{"id":17,"date":"2020-03-27T17:59:20","date_gmt":"2020-03-27T17:59:20","guid":{"rendered":"https:\/\/lab.research.sickkids.ca\/dunkley\/?page_id=17"},"modified":"2026-02-17T15:46:07","modified_gmt":"2026-02-17T15:46:07","slug":"publications","status":"publish","type":"page","link":"https:\/\/lab.research.sickkids.ca\/dunkley\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"<div class=\"fusion-fullwidth fullwidth-box fusion-builder-row-1 nonhundred-percent-fullwidth non-hundred-percent-height-scrolling\" style=\"--link_color: #0046ad;--awb-border-radius-top-left:0px;--awb-border-radius-top-right:0px;--awb-border-radius-bottom-right:0px;--awb-border-radius-bottom-left:0px;--awb-flex-wrap:wrap;\" ><div class=\"fusion-builder-row fusion-row\"><div class=\"fusion-layout-column fusion_builder_column fusion-builder-column-0 fusion_builder_column_1_1 1_1 fusion-one-full fusion-column-first fusion-column-last\" style=\"--awb-bg-blend:overlay;--awb-bg-size:cover;\"><div class=\"fusion-column-wrapper fusion-column-has-shadow fusion-flex-column-wrapper-legacy\"><div class=\"fusion-text fusion-text-1\" style=\"--awb-text-color:#000000;\"><p><strong><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">For a full list of publications, see <a href=\"https:\/\/scholar.google.ca\/citations?user=XHK2dJkAAAAJ&amp;hl=en\" target=\"_blank\" rel=\"noopener noreferrer\"><u>Google Scholar<\/u><\/a><\/span><\/strong><\/p>\n<p><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">Publications from previous 6 years<\/span><\/strong><\/p>\n<p><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">Preprints<\/span><\/strong><\/p>\n<ul>\n<li><em>Roberts, G,<\/em> <em>Hardy, S<\/em>, Chen, R, PREVENT-AD Research Group, Quebec Parkinson Network &amp; <strong><u>Dunkley, BT.<\/u><\/strong> Individual cases of Parkinson&#8217;s disease can be robustly classified by cortical oscillatory activity from magnetoencephalography, <em>medRxiv<\/em><\/li>\n<li><em>Saberi, M, <\/em><span>Ventresca, M, Zamyadi, R, Zhang, J, Vartanian, O, Jetly, R, Bhat, V, Rhind, SG, Richardson, JD &amp; <\/span><strong><u>Dunkley, BT<\/u><\/strong><span>. Neural synchrony in the pain connectome predicts chronic pain severity and interactions with mental health outcomes: A transdiagnostic study using magnetoencephalography and multivariate modeling, <\/span><em>medRxiv<\/em><\/li>\n<li><span>Mouseli, P, <\/span><b>Dunkley, BT<\/b><span> &amp; Moayedi, M. Functional connectivity differences in adult\u2019s ADHD\u2013a MEG study,<\/span><i> bioRxiv<\/i><\/li>\n<li><span><b>D<\/b><\/span><span><b>unkley, BT, <\/b>Solar, KG, Zamyadi, R, Reichelt, AC, Morrison, E, Scratch, SE &amp; Hamilton, J. Neurophysiological dysconnectivity across multiple resting state brain networks and cognitive impairment in children with Prader-Willi Syndrome, <i>medRxiv<\/i><\/span><\/li>\n<\/ul>\n<p><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">2026<\/span><\/strong><\/p>\n<ul>\n<li>Sousa-Ho, RL, Demchenko, I, Baltazar, VA, Tailor, I, <b>Dunkley, BT, <\/b>Schweizer, TA, Kennedy, SH, Boutet, A, Lozano, Chin Fatt, CR, Jha, MK, Dunlop, K &amp; Bhat, V. Subgenual anterior cingulate cortex and antidepressant response to serotonergic and glutamatergic pharmacological treatments: a systematic review of neuroimaging studies, <i>Progress in Neuropsychopharmacology &amp; Biological Psychiatry, In Press<\/i><\/li>\n<li>El-Sayed, R, Sanmugananthan, VV, Cheng, JC, Rogachov, A, Osborne, NR, Besik, A, Hemington, KS, Kim, JA, Bosma, RL, Mills, EP, <b>Dunkley, BT<\/b><span> &amp; Davis, KD. Individual differences in conditioned pain modulation are associated with alpha oscillations, <\/span><i>Pain, In Press<\/i><\/li>\n<li>Zhang, J, Solar, K, Safar, K, Zamyadi, R, Vandewouw, MM, Da Costa, L, Rhind, SG, Jetly, R &amp; <b><u>Dunkley, BT.<\/u><\/b><span> The structural, functional, and neurophysiological connectome of mild traumatic brain injury: a DTI, fMRI and MEG multimodal clustering and data fusion study, <\/span><i>NeuroImage: Clinical, In Press<\/i><\/li>\n<li>Kamino, D, Varghese, JP, Shatil, AS, Widjaja, E, <b>Dunkley, BT,<\/b><span> Mamak, E, Chau, V, Ly, LG &amp; Tam, EWY. Early life resting state network functional connectivity and long-term neurodevelopmental outcomes after neonatal encephalopathy, <\/span><i>American Journal of Neuroradiology, In Press<\/i><\/li>\n<\/ul>\n<p><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">2025<\/span><\/strong><\/p>\n<ul>\n<li><span>Reichelt, AC, Daskalakis, E, Cohen, J, Solar, KG, Saberi, M, Ventresca, M, Ali, M, Zamyadi, R, Scratch, SE, Hamilton, J &amp; <\/span><b><u>Dunkley, BT.