Neuroscience


BESA applications in neuroscience

Oscillatory brain responses / time-frequency analysis

Brown EC. Rothermel R, Nishida M, Juhasz C, Muzik O, Hoechstetter K, Sood S, Chugani HT, Asano E. In-Vivo Animation of Auditory-Language-Induced Gamma-Oscillations in Children with Intractable Focal Epilepsy. Neuroimage 41(3):1120-31, 2008.

Sehatpour P, Molholm S, Schwartz TH, Mahoney JR, Mehta AD, Javitt DC, Stanton PK, Foxe JJ. A human intracranial study of long-range oscillatory coherence across a frontal-occipital-hippocampal brain network during visual object processing, Proceedings of the National Academy of Sciences 105(11), 4399–404, 2008.

Wilson TW, Hernandez OO, Asherin RM, Teale PD, Reite ML, RojasDC. Cortical Gamma Generators Suggest Abnormal Auditory Circuitry in Early-Onset Psychosis. Cerebral Cortex 18:371-8, 2008.

Fan J, Byrne J, Worden MS, Guise KG, McCandliss BD, Fossella J, Posner MI., The Relation of Brain Oscillations to Attentional Networks. Journal of Neuroscience 27(23):6197– 206, 2007

Fan J, Kolster R, Ghajar J, Suh M, Knight RT, Sarkar R, McCandliss BD. Response Anticipation and Response Conflict: An Event-Related Potential and Functional Magnetic Resonance Imaging Study, Journal of Neuroscience 27(9):2272–82, 2007.

Freunberger R, Klimesch W, Sauseng P, Griesmayr B, Höller Y, Pecherstorfer T, Hanslmayr S. Gamma oscillatory activity in a visual discrimination task. Brain Research Bulletin 71:593–600, 2007.

Praamstra P, Pope P. Slow Brain Potential and Oscillatory EEG Manifestations of Impaired Temporal Preparation in Parkinson’s Disease. J Neurophysiol 98: 2848–57, 2007.

Praamstra P, Kourtis D, Kwok HF, Oostenveld R. Neurophysiology of implicit timing in serial choice reaction-time performance, Journal of Neuroscience26(20):5448–55, 2006.


Auditory and speech evoked responses

Albrecht R, Suchodoletz W, Uwer R. The development of auditory evoked dipole source activity from childhood to adulthood. Clinical Neurophysiology 111:2268-76, 2000.

Carrillo-de-la-Pena MT. One-year test-retest reliability of auditory evoked potentials (AEPs) to tones of increasing intensity. Psychophysiology 38(3):417-24, 2001.

Gutschalk A, Mase R, Roth R, Ille N, Rupp A, Hahnel S, Picton TW, Scherg M. Deconvolution of 40 Hz steady-state fields reveals two overlapping source activities of the human auditory cortex. Clinical Neurophysiology, 110:856-68, 1999.

Gutschalk A, Patterson RD, Rupp A, Uppenkamp S, Scherg M. Sustained magnetic fields reveal separate sites for sound level and temporal regularity in human auditory cortex. Neuroimage, 15(1):207-16, 2002 Jan.

Gutschalk A, Patterson RD, Scherg M, Uppenkamp S, Rupp A. The Effect of Temporal Context on the Sustained Pitch Response in Human Auditory Cortex. Cerebral Cortex 17:552—61, 2007.

Gutschalk A, Michel C, Melcher JR, Rupp A, Scherg M, Oxenham AJ. Neuromagnetic Correlates of Streaming in Human Auditory Cortex. Journal of Neuroscience 25(22):5382–8, 2005.

Maiste AC, Wiens AS, Hunt MJ, Scherg M, Picton TW. Event-related potentials and the categorical perception of speech sounds. Ear & Hearing, 16(1):68-90, 1995 Feb.

Picton TW, Alain C, Woods DL, John MS, Scherg M, Valdes-Sosa P, Bosch-Bayard J, Trujillo NJ. Intracerebral sources of human auditory-evoked potentials. Audiology & Neuro-Otology, 4:64-79, 1999.

Rupp A, Hack S, Gutschalk A, Schneider P, Picton TW, Stippich C, Scherg M. Fast temporal interactions in human auditory cortex. NeuroReport, 11(17):3731-6, 2000.

Scherg M, Von Cramon D. Evoked dipole source potentials of the human auditory cortex. Electroencephalography & Clinical Neurophysiology, 65:344-60, 1986.

