Publications


For citations, see Google Scholar and Scopus.

Working papers

[4] Chen DY, Di X, Karunakaran KD, Sun H, Pal S, Biswal BB (2024). Delayed cerebrovascular reactivity in individuals with spinal cord injury in the right inferior parietal lobe: a breath-hold functional near-infrared spectroscopy study. medRxiv

[3] Di X, Pratik Jain, Bharat B Biswal (2024). Effects of Tasks on Functional Brain Connectivity Derived from Inter-Individual Correlations: Insights from Regional Homogeneity of Functional MRI Data. bioRxiv

[2] Chen DY, Di X, Amaya N, Sun H, Pal S, Biswal BB (2024). Brain activation during the N-back working memory task in individuals with spinal cord injury: a functional near-infrared spectroscopy study. bioRxiv

[1] Hafiz R, Gandhi TK, Misrhra S, Prasad A, Mahajan V, Natelson B, Di X, Biswal BB (2022). Assessing functional connectivity differences and work-related fatigue in surviving COVID-negative patients. bioRxiv

Journal articles

Forthcoming

[67] Sohn W, Di X, Liang Z, Zhang Z, Biswal BB (accepted). Explorations of using a convolutional neural network to understand brain activations during movie watching. Psychoradiology bioRxiv

2024

[66] Di X, Zhang L, Zhang Z, Biswal BB (2024). Opportunities and Challenges in Connectivity Analysis for Task-Based fMRI. Phys Life Rev 51:13-17.

[65] Mittal P, Sao AK, Biswal BB, Di X, Dileep AD (2004). Network-wise analysis of movie-specific information in dynamic functional connectivity using COBE. Cereb Cortex 34(4):bhae170.

[64] Chen DY, Di X, Yu X, Biswal BB (2024). The Significance and Limited Influence of Cerebrovascular Reactivity on Age and Sex Effects in Task- and Resting-State Brain Activity. Cereb Cortex 34(2):bhad448.

[63] Chen DY, Di X, Biswal BB (2024). Cerebrovascular reactivity increases across development in multiple networks as revealed by a breath-holding task: a longitudinal fMRI study. Hum Brain Mapp 45(1):e26515.

2023

[62] Zhang H, Meng C, Di X, Wu X, Biswal BB (2023). Static and Dynamic Functional Connectome Reveals Reconfiguration Profiles of Whole Brain Network across Cognitive States. Network Neuroscience 7(3):1034–1050.

[61] Di X, Xu T, Uddin LQ, Biswal BB (2023). Individual differences in time-varying and stationary brain connectivity during movie watching from childhood to early adulthood: age, sex, and behavioral associations. Dev Cogn Neurosci 63:101280.

[60] Hu Z, Di X and Yang Z (2023). Editorial: Shared responses and individual differences in the human brain during naturalistic stimulations. Front Hum Neurosci 17:1201728.

[59] Zhang H, Di X, Rypma B, Yang H, Meng C, Biswal BB (2023). Interaction between memory load and experimental design on brain connectivity and network topology. Neurosci Bull 39:631–644.

[58] Di X, Biswal BB (2023). A functional MRI preprocessing and quality control protocol based on statistical parametric mapping (SPM) and MATLAB. Front Neuroimaging 1:1070151.

2022

[57] Di X, Zhang Z, Xu T, Biswal BB (2022). Dynamic and stationary brain connectivity during movie watching as revealed by functional MRI. Brain Struct Funct 227:2299–2312.

[56] Yang H, Zhang H, Meng C, Wohlschläger A, Brandl F, Di X, Tian L, Biswal BB (2022). Frequency-specific coactivation patterns in resting-state and their alterations in schizophrenia: an fMRI study. Hum Brain Mapp 43(12):3792-3808.

[55] Di X, Woelfer M, Kuhn SB, Zhang Z, Biswal BB (2022). Estimations of the weather effects on brain functions using functional MRI: a cautionary note. Hum Brain Mapp 43(11):3346-3356.

