second, choice induces an OFC‐related functional network. Using functional magnetic resonance imaging and advanced machine‐learning tools, we found that the OFC represented an advantageous choice in the IGT. The OFC representation of advantageous choice was related to decision‐making performance. Choice modulated the functional connectivity between the OFC and the superior medial gyrus. In conclusion, the OFC represents an advantageous choice during the IGT. In the framework of a good‐based model, the results extend the role of the OFC to complex decision‐making situation when making a binary choice. [ABSTRACT FROM AUTHOR]

Published

2022

4. Depicting People in Visual Cues Affects Alcohol Cue Reactivity in Male Alcohol-Dependent Patients.

Author

Alarefi, Abdulqawi, Wang, Xunshi, Tao, Rui, Rui, Qinqin, Gao, Guoqing, Wang, Ying, Pang, Liangjun, Liu, Chialun, and Zhang, Xiaochu

Subjects

ALCOHOLISM, TEMPORAL lobe, ALCOHOL, STIMULUS & response (Psychology), FACTORIAL experiment designs, ALCOHOL drinking

Abstract

Cue reactivity is often used to study alcohol cues brain responses. Standardized image sets are used, but the effect of viewing people interacting with the alcohol drink remains unclear, which is associated with the factors of alcohol cues that influence the degree of response to alcohol stimuli. The present study used fMRI to investigate the reactivity of alcohol dependence (AD) inpatients to alcohol cues with or without human drinking behavior. Cues with a human interacting with a drink were hypothesized to increase sensorimotor activation. In total, 30 AD inpatients were asked to view pictures with a factorial design of beverage types (alcoholic vs. non-alcoholic beverages) and cue types (with or without drink action). Whole-brain analyses were performed. A correlation analysis was conducted to confirm whether the whole-brain analysis revealed cue-related brain activations correlated with problem drinking duration. The left lingual gyrus showed significant beverage types through cue type interaction, and the bilateral temporal cortex showed significant activation in response to alcohol cues depicting human drinking behavior. The right and left lingual gyrus regions and left temporal cortex were positively correlated with problem drinking duration. Sensorimotor activations in the temporal cortex may reflect self-referential and memory-based scene processing. Thus, our findings indicate these regions are associated with alcohol use and suggest them for cue exposure treatment of alcohol addiction. [ABSTRACT FROM AUTHOR]

Published

2022

5. Investigation of brain functional connectivity to assess cognitive control over cue-processing in Alcohol Use Disorder.

Author

Strosche, Alicia, Zhang, Xiaochu, Kirsch, Martina, Hermann, Derik, Ende, Gabriele, Kiefer, Falk, Vollstädt‐Klein, Sabine, and Vollstädt-Klein, Sabine

Subjects

*FUNCTIONAL connectivity, *ALCOHOLISM, *CONTROL (Psychology), *PSYCHOPHYSIOLOGY, *FUNCTIONAL magnetic resonance imaging, *BRAIN, *FRONTAL lobe, *RESEARCH, *NEURAL pathways, *LIMBIC system, *RESEARCH methodology, *COGNITION, *BRAIN mapping, *DESIRE, *MAGNETIC resonance imaging, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *REWARD (Psychology), *TELENCEPHALON, *RESEARCH funding, *PROMPTS (Psychology), *CEREBRAL cortex

Abstract

Alcohol Use Disorder has been associated with impairments of functional connectivity between neural networks underlying reward processing and cognitive control. Evidence for aberrant functional connectivity between the striatum, insula, and frontal cortex in alcohol users exists at rest, but not during cue-exposure. In this study, we investigated functional connectivity changes during a cue-reactivity task across different subgroups of alcohol consumers. Ninety-six participants (ranging from light social to heavy social drinkers and nonabstinent dependent to abstinent dependent drinkers) were examined. A functional magnetic resonance imaging cue-reactivity paradigm was administered, during which alcohol-related and neutral stimuli were presented. Applying psychophysiological interaction analyses, we found: (a) Abstinent alcohol-dependent patients compared with non-abstinent dependent drinkers showed a greater increase of functional connectivity of the ventral striatum and anterior insula with the anterior cingulate cortex and dorsolateral prefrontal cortex during the presentation of alcohol cues compared with neutral cues. (b) Subjective craving correlated positively with functional connectivity change between the posterior insula and the medial orbitofrontal cortex and negatively with functional connectivity change between the ventral striatum and the anterior cingulate cortex, dorsolateral prefrontal cortex, and lateral orbitofrontal cortex. (c) Compulsivity of alcohol use correlated positively with functional connectivity change between the dorsolateral prefrontal cortex and the ventral striatum, anterior insula, and posterior insula. Results suggest increased cognitive control over cue-processing in abstinent alcohol-dependent patients, compensating high levels of cue-provoked craving and compulsive use. Clinical trial registration details: ClinicalTrials.gov ID: NCT00926900. [ABSTRACT FROM AUTHOR]

Published

2021

6. The top‐down regulation from the prefrontal cortex to insula via hypnotic aversion suggestions reduces smoking craving.