Scherg M, Von Cramon D. Two bilateral sources of the late AEP as identified by a spatio-temporal dipole model. Electroencephalography & Clinical Neurophysiology, 62:32-44, 1985.

Schneider P, Scherg M, Dosch HG, Specht HJ, Gutschalk A, Rupp A. Morphology of Heschl’s gyrus reflects enhanced activation in the auditory cortex of musicians. Nature Neuroscience, 5:688-94, 2002.

Schneider P, Sluming V, Roberts N, Scherg M, Goebel R, Specht HJ, Dosch HG, Bleeck S, Stippich C, Rupp A. Structural and Functional Asymmetry of Lateral Heschl’s Gyrus Reflects Pitch Perception Preference. Nature Neuroscience 8(9):1241-7, 2005.

Weisser R, Weisbrod M, Roehrig M, Rupp A, Schroeder J, Scherg M. Is frontal lobe involved in the generation of auditory evoked P50?. NeuroReport, 12(15):3303-7, 2001 Oct 29.

Wienbruch C, Paul I, Weisz N, Elbert T, Roberts LE. Frequency organization of the 40-Hz auditory steady-state response in normal hearing and in tinnitus, NeuroImage 33:180–94, 2006.


Somatosensory, vestibular and pain-related evoked responses

Baudonniere PM, Belkhenchir S, Lepecq JC, Mertz S. Otolith-vestibular-evoked potentials in humans. Intensity, direction of acceleration (Z+, Z-), and BESA modeling of generators. Annals of the New York Academy of Sciences 871:384-6, 1999.

Baumgartner U, Vogel H, Ellrich J, Gawehn J, Stoeter P, Treede RD. Brain electrical source analysis of primary cortical components of the tibial nerve somatosensory evoked potential using regional sources. Electroencephalography & Clinical Neurophysiology 108:588-99, 1998.

Belkhenchir S, George N, Jemel B, et al. Otolithic vestibular evoked potentials in humans and BESA modelisation of generators Int J Psychophysiol 41: 223, 2001.

Bromm B, Chen AC. Brain electrical source analysis of laser evoked potentials in response to painful trigeminal nerve stimulation. Electroencephalography & Clinical Neurophysiology 95:14-26, 1995.

Buchner H, Adams L, Muller A, Ludwig I, Knepper A, Thron A, Niemann K, Scherg M. Somatotopy of human hand somatosensory cortex revealed by dipole source analysis of early somatosensory evoked potentials and 3D-NMR tomography. Electroencephalography & Clinical Neurophysiology, 96:121-34, 1995.

Buchner H, Reinartz U, Waberski TD, Gobbele R, Noppeney U, Scherg M. Sustained attention modulates the immediate effect of de-afferentation on the cortical representation of the digits: source localization of somatosensory evoked potentials in humans. Neuroscience Letters, 260:57-60, 1999.

Curio G, Mackert BM, Burghoff M, Neumann J, Nolte G, Scherg M, Marx P. Somatotopic source arrangement of 600 Hz oscillatory magnetic fields at the human primary somatosensory hand cortex. Neuroscience Letters, 234:131-4, 1997.

Del Gratta C, Della Penna S, Ferretti A, Franciotti R, Pizzella V, Tartaro A, Torquati K, Bonomo L, Romani GL, Rossini PM. Topographic organization of the human primary and secondary somatosensory cortices: comparison of fMRI and MEG findings. Neuroimage 17:1373-83, 2002.

De Waele C, Baudonniere PM, Lepecq JC, Tran Ba Huy P, Vidal PP. Vestibular projections in the human cortex. Experimental Brain Research 141:541-51, 2001.

Gobbele R, Buchner H, Scherg M, Curio G. Stability of high-frequency (600 Hz) components in human somatosensory evoked potentials under variation of stimulus rate -evidence for a thalamic origin. Clinical Neurophysiology, 110:1659-63, 1999.

Hoechstetter K, Rupp A, Meinck HM, Weckesser D, Bornfleth H, Stippich C, Berg P, Scherg M. Magnetic source imaging of tactile input shows task-independent attention effects in SII. NeuroReport, 11:2461-5, 2000.

Hoechstetter K, Rupp A, Stancak A, Meinck HM, Stippich C, Berg P, Scherg M. Interaction of tactile input in the human primary and secondary somatosensory cortex–a magnetoencephalographic study. Neuroimage, 14:759-67, 2001.

Hoshiyama M, Kakigi R, Koyama S, Watanabe S, Shimojo M. Activity in posterior parietal cortex following somatosensory stimulation in man: magnetoencephalographic study using spatio-temporal source analysis. Brain Topography 10:23-30, 1997.