[54] Di X, Biswal BB (2022). Principal component analysis reveals multiple consistent responses to naturalistic stimuli in children and adults. Hum Brain Mapp 43(11):3332-3345.

[53] Li M, Danyeli LV, Colic L, Wagner G, Smesny S, Chand T, Di X, Biswal BB, Kaufmann J, Reichenbach JR, Speck O, Walter M, Sen ZD (2022). The differential association between local neurotransmitter levels and whole-brain resting-state functional connectivity in two distinct cingulate cortex subregions. Hum Brain Mapp 43(9):2833-2844.

[52] Hafiz R, Gandhi TK, Mishra S, Prasad A, Mahajan V, Di X, Natelson BH, Biswal BB (2022). Higher Limbic and Basal Ganglia volumes in surviving COVID-negative patients and the relations to fatigue. Neuroimage:Reports 2(2):100095.

[51] Li L, Di X, Zhang H, Huang G, Zhang L; Liang Z, Zhang Z (2022). Characterization of whole-brain task-modulated functional connectivity in response to nociceptive pain: A multisensory comparison study. Hum Brain Mapp 43(3):1061-1075.

[50] Wu Z, Cao M, Di X, Wu K, Gao Y, Li X (2022). Regional Topological Aberrances of White Matter- and Gray Matter-based Functional Networks for Attention Processing may Foster Traumatic Brain Injury-Related Attention Deficits in Adults. Brain Sci 12(1), 16.

2021

[49] Yang H, Zhang H, Di X, Wang S, Meng C, Tian L, Biswal BB (2021). Reproducible Coactivation Patterns of Functional Brain Networks Reveal the Aberrant Dynamic State Transition in Schizophrenia. Neuroimage 237:118193.

[48] Di X, Zhang Z, Biswal BB (2021). Understanding psychophysiological interaction and its relations to beta series correlation. Brain Imaging Behav 15:958–973.

2020

[47] Woelfer M, Li M, Colic L, Liebe T, Di X, Biswal B, Murrough J, Lessmann V, Brigadski T, Walter M (2020). Ketamine-induced changes in plasma brain-derived neurotrophic factor (BDNF) levels are associated with the resting-state functional connectivity of the prefrontal cortex. World J Biol Psychia 21(9):696-710.

[46] Klugah-Brown B, Di X, Zweerings J, Mathiak K, Becker B, Biswal B (2020). Common and separable neural alterations in substance use disorders: A coordinate‐based meta‐analyses of functional neuroimaging studies in humans. Hum Brain Mapp 41(16):4459-4477.

[45] Di X, Biswal BB (2020). Intersubject consistent dynamic connectivity during natural vision revealed by functional MRI. Neuroimage 216:1166982.

[44] Yang H, Di X, Gong Q, Sweeney J, Biswal BB (2020). Investigating inhibition deficit in schizophrenia using task-modulated brain networks. Brain Struct Funct 225:1601–1613.

[43] Botvinik-Nezer et al., (2020). Variability in the analysis of a single neuroimaging dataset by many teams. Nature 582(7810):84-88.

[42] Di X, Zhang H, Biswal BB (2020). Anterior cingulate cortex differently modulates fronto-parietal functional connectivity between resting-state and working memory tasks. Hum Brain Mapp 41:1797–1805.

2019

[41] Di X, Woelfer M, Amend M, Wehrl H, Ionescu TM, Pichler BJ, Biswal BB, and Alzheimer’s Disease Neuroimaging Initiative (2019). Interregional causal influences of brain metabolic activity reveal the spread of aging effects during normal aging. Hum Brain Mapp 40(16):4657-4668.

[40] Amend M, Ionescu TM, Di X, Pichler BJ, Biswal BB, Wehrl HF (2019). Functional resting-state brain connectivity is accompanied by dynamic correlations of application-dependent [18F]FDG PET-tracer fluctuations. Neuroimage 196:161-172.