Author

Li, Xiaoming, Chen, Lijun, Ma, Ru, Wang, Haibao, Wan, Li, Wang, Ying, Bu, Junjie, Hong, Wei, Lv, Wanwan, Vollstädt‐Klein, Sabine, Yang, Yihong, and Zhang, Xiaochu

Abstract

Hypnosis has been shown to have treatment effects on nicotine addiction. However, the neural basis of these effects is poorly understood. This preliminary study investigated the neural mechanisms of hypnosis‐based treatment on cigarette smoking, specifically, whether the hypnosis involves a top‐down or bottom‐up mechanism. Two groups of 45 smokers underwent a smoking aversion suggestion and viewed smoking‐related pictures and neutral pictures. One group underwent functional magnetic resonance imaging scanning twice (control and hypnotic states), whereas the other group underwent two electroencephalograph sessions. Our study found that self‐reported smoking craving decreased in both groups following hypnosis. Smoking cue‐elicited activations in the right dorsal lateral prefrontal cortex (rDLPFC) and left insula (lI) and the functional connectivity between the rDLPFC and lI were increased in the hypnotic state compared with the control state. The delta band source waveforms indicated the activation from 390 to 862 ms at the rDLPFC and from 490 to 900 ms at the lI was significantly different between the smoking and neutral conditions in the hypnotic state, suggesting the activation in the rDLPFC preceded that in the lI. These results suggest that the decreased smoking craving via hypnotic aversion suggestions may arise from the top‐down regulation of the rDLPFC to the lI. Our findings provide novel neurobiological evidence for understanding the therapeutic effects of hypnosis on nicotine addiction, and the prefrontal–insula circuit may serve as an imaging biomarker to monitor the treatment efficacy noninvasively. [ABSTRACT FROM AUTHOR]

Published

2019

7. Age-dependent brain activation during forward and backward digit recall revealed by fMRI

Author

Sun, Xiwen, Zhang, Xiaochu, Chen, Xiangchuan, Zhang, Peng, Bao, Min, Zhang, Daren, Chen, Jing, He, Sheng, and Hu, Xiaoping

Subjects

*PREFRONTAL cortex, *MEMORY, *MAGNETIC resonance imaging, *VISUAL cortex

Abstract

Abstract: In this study, brain activation associated with forward and backward digit recall was examined in healthy old and young adults using functional MRI. A number of areas were activated during the recall. In young adults, greater activation was found in the left prefrontal cortex (BA9) and the left occipital visual cortex during backward digit recall than forward digit recall. In contrast, the activation in the right inferior frontal gyrus (BA 44/45) was more extensive in forward digit recall than in backward digit recall. In older adults, backward recall generated stronger activation than forward recall in most areas, including the frontal, the parietal, the occipital, and the temporal cortices. In the backward recall condition, the right inferior frontal gyrus (BA44/45) showed more activation in the old group than in the young group. These results suggest that different neural mechanisms may be involved in forward and backward digit recall and brain functions associated with these two types of recall are differentially affected by aging. [Copyright &y& Elsevier]

Published

2005

8. Neural substrates of updating the prediction through prediction error during decision making.

Author

Wang, Ying, Ma, Ning, He, Xiaosong, Li, Nan, Wei, Zhengde, Yang, Lizhuang, Zha, Rujing, Han, Long, Zhang, Daren, Li, Xiaoming, Zhang, Xiaochu, and Liu, Ying

Subjects

*DECISION making, *REINFORCEMENT learning, *FUNCTIONAL magnetic resonance imaging, *BAYESIAN analysis, *NEUROSCIENCES

Abstract

Learning of prediction error (PE), including reward PE and risk PE, is crucial for updating the prediction in reinforcement learning (RL). Neurobiological and computational models of RL have reported extensive brain activations related to PE. However, the occurrence of PE does not necessarily predict updating the prediction, e.g., in a probability-known event. Therefore, the brain regions specifically engaged in updating the prediction remain unknown. Here, we conducted two functional magnetic resonance imaging (fMRI) experiments, the probability-unknown Iowa Gambling Task (IGT) and the probability-known risk decision task (RDT). Behavioral analyses confirmed that PEs occurred in both tasks but were only used for updating the prediction in the IGT. By comparing PE-related brain activations between the two tasks, we found that the rostral anterior cingulate cortex/ventral medial prefrontal cortex (rACC/vmPFC) and the posterior cingulate cortex (PCC) activated only during the IGT and were related to both reward and risk PE. Moreover, the responses in the rACC/vmPFC and the PCC were modulated by uncertainty and were associated with reward prediction-related brain regions. Electric brain stimulation over these regions lowered the performance in the IGT but not in the RDT. Our findings of a distributed neural circuit of PE processing suggest that the rACC/vmPFC and the PCC play a key role in updating the prediction through PE processing during decision making. [ABSTRACT FROM AUTHOR]

Published

2017