Nihashi T, Kakigi R, Kawakami O, Hoshiyama M, Itomi K, Nakanishi H, Kajita Y, Inao S, Yoshida J. Representation of the ear in human primary somatosensory cortex. Neuroimage 13:295-304, 2001.

Peyron R, Frot M, Schneider F, Garcia-Larrea L, Mertens P, Barral FG, Sindou M, Laurent B, Mauguiere F. Role of operculoinsular cortices in human pain processing: converging evidence from PET, fMRI, dipole modeling, and intracerebral recordings of evoked potentials. Neuroimage 17:1336-46, 2002.

Sami SAK, Rössel P, Dimcevski G, Dremstrup Nielsen K, Funch-Jensen P, Valeriani M, Arendt-Hielsen L, Drewe AM. Cortical Changes to Experimental Sensitization of the Human Esophagus. Neuroscience 140(1):269-79, 2006.

Srisa-an P, Lei L, Tarkka IM. Middle latency somatosensory evoked potentials: noninvasive source analysis. Journal of Clinical Neurophysiology 13:156-63, 1996.

Stancak A, Hoechstetter K, Tintera J, Vrana J, Rachmanova R, Kralik J, Scherg M. Source activity in the human secondary somatosensory cortex depends on the size of corpus callosum. Brain Research, 936:47-57, 2002.

Stancak A, Polacek H, Vrana J, Rachmanova R, Hoechstetter K, Tintera J, Scherg M. EEG source analysis and fMRI reveal two electrical sources in the fronto-parietal operculum during subepidermal finger stimulation. NeuroImage 25:8 – 20, 2005.

Tarkka IM, Stokic DS, Basile LF, Papanicolaou AC. Electric source localization of the auditory P300 agrees with magnetic source localization. Electroencephalography & Clinical Neurophysiology 96:538-45, 1995.

Tarkka IM, Stokic DS. Source localization of P300 from oddball, single stimulus, and omitted-stimulus paradigms. Brain Topography 11:141-51, 1998.

Tarkka IM, Treede RD. Equivalent electrical source analysis of pain-related somatosensory evoked potentials elicited by a CO2 laser. Journal of Clinical Neurophysiology 10:513-9, 1993.

Valeriani M, Restuccia D, Di Lazzaro V, Barba C, Le Pera D, Tonali P. Dipolar generators of the early scalp somatosensory evoked potentials to tibial nerve stimulation in human subjects. Neuroscience Letters 238:49-52, 1997.

Valeriani M, Tonali P, Le Pera D, Restuccia D, de Armas L, del Vesco C, Miliucci R, Fiaschi A, Vigevano F, Arendt-Nielsen L, Tinazzi M. Modulation of Laser-Evoked Potentials by Experimental Cutaneous Tonic Pain. Neuroscience 150(4):1301-10, 2006.

Valeriani M, Restuccia D, Di Lazzaro V, Le Pera D, Barba C, Tonali P, Mauguiere F. Dipolar sources of the early scalp somatosensory evoked potentials to upper limb stimulation. Effect of increasing stimulus rates. Experimental Brain Research 120:306-15, 1998.

Watanabe S, Kakigi R, Koyama S, Hoshiyama M, Kaneoke Y. Pain processing traced by magnetoencephalography in the human brain. Brain Topography 10:255-64, 1998.


Visual evoked responses

Caldara R, Thut G, Servoir P, Michel CM, Bovet P, Renault B. Face versus non-face object perception and the ‘other-race’ effect: a spatio-temporal event-related potential study. Clin Neurophysiol 114:515-28, 2003.

Di Russo F, Martinez A, Sereno MI, Pitzalis S, Hillyard SA. Cortical sources of the early components of the visual evoked potential. Human Brain Mapping 15:95-111, 2002.

Di Russo F, Pitzalis S, Aprile T, Spitoni G, Patria F, Stella A, Spinelli D, Hillyard SA. Spatiotemporal Analysis of the Cortical Sources of the Steady-State Visual Evoked Potential. Human Brain Mapping 28:323–334, 2007.

Heinze HJ, Mangun GR, Burchert W, Hinrichs H, Scholz M, Munte TF, Gos A, Scherg M, Johannes S, Hundeshagen H. Combined spatial and temporal imaging of brain activity during visual selective attention in humans. Nature, 372:543-6, 1994.

