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Gupta D, Brangaccio J, Hill NJ. Methodological optimization for eliciting robust median nerve somatosensory evoked potentials for realtime single trial applications. J Neural Eng. 2026;23(1). \par \par Tan G, Huguenard AL, Donovan KM, Demarest P, Liu X, Li Z, et al.. The effect of transcutaneous auricular vagus nerve stimulation on cardiovascular function in subarachnoid hemorrhage patients: A randomized trial. Elife. 2025;13. \par \par Rustamov N, Souders L, Sheehan L, Carter A, Leuthardt EC. IpsiHand Brain-Computer Interface Therapy Induces Broad Upper Extremity Motor Rehabilitation in Chronic Stroke. Neurorehabil Neural Repair. 2025;39(1):74-86. \par \par Trevino G, Lee JJ, Shimony JS, Luckett PH, Leuthardt EC. Complexity organization of resting-state functional-MRI networks. Hum Brain Mapp. 2024;45(12):e26809. \par \par Tan G, Adams J, Donovan K, Demarest P, Willie JT, Brunner P, et al.. Does vibrotactile stimulation of the auricular vagus nerve enhance working memory? A behavioral and physiological investigation. Brain Stimul. 2024;17(2):460-468. \par \par Xie T, Adamek M, Cho H, Adamo MA, Ritaccio AL, Willie JT, et al.. Graded decisions in the human brain. Nat Commun. 2024;15(1):4308. \par \par Putzolu M, Samogin J, Bonassi G, Cosentino C, Mezzarobba S, Botta A, et al.. Motor imagery ability scores are related to cortical activation during gait imagery. Sci Rep. 2024;14(1):5207. \par \par Huguenard A, Tan G, Johnson G, Adamek M, Coxon A, Kummer T, et al.. Non-invasive Auricular Vagus nerve stimulation for Subarachnoid Hemorrhage (NAVSaH): Protocol for a prospective, triple-blinded, randomized controlled trial. PLoS One. 2024;19(8):e0301154. \par \par Luckett PH, Olufawo MO, Park KYun, Lamichhane B, Dierker D, Verastegui GTrevino, et al.. Predicting post-surgical functional status in high-grade glioma with resting state fMRI and machine learning. J Neurooncol. 2024;169(1):175-185. \par \par McCane LM, Wolpaw JR, Thompson AK. Effects of active and sham tDCS on the soleus H-reflex during standing. Exp Brain Res. 2023;241(6):1611-1622. \par \par Lyle MA, McLeod MM, Pouliot BA, Thompson AK. Soleus H-reflex modulation during a double-legged drop landing task. Exp Brain Res. 2022;240(4):1093-1103. \par \par Moheimanian L, Paraskevopoulou SE, Adamek M, Schalk G, Brunner P. Modulation in cortical excitability disrupts information transfer in perceptual-level stimulus processing. Neuroimage. 2021;243:118498. \par \par Paraskevopoulou SE, Coon WG, Brunner P, Miller KJ, Schalk G. Within-subject reaction time variability: Role of cortical networks and underlying neurophysiological mechanisms. Neuroimage. 2021;237:118127. \par \par McCane LM, Sellers EW, McFarland DJ, Mak JN, C Carmack S, Zeitlin D, et al.. Brain-computer interface (BCI) evaluation in people with amyotrophic lateral sclerosis. Amyotroph Lateral Scler Frontotemporal Degener [Internet]. 2014;15(3-4):207-15. http://www.ncbi.nlm.nih.gov/pubmed/24555843\par \par Jeremy Jeremy Hill, Ricci E, Haider S, McCane LM, Heckman SM, Wolpaw J, Vaughan TM. A practical, intuitive brain-computer interface for communicating 'yes' or 'no' by listening. J Neural Eng [Internet]. 2014;11(3):035003. http://www.ncbi.nlm.nih.gov/pubmed/24838278\par \par Grosse-Wentrup M, Sch\'f6lkopf B, Jeremy Jeremy Hill. Causal influence of gamma oscillations on the sensorimotor rhythm. Neuroimage [Internet]. 