<\/u><\/b><span> Elevated body mass index in youth is associated with dysregulated surrogate markers of neural inhibition &amp; excitation, and internetwork functional dysconnectivity, <\/span><i>Clinical Neurophysiology, In Press<\/i><\/li>\n<li><span>Kelardashti, N, <\/span><b>Dunkley, BT,<\/b><span> El-Sayed, R, Sanmugananthan, VV, Kim, JA, Osborne, NR, Cheng, JC, Rogachov, A, Bosma, RL, Besik, A &amp; Davis, KD. Alpha and Theta Oscillations associated with Behavioral Phenotypes of Pain-Attention Interaction, <\/span><i>Brain and Behavior<\/i><\/li>\n<li><span>Meshkat, S, Fang, H, Sousa-Ho, R, Zeifman, RJ, <\/span><b>Dunkley, BT,<\/b><span> Reichelt, AC, Zhang, Y, Burback, L, Winkler, O, Greenshaw, A, Jetly, R, Mayo, LM, Monson, C &amp; Bhat, V. Therapeutic Effects of Low-Dose Psilocybin in Depression and other Mental Disorders: A Systematic Review, <\/span><i>Psychedelic Medicine, In Press<\/i><\/li>\n<li><span>Bigler, E, Allder, S, <\/span><b>Dunkley, BT<\/b><span> &amp; Victoroff, J. What Traditional Neuropsychological Assessment Got Wrong About Mild Traumatic Brain Injury. IV: Clinical Applications and Future Directions, <\/span><i>Brain Injury, In Press<\/i><\/li>\n<li><span>Meshkat, S, Di Luciano, C, Swiderski, A, Aguilar, RJ, <\/span><b>Dunkley, BT,<\/b><span> Reichelt, AC, Zhang, Y, Greenshaw, A, Vermetten, E, Jetly, R, Dash, S, Agarwal, SM, Swainson, J &amp; Bhat, V. Efficacy and Safety of Glucagon-Like Peptide-1 Agonists for Psychiatric Symptoms: A Systematic Review, <\/span><i>Brain and Behavior, In Press<\/i><\/li>\n<li><span>Bigler, E, Allder, S, <\/span><b>Dunkley, BT<\/b><span> &amp; Victoroff, J. What Traditional Neuropsychological Assessment Got Wrong About Mild Traumatic Brain Injury. III: The Added Value of Advanced Neuroimaging, <\/span><i>Brain Injury, In Press<\/i><\/li>\n<\/ul>\n<p><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">2024 <\/span><\/strong><\/p>\n<ul>\n<li><span>Saberi, M, Rieck, JR, Golafshan, M, Grady, SL, Misic, B, <\/span><strong>Dunkley, BT<\/strong><span> &amp; Khatibi, A. The brain selectively allocates energy to functional brain networks under cognitive control, <\/span><em>Scientific Reports<\/em><\/li>\n<li><span>Kelardashti, N, <\/span><strong>Dunkley, BT,<\/strong><span> El-Sayed, R, Sanmugananthan, VV, Kim, JA, Osborne, NR, Cheng, JC, Rogachov, A, Bosma, RL, Besik, A &amp; Davis, KD. Alpha and Theta Oscillations associated with Behavioral Phenotypes of Pain-Attention Interaction, <\/span><em>Brain and Behavior, In Press<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Meshkat, S, Tello Gerez, TJ, Gholaminezhad, F, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Reichelt, AC, Erritzoe, D, Vermetten, E, Zhang, Y, Greenshaw, AJ, Burback, L, Winkler, O, Jetly, R, Mayo, LM &amp; Bhat, V. Impact of Psilocybin on Cognitive Function: A Systematic Review, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Psychiatry and Clinical Neurosciences, 78(12)<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Solar, KG<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Ventresca, M, Zamyadi, R, Zhang, J, Vartanian, O, Rhind, SG &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">. Repetitive subconcussion results in disrupted neural activity independent of concussion history, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Brain Communications, 6(5), fcae348<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Hardy, S<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Roberts, G, Ventresca, M &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT.<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Predicting brain age across the adult lifespan with spontaneous oscillations and functional coupling in resting brain networks captured with magnetoencephalography, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Imaging Neuroscience, 2<\/em><\/li>\n<\/ul>\n<ul>\n<\/ul>\n<p><b style=\"color: var(--awb-color5);font-style: var(--awb-text-font-style);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover);font-size: 20px\" data-fusion-font=\"true\">2023<\/b><\/p>\n<ul>\n<li>Reichelt, AC, Vermetten, E &amp; <strong><u>Dunkley, BT<\/u><\/strong><u>.<\/u> Psychedelic and nutraceutical interventions as therapeutic strategies for military-related mild traumatic brain injuries, <em>The Journal of Military, Veteran and Family Health, 9(5):28-37<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Koster, LK<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Zamyadi, R, Yan, L, Payne, ET, McBain, KL, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> &amp; Hahn, CD. Brain Network Properties of Clinical versus Subclinical Seizures Among Critically Ill Children, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Clinical Neurophysiology, 149:33-41<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Sheldrake, E, Lam, B, Alhakeem, H, Wheeler, A, Goldstein, B, Burke, MJ, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Ameis, S, Reed, N &amp; Scratch, SE. A scoping review of magnetic resonance modalities used in detection of persistent post-concussion symptoms (PPCS) in pediatric populations, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Journal of Child Neurology, 38(1-2):85-102<\/em><\/li>\n<\/ul>\n<p><strong