[39] Fu Z, Tu Y, Di X, Du Y, Sui J, Biswal BB, Zhang Z, de Lacy N, Calhoun V (2019). Transient Increased Thalamic-Sensory Connectivity and Decreased Whole-Brain Dynamism in Autism. Neuroimage 190:191-204.

[38] Di X, Biswal BB (2019). Toward Task Connectomics: Examining Whole-Brain Task Modulated Connectivity in Different Task Domains. Cereb Cortex 29(4):1572-1583.

2018

[37] Fu Z, Tu Y, Di X, Du Y, Pearlson GD, Turner JA, Biswal BB, Zhang Z, Calhoun VD (2018). Characterizing Dynamic Amplitude of Low-Frequency Fluctuation and Its Relationship with Dynamic Functional Connectivity: An Application to Schizophrenia. Neuroimage 180:619-31.

[36] Di X, Azeez A, Li X, Haque E, Biswal BB (2018). Disrupted focal white matter integrity in autism spectrum disorder: a voxel-based meta-analysis of diffusion tensor imaging studies. Prog Neuropsychopharmacol Biol Psychiatry 82:242-248.

2017

[35] Fu Z, Tu Y, Di X, Biswal BB, Calhoun VD, Zhang Z (2017). Associations between Functional Connectivity Dynamics and BOLD Dynamics are Heterogeneous across Brain Networks. Front Hum Neurosci 11:593.

[34] Di X, Gohel S, Thielcke A, Wehrl HF, Biswal BB, and Alzheimer’s Disease Neuroimaging Initiative (2017). Do all roads lead to Rome? A comparison of brain networks derived from inter-subject volumetric and metabolic covariance and moment-to-moment hemodynamic correlations in old individuals. Brain Struct Funct 222(8):3833–3845.

[33] Di X, Biswal BB (2017). Psychophysiological Interactions in a Visual Checkerboard Task: Reproducibility, Reliability, and the Effects of Deconvolution. Front Neurosci 11:573.

[32] Jin H, Wang P, Fang Z, Di X, Ye Z, Xu G, Lin H, Cheng Y, Li Y, Xu Y, Rao H (2017). Effects of badminton expertise on representational momentum: A combination of cross-sectional and longitudinal studies. Front Psychol 8:1526.

[31] Di X, Reynolds RC, Biswal BB (2017). Imperfect (de)convolution may introduce spurious psychophysiological interactions and how to avoid it. Hum Brain Mapp 38(4), 1723–1740.

[30] Di X, Huang J, Biswal BB (2017). Task-modulated brain connectivity of the amygdala: a meta-analysis of psychophysiological interactions. Brain Struct Funct 222(1):619-634.

2016

[29] Xu H, Wang P, Ye Z, Di X, Xu G, Mo L, Lin H, Rao H and Jin H (2016). The Role of Medial Frontal Cortex in Action Anticipation in Professional Badminton Players. Front Psychol 7:1817.

[28] Ray S, Di X, Biswal BB (2016). Effective Connectivity Within the Mesocorticolimbic System During Resting-State in Cocaine Users. Front Hum Neurosci 10:563.

[27] Yuan R, Di X, Taylor PA, Gohel S, Tsai YH, Biswal BB (2016). Functional topography of the thalamocortical system in human. Brain Struct Funct 221(4):1971-1984.

[26] Zhang X, Di X, Lei H, Yang J, Xiao J, Wang X, Yao S, Rao H (2016). Imbalanced Spontaneous Brain Activity in Orbitofrontal-Insular Circuits in Individuals with Cognitive Vulnerability to Depression. J Affect Disord 198:56-63.

[25] Di X, Biswal BB (2016). Similarly expanded bilateral temporal lobe volumes in female and male children with autism spectrum disorder. Biol Psychiatry Cogn Neurosci Neuroimaging 1(2):178-185.