2011;56(2):837-42. http://www.ncbi.nlm.nih.gov/pubmed/20451626\par \par Pei X-M, Barbour DL, Leuthardt EC, Schalk G. Decoding vowels and consonants in spoken and imagined words using electrocorticographic signals in humans. J Neural Eng [Internet]. 2011;8(4):046028. http://www.ncbi.nlm.nih.gov/pubmed/21750369\par \par Lawfield A, McFarland DJ, Cacace AT. Dichotic and dichoptic digit perception in normal adults. J Am Acad Audiol [Internet]. 2011;22(6):332-41. http://www.ncbi.nlm.nih.gov/pubmed/21864471\par \par Gaona CM, Sharma M, Freudenberg ZV, Breshears J, Bundy DT, Roland J, et al.. Nonuniform high-gamma (60-500 Hz) power changes dissociate cognitive task and anatomy in human cortex. J Neurosci [Internet]. 2011;31(6):2091-100. http://www.ncbi.nlm.nih.gov/pubmed/21307246\par \par Pei X-M, Leuthardt EC, Gaona CM, Brunner P, Wolpaw J, Schalk G. Spatiotemporal dynamics of electrocorticographic high gamma activity during overt and covert word repetition. Neuroimage [Internet]. 2011;54(4):2960-72. http://www.ncbi.nlm.nih.gov/pubmed/21029784\par \par Murguialday RA, Jeremy Jeremy Hill, Bensch M, Martens SMM, Halder S, Nijboer F, Birbaumer N, et al.. Transition from the locked in to the completely locked-in state: a physiological analysis. Clin Neurophysiol [Internet]. 2011;122(5):925-33. http://www.ncbi.nlm.nih.gov/pubmed/20888292\par \par Leuthardt EC, Gaona CM, Sharma M, Szrama N, Roland J, Freudenberg ZV, et al.. Using the electrocorticographic speech network to control a brain-computer interface in humans. J Neural Eng [Internet]. 2011;8(3):036004. http://www.ncbi.nlm.nih.gov/pubmed/21471638\par \par Miller KJ, Schalk G, Fetz EE, den Nijs M, Ojemann JG, Rao RPN. Cortical activity during motor execution, motor imagery, and imagery-based online feedback. Proc Natl Acad Sci U S A [Internet]. 2010;107(9):4430-5. http://www.ncbi.nlm.nih.gov/pubmed/20160084\par \par Brunner P, Joshi S, Briskin S, Wolpaw J, Bischof H, Schalk G. Does the 'P300' speller depend on eye gaze? J Neural Eng [Internet]. 2010;7(5):056013. http://www.ncbi.nlm.nih.gov/pubmed/20858924\par \par Wu M, Wisneski K, Schalk G, Sharma M, Roland J, Breshears J, et al.. Electrocorticographic frequency alteration mapping for extraoperative localization of speech cortex. Neurosurgery [Internet]. 2010;66(2):E407-9. http://www.ncbi.nlm.nih.gov/pubmed/20087111\par \par Schachter SC, Guttag J, Schiff SJ, Schomer DL. Advances in the application of technology to epilepsy: the CIMIT/NIO Epilepsy Innovation Summit. Epilepsy Behav [Internet]. 2009;16(1):3-46. http://www.ncbi.nlm.nih.gov/pubmed/19780225\par \par Kub\'e1nek J, Miller JW, Ojemann JG, Wolpaw J, Schalk G. Decoding flexion of individual fingers using electrocorticographic signals in humans. J Neural Eng [Internet]. 2009;6(6):066001. http://www.ncbi.nlm.nih.gov/pubmed/19794237\par \par Zhang A-hua, Zheng SD, Pei X-M, Ouyang Y. Power spectrum analysis on the multiparameter electroencephalogram features of physiological mental fatigue. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi [Internet]. 2009;26(1):162-6, 172. http://www.ncbi.nlm.nih.gov/pubmed/19334577\par \par Brunner P, Ritaccio AL, Lynch TM, Emrich JF, Wilson AJ, Williams JC, et al.. A practical procedure for real-time functional mapping of eloquent cortex using electrocorticographic signals in humans. Epilepsy Behav [Internet]. 