style=\"color: var(--awb-color5);font-family: var(--awb-text-font-family);font-size: 20px;font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\" data-fusion-font=\"true\">2022<\/strong><\/p>\n<ul>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Crawford, JD, Baltaretu, BR, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT <\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">&amp; Tomou, G. Cortical networks for transsaccadic perception: fMRI and functional connectivity, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Journal of Vision, 22:3152<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Fauchon, C, Kim, JA, El-Sayed, R, Osborne, N, Rogachov, A, Cheng, J, Hemington, KS, Bosma, RL, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Oh, J, Bhatia, A, Inman, RD &amp; Davis, KD. A Hidden Markov Model reveals magnetoencephalography spectral frequency-specific abnormalities of brain state power and phase-coupling in neuropathic pain, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Communications Biology, 5<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Arski, O, Wong, S, Warsi, N, Pang, EW, Kerr, E, Smith, M, Taylor, M, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Ochi, A, Otsubo, H, Sharma, R, Yau, I, Jain, P, Donner, E, Snead III, OC &amp; Ibrahim, George. Epilepsy disrupts hippocampal phase precision and impairs working memory, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Epilepsia, 63(10):2583-2596<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Gharehgazlou, A<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Jetly, R, Rhind, SG, Reichelt, AC, da Costa, L &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT.<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Cortical gyrification morphology in adult males with mild traumatic brain injury, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Neurotrauma: Reports, 3(1):299-307<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Hung, Y<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Vandewouw, M, Emami, Z, Bells, S, Rudburg, N, da Costa, L &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u>.<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Memory Retrieval Brain-Behavior Disconnection in Mild Traumatic Brain Injury: A Magnetoencephalography and Diffusion Tensor Imaging Study, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Human Brain Mapping, 43(17):5296-5309<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Sheldrake, E, Alhakeem, H, Lam, B, Goldstein, B, Wheeler, A, Burke, MJ, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Reed, N &amp; Scratch, SE. Mental health outcomes across the lifespan in individuals with persistent post-concussion symptoms (PPCS): A scoping review, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Frontiers in Neurology<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Freitas, C, Hunt, BAE, Wong, SM, Ristic, L, Fragiadakis, S, Chow, S, Iaboni, A, Brian, J, Soorya, L, Chen, JL, Schachar, R, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Taylor, MJ, Lerch, JP &amp; Anagnostou, E. Atypical Functional Connectivity during Unfamiliar Music Listening in Children with Autism, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Frontiers in Neuroscience<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Wong, SM, Arski, ON, Warsi, NM, Pang, EW, Kerr, E, Smith, ML, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Ochi, A, Otsubo, H, Sharma, R, Jain, P, Donner, E, Snead, OC &amp; Ibrahim, GM. Phase resetting in the anterior cingulate cortex subserves human attention and is impaired by epilepsy, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Cerebral Cortex, bhab192<\/em><\/li>\n<\/ul>\n<p><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><span style=\"font-size: 20px;color: var(--awb-color5)\" data-fusion-font=\"true\">2021<\/span><\/strong><\/p>\n<ul>\n<li>Mossad, SI, Young, JM, Wong, SM, <strong>Dunkley, BT,<\/strong> Hunt, BAE, Pang, EW &amp; Taylor, MJ. The Very Preterm Brain at Rest: Longitudinal Social-Cognitive Network Connectivity During Childhood,<em> Social Cognitive and Affective Neuroscience, 17(4)<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Stojanovski, S, Scratch, SE, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Schachar, R &amp; Wheeler, A. A Systematic Scoping Review of New Attention Problems Following Traumatic Brain Injury in Children, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Frontiers in Neurology<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Rier, L, Zamyadi, R, Emami, Z, Zhang, J, Seedat, Z, Gascoyne, L, Scadding, J, Woolrich, M, Furlong PL, Allen, C, Evangelou, N, Brookes, MJ &amp;<\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> <u>Dunkley, BT.