[24] Hu C, Di X, Eickhoff SB, Zhang M, Peng K, Guo H, Sui J (2016). Distinct and common aspects of physical and psychological self-representation in the brain: A meta-analysis of self-bias in facial and self-referential judgements. Neurosci Biobehav Rev, 61:197–207.

2015

[23] Di X, Biswal BB (2015). Characterizations of resting-state modulatory interactions in human brain. J Neurophysiol 114(5):2785-96.

[22] Di X, Fu Z, Chan SC, Hung YS, Biswal BB, Zhang Z (2015). Task-related Functional Connectivity Dynamics in a Block-designed Visual Experiment. Front Hum Neurosci 9:543.

[21] Di X, Biswal BB (2015). Dynamic Brain Functional Connectivity Modulated by Resting-State Networks. Brain Struct Funct 220(1):37-46.

2014

[20] Di X, Kim E, Chen P, Biswal BB (2014). Lateralized Resting-state Functional Connectivity in the Task-positive and Task-negative Networks. Brain Connect 4(9):641-648.

[19] Lei H, Zhang X, Di X, Rao H, Ming Q, Zhang J, Guo X, Jiang Y, Gao Y, Yi J, Zhu X, Yao S (2014). A Functional Polymorphism of the MAOA Gene Modulates Spontaneous Brain Activity in Pons. Biomed Res Int 2014:243280.

[18] Fu Z, Chan SC, Di X, Biswal B, Zhang Z (2014). Adaptive Covariance Estimation of Non-stationary Processes and its Application to Infer Dynamic Connectivity from fMRI. IEEE Trans Biomed Circuits Syst 8(2):228–39.

[17] Di X, Biswal BB (2014). Modulatory Interactions between the Default Mode Network and Task Positive Networks in Resting-State. PeerJ 2:e367.

[16] Di X, Biswal BB (2014). Identifying the Default Mode Network Structure Using Dynamic Causal Modeling on Resting-state Functional Magnetic Resonance Imaging. Neuroimage 86:53–9.

[15] Di X, Rypma B, Biswal BB (2014). Correspondence of Executive Function Related Functional and Anatomical Alterations in Aging Brain. Prog Neuropsychopharmacol Biol Psychiatry 48(3):41–50.

2013

[14] Yuan R, Di X, Kim EH, Barik S, Rypma B, Biswal BB (2013). Regional Homogeneity of Resting-state fMRI Contributes to Both Neurovascular and Task Activation Variations. Magn Reson Imaging 31(9):1492–1500.

[13] Di X, Gohel S, Kim EH and Biswal BB (2013). Task vs. Rest - Different Network Configurations between the Coactivation and the Resting-State Brain Networks. Front Hum Neurosci 7:493.

[12] Di X, Biswal BB (2013). Modulatory interactions of resting-state brain functional connectivity. PLoS ONE 8(8): e71163.

[11] Di X, Kim E, Huang C, Tsai S, Lin C and Biswal BB (2013). The influence of the amplitude of low-frequency fluctuations on resting-state functional connectivity. Front Hum Neurosci 7:118.

[10] Huang J, Wang Y, Jin Z, Di X, Yang T, Gur RC, Gur RE, Shum DH, Cheung EF, Chan RC (2013). Happy facial expression processing with different social interaction cues: An fMRI study of individuals with schizotypal personality traits. Prog Neuropsychopharmacol Biol Psychiatry 44:108-17.

[9] Di X, Kannurpatti SS, Rypma B, Biswal BB (2013). Calibrating BOLD fMRI activations with neuro-vascular and anatomical constraints. Cereb Cortex 23(2):255-263.

2012

[8] Di X, Biswal BB, Alzheimer’s Disease Neuroimaging Initiative (2012). Metabolic Brain Covariant Networks as Revealed by FDG-PET with reference to resting-state fMRI networks. Brain Connect 2(5):275-83.