2009;15(3):278-86. http://www.ncbi.nlm.nih.gov/pubmed/19366638\par \par Schalk G, Brunner P, Gerhardt LA, Bischof H, Wolpaw J. Brain-computer interfaces (BCIs): Detection Instead of Classification. J Neurosci Methods [Internet]. 2008;167(1):51-62. http://www.ncbi.nlm.nih.gov/pubmed/17920134\par \par Cincotti F, Mattia D, Aloise F, Bufalari S, Schalk G, Oriolo G, et al.. Non-invasive brain-computer interface system: towards its application as assistive technology. Brain Res Bull [Internet]. 2008;75(6):796-803. http://www.ncbi.nlm.nih.gov/pubmed/18394526\par \par Schalk G, Leuthardt EC, Brunner P, Ojemann JG, Gerhardt LA, Wolpaw J. Real-time detection of event-related brain activity. Neuroimage [Internet]. 2008;43(2):245-9. http://www.ncbi.nlm.nih.gov/pubmed/18718544\par \par Miller JW, Blakely T, Schalk G, den Nijs M, Rao RPN, Ojemann JG. Three cases of feature correlation in an electrocorticographic BCI. Conf Proc IEEE Eng Med Biol Soc. 2008. pp. 5318-21. \par \par Miller KJ, Blakely T, Schalk G, den Nijs M, Rao RPN, Ojemann JG. Three cases of feature correlation in an electrocorticographic BCI. In Engineering in Medicine and Biology Society, 2008. [Internet]. Vancouver, BC: IEEE; 2008. http://www.ncbi.nlm.nih.gov/pubmed/19163918\par \par Allison BZ, McFarland DJ, Schalk G, Zheng SD, Moore-Jackson M, Wolpaw J. Towards an independent brain-computer interface using steady state visual evoked potentials. Clin Neurophysiol [Internet]. 2008;119(2):399-408. http://www.ncbi.nlm.nih.gov/pubmed/18077208\par \par Schalk G, Miller KJ, Anderson NR, Wilson AJ, Smyth M, Ojemann JG, et al.. Two-dimensional movement control using electrocorticographic signals in humans. J Neural Eng [Internet]. 2008;5(1):75-84. http://www.ncbi.nlm.nih.gov/pubmed/18310813\par \par Wisneski K, Anderson NR, Schalk G, Smyth M, Moran D, Leuthardt EC. Unique cortical physiology associated with ipsilateral hand movements and neuroprosthetic implications. Stroke [Internet]. 2008;39(12):3351-9. http://www.ncbi.nlm.nih.gov/pubmed/18927456\par \par Hinterberger T, Widman G, Lal TN, Jeremy Jeremy Hill, Tangermann M, Rosenstiel W, Elger C, et al.. Voluntary brain regulation and communication with electrocorticogram signals. Epilepsy Behav [Internet]. 2008;13(2):300-6. http://www.ncbi.nlm.nih.gov/pubmed/18495541\par \par Schalk G, Kub\'e1nek J, Miller JW, Anderson NR, Leuthardt EC, Ojemann JG, et al.. Decoding two-dimensional movement trajectories using electrocorticographic signals in humans. J Neural Eng [Internet]. 2007;4(3):264-75. http://www.ncbi.nlm.nih.gov/pubmed/17873429\par \par Leuthardt EC, Miller JW, Anderson NR, Schalk G, Dowling J, Miller JW, et al.. Electrocorticographic Frequency Alteration Mapping: A Clinical Technique for Mapping the Motor Cortex. Neurosurgery [Internet]. 2007;60(4 Suppl 2):260-70; discussion 270-1. http://www.ncbi.nlm.nih.gov/pubmed/17415162\par \par Mellinger J, Schalk G, Braun C, Preissl H, Rosenstiel W, Birbaumer N, et al.. An MEG-based brain-computer interface (BCI). Neuroimage [Internet]. 2007;36(3):581-93. http://www.ncbi.nlm.nih.gov/pubmed/17475511\par \par Miller JW, Leuthardt EC, Schalk G, Rao RPN, Anderson NR, Moran D, et al.. Spectral Changes in Cortical Surface Potentials During Motor Movement. J Neurosci [Internet]. 2007;27(9):2424-32. http://www.ncbi.nlm.nih.gov/pubmed/17329441\par \par Wilson AJ, Felton EA, Garell CP, Schalk G, Williams JC. ECoG factors underlying multimodal control of a brain-computer interface. 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