<\/u> <\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Mild traumatic brain injury impairs the coordination of intrinsic and motor-related neural dynamics,<\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> NeuroImage: Clinical, 32<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Fauchon, C, Kim, JA, El-Sayed, R, Osborne, N, Rogachov, A, Cheng, J, Hemington, KS, Bosma, RL, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Oh, J, Bhatia, A, Inman, RD &amp; Davis, KD. Exploring sex differences in alpha brain activity as a potential neuromarker associated with neuropathic pain, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Pain, 163(7)<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Zhang, J<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Emami, Z, Safar, K, McCunn, P, Richardson, JD, Rhind, S, da Costa, L, Jetly, R &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">. Teasing apart trauma: neural oscillations differentiate individual cases of mild traumatic brain injury from post-traumatic stress disorder even when symptoms overlap,<\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Translational Psychiatry, 11, 345<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Allen, CM, Halsey, L, Topcu, G, Rier, L, Gascoyne, LE, Furlong, PL, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Nair, RD, Brookes, M &amp; Evangelou. N. Magnetoencephalography abnormalities in adult mild traumatic brain injury: a systematic review, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">NeuroImage Clinical, 31<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Baltaretu, BR, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT,<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Stevens, WD &amp; Crawford, JD. Occipital Cortex Is Modulated by Transsaccadic Changes in Spatial Frequency: An fMRI Study, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Scientific Reports<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">McCunn, P<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Richardson, JD, Jetly, R &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">. Diffusion Tensor Imaging Reveals White Matter Differences in Military Personnel Exposed to Trauma with and without Post-traumatic Stress Disorder, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Psychiatry Research, 298, 113797<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Safar, K<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Zhang, J, Emami, Z, Gharehgazlou, A, Ibrahim, GE &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">. Mild traumatic brain injury is associated with dysregulated neural network functioning in children and adolescents, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Brain Communications<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">fcab044<\/em><\/li>\n<li><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Gharehgazlou, A<\/em><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Richardson, JD, Jetly, R &amp; <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">. Cortical gyrification morphology in PTSD: a neurobiological risk factor for severity? <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Neurobiology of Stress, 14, 100299<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Vandewouw, M, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Dunkley, BT<\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">, Lerch, JP, Anagnostou, E &amp; Taylor, MJ. Characterizing Inscapes and resting-state in MEG: Effects in typical and atypical development, <\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">NeuroImage, 225:117524<\/em><\/li>\n<li><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\">Kim, JA, Bosma, RL, Hemington KS, Rogachov, A, Osborne, NR, Cheng, JC, Oh, J, <\/span><strong style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"><u>Dunkley, BT<\/u><\/strong><span style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-style: var(--awb-text-font-style);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> &amp; Davis, KD. Sex-differences in network level brain dynamics associated with pain sensitivity and pain interference,<\/span><em style=\"color: var(--awb-text-color);font-family: var(--awb-text-font-family);font-size: var(--awb-font-size);font-weight: var(--awb-text-font-weight);letter-spacing: var(--awb-letter-spacing);text-align: var(--awb-content-alignment);text-transform: var(--awb-text-transform);background-color: var(--awb-bg-color-hover)\"> Human Brain Mapping, 42(3):598-614<\/em><\/li>\n<\/ul>\n<ul>\n<\/ul>\n<\/div><div class=\"fusion-clearfix\"><\/div><\/div><\/div><\/div><\/div>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":274,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"100-width.php","meta":{"footnotes":""},"class_list":["post-17","page","type-page","status-publish","hentry"],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v27.0 (Yoast SEO v27.0) - https:\/\/yoast.com\/product\/yoast-seo-premium-wordpress\/ -->\n<title>Publications - 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