[7] Di X, Zhu S, Jin H, Wang P, Ye Z, Zhou K, Zhuo Y, Rao H (2012). Altered resting brain function and structure in professional badminton players. Brain Connect 2(4):225-33.

[6] Taylor P, Gohel SR, Di X, Walter M, Biswal B (2012). Functional covariance networks: obtaining resting state networks from intersubject variability. Brain Connect 2(4):203-17.

Before 2012

[5] Qian C, Di X (2011). Phase or amplitude? The relationship between ongoing and evoked neural activity. J Neurosci 31(29):10425-10426.

[4] Chan RC, Di X, McAlonan GM, Gong QY (2011). Brain anatomical abnormalities in high-risk individuals, first-episode, and chronic schizophrenia: an activation likelihood estimation meta-analysis of illness progression. Schizophr Bull 37(1):177-88.

[3] Di X, Chan RC, Gong QY (2009). White matter reduction in patients with schizophrenia as revealed by voxel-based morphometry: an activation likelihood estimation meta-analysis. Prog Neuropsychopharmacol Biol Psychiatry 33(8):1390-1394.

[2] Chan RC, Huang J, Di X (2009). Dexterous movement complexity and cerebellar activation: a meta-analysis. Brain Res Rev 59(2):316-323.

[1] Rao H, Di X, Chan RC, Ding Y, Ye B, Gao D (2008). A Regulation Role of Prefrontal Cortex in The Fist-Edge-Palm Task: Evidence from Functional Connectivity Analysis. Neuroimage 41(4), 1345-1351.

Journal articles in Chinese

[3] 刘宇, 陈树铨, 樊富珉, 邸新, 范会勇, 封春亮, 郭双双, 甘怡群, 李会杰, 吕小康, 任志洪, 徐鹏飞, 袁博, 左西年, 胡传鹏 (2021). 开放式荟萃分析的规范化报告. 中国科学:生命科学. doi.

[2] 胡传鹏, 邸新, 李佳蔚, 隋洁, 彭凯平 (2015). 神经成像数据的元分析. 心理科学进展 23(7): 1118-1129.

[1] 邸新, 饶恒毅 (2007). 人脑功能连通性进展. 生物化学与生物物理进展 34(1), 5-12.

File drawer (No plan for submission)

[1] Di X, Biswal BB (2016): Sex-dependent and sex-independent brain resting-state functional connectivity in children with autism spectrum disorder. bioRxiv

Conference abstracts

[20] Di X, Biswal BB. Assessing task related brain connectivity in a fast event-related designed stop signal task using psychophysiological interaction and beta series correlation. Poster presentation at the 4th New York Metropolitan Imaging Symposium, New York, USA (2017).

[19] Azeez AK, Di X, Biswal BB. Biological Sex Modulations on Cortical Thickness in Autism Spectrum Disorder: An analysis of Autism Brain Imaging Data Exchange II. Poster presentation at the International Meeting for Autism Research (IMFAR), San Francisco, USA (2017).

[18] Di X, Biswal BB. Task related brain networks derived from trial-by-trial variability of a slow event-related designed Flanker task. Poster presentation at the Fourth Biennial Conference on Resting State / Brain Connectivity, Boston, USA (2014).

[17] Di X, Yuan R, Biswal BB. Modulatory interactions between the thalamus and visual cortex in resting-state are modulated by eye open/closed conditions. Poster presentation at the Fourth Biennial Conference on Resting State / Brain Connectivity, Boston, USA (2014).

[16] Fu Z, Di X, Chan SC, Hung YS, Biswal BB, Zhang Z. Characterizing temporal variations of functional connectivity in resting-state. Poster presentation for Joint Annual Meeting ISMRM-ESMRMB, Milano, Italy (2014).

[15] Fu Z, Di X, Chan SC, Hung YS, Biswal BB, Zhang Z (2013). Time-varying correlation coefficients estimation and its application to dynamic connectivity analysis of fMRI. Conf Proc IEEE Eng Med Biol Soc. 2013:2944-2947.

[14] Zhang Z, FU Z, Chan SC, Hung YS, Motta G, Di X, Biswal BB. Conference Paper: Adaptive window selection in estimating dynamic functional connectivity of resting-state fMRI. 9th International Conference on Information, Communications and Signal Processing (ICICS2013).

[13] Di X, Biswal BB. Identifying the Default Mode Network Structure Using Dynamic Causal Modeling on Resting-state fMRI. Poster presentation at 19th Annual Meeting of the Organization for Human Brain Mapping, Seattle, USA (2013).

[12] Di X, Biswal BB. The nonlinear intrinsic brain networks - modulations on resting-state functional connectivity by other regions. Poster presentation at 19th Annual Meeting of the Organization for Human Brain Mapping, Seattle, USA (2013).

[11] Di X, Fu Z, Zhang Z, Chan SC, Biswal BB. Transient connectivity changes during a visual task - time-varying correlation estimation analysis. Poster presentation at 19th Annual Meeting of the Organization for Human Brain Mapping, Seattle, USA (2013).

[10] Yuan R, Di X, Kim EH, Barik S, Rypma B, Biswal BB. Regional Homogeneity of Resting-state fMRI Contributes to Both Neurovascular and Task Activation Variations. Poster presentation at 19th Annual Meeting of the Organization for Human Brain Mapping, Seattle, USA (2013).

[9] Di X, Kannurpatti SS, Rypma B, Biswal BB. Calibrating BOLD fMRI activations with neuro-vascular and anatomical constraints. Poster presentation at 18th Annual Meeting of the Organization for Human Brain Mapping, Beijing, China (2012).

[8] Gohel S, Di X, Biswal BB. Trajectories of functional brain networks connectivity over life-span brain development. Poster presentation at 18th Annual Meeting of the Organization for Human Brain Mapping, Beijing, China (2012).

[7] Taylor P, Gohel SR, Di X, Walter M, Biswal BB. Functional covariance networks: obtaining resting state networks from intersubject variability. Poster presentation at 18th Annual Meeting of the Organization for Human Brain Mapping, Beijing, China (2012).

[6] Jin H, Wang P, Di X, Ye Z, Xu G, Mo L, Lin C, Rao H. Activation of Medial Prefrontal Cortex during Sport-related Anticipation: An fMRI Study. Poster presentation at 17th Annual Meeting of the Organization for Human Brain Mapping, Québec, Canada (2011).

[5] Zhu S, Di X, Jin H, Wang P, Mo L, Zhou K, Zhuo Y, Rao H. Training shapes Cerebellum and parieto-frontal network in professional badminton players. Poster presentation at Annual Meeting of ISMRM, Montreal, Canada (2011).

[4] Di X, Zhou K, Rao H (2009). Individual differences of representational momentum were associated with inhibition process rather than motion perception. In: The 4th Symposium on brain and cognitive science, Chengdu, China (2009).

[3] Di X, Ding Y, Qu Z, Ye B, Gao D, Rao H (2008). The Role of Middle Temporal and Medial Prefrontal Cortex in Representational Momentum: a fMRI Study. In: Annual Meeting of ISMRM, Toronto, Canada (2008).

[2] Di X, Chan RC, Ding Y, Ye B, Qu Z, Gao D, Rao H (2007). The Role of Prefrontal Lobe in FEP: Evidence from PPI Analysis. In: Joint Annual Meeting ISMRM-ESMRMB, Berlin, Germany (2007).

[1] Di X, Rao H (2006). The higher and lower frequency asymmetry in pitch representational momentum. In: The 2nd Symposium on brain and cognitive science, Guilin, China (2006).