Martinez A, Anllo-Vento L, Sereno MI, Frank LR, Buxton RB, Dubowitz DJ, Wong EC, Hinrichs H, Heinze HJ, Hillyard SA. Involvement of striate and extrastriate visual cortical areas in spatial attention. Nature Neuroscience 2:364-9, 1999.

Martinez A, Di Russo F, Anllo-Vento L, Hillyard SA. Electrophysiological analysis of cortical mechanisms of selective attention to high and low spatial frequencies. Clinical Neurophysiology 112:1980-98, 2001.

Martinez A, DiRusso F, Anllo-Vento L, Sereno MI, Buxton RB, Hillyard SA. Putting spatial attention on the map: timing and localization of stimulus selection processes in striate and extrastriate visual areas. Vision Research 41(10-11):1437-57, 2001.

Plendl H, Paulus W, Roberts IG, Botzel K, Towell A, Pitman JR, Scherg M, Halliday AM. The time course and location of cerebral evoked activity associated with the processing of colour stimuli in man. Neuroscience Letters, 150:9-12, 1993.

Probst T, Plendl H, Paulus W, Wist ER, Scherg M. Identification of the visual motion area (area V5) in the human brain by dipole source analysis. Experimental Brain Research, 93:345-51, 1993.

Sehatpour P, Molholm S, Javitt DC, Foxe JJ. Spatiotemporal dynamics of human object recognition processing: An integrated high-density electrical mapping and functional imaging study of “closure” processes. NeuroImage 29:605-18, 2006.

Watanabe S, Kakigi R, Koyama S, Kirino E. Human face perception traced by magneto- and electro-encephalography. Cognitive Brain Research 8:125-42, 1999.


Movement-related evoked responses

Botzel K, Plendl H, Paulus W, Scherg M. Bereitschaftspotential: is there a contribution of the supplementary motor area?. Electroencephalography & Clinical Neurophysiology, 89(3):187-96, 1993 Jun.

Gerloff C, Grodd W, Altenmuller E, et al. Coregistration of EEG and fMRI in a simple motor task. Hum Brain Mapping 4: 199-209 ,1996.

Gunji A, Kakigi R, Hoshiyama M. Spatiotemporal source analysis of vocalization-associated magnetic fields. Cognitive Brain Research 9(2):157-63, 2000 Mar.

Heuser-Link M, Dirlich G, Berg P, Vogl L, Scherg M. Eyeblinks evoke potentials in the occipital brain region. Neuroscience Letters, 143(1-2):31-4, 1992 Aug 31.

Hoshiyama M, Kakigi R, Berg P, Koyama S, Kitamura Y, Shimojo M, Watanabe S, Nakamura A. Identification of motor and sensory brain activities during unilateral finger movement: spatiotemporal source analysis of movement-associated magnetic fields. Experimental Brain Research 115(1):6-14, 1997 Jun.

Milliken GW, Stokic DS, Tarkka IM. Sources of movement-related cortical potentials derived from foot, finger, and mouth movements. Journal of Clinical Neurophysiology 16:361-72, 1999.


Cognitive evoked responses

Berg P, Kakigi R, Scherg M, Dobel C, Zobel E. Source modelling of the EEG and MEG oddball response in a subject with a large P300. Electroencephalography & Clinical Neurophysiology – Supplement, 49:189-93, 1999.

Bledowski C, Cohen Kadosh K, Wibral M, Rahm B, Bittner RA, Hoechstetter K, Scherg M, Maurer K, Goebel R, Linden DEJ. Mental Chronometry of Working Memory Retrieval: A Combined Functional Magnetic Resonance Imaging and Event-Related Potentials Approach. Journal of Neuroscience 26:821-9, 2006.

Bledowski C, Prvulovic D, Hoechstetter K, Scherg M, Wibral M, Goebel R, Linden DEJ.Localizing P300 Generators in Visual Target and Distractor Processing: A Combined Event-Related Potential and Functional Magnetic Resonance Imaging Study. Journal of Neuroscience 24:9353-60, 2004.

Hegerl U, Frodl-Bauch T. Dipole source analysis of P300 component of the auditory evoked potential: a methodological advance? Psychiatry Research 74(2):109-18, 1997.

Holroyd CB, Dien J, Coles MG. Error-related scalp potentials elicited by hand and foot movements: evidence for an output-independent error-processing system in humans. Neuroscience Letters 242(2):65-8, 1998 Feb 13.

Kiefer M, Marzinzik F, Weisbrod M, Scherg M, Spitzer M. The time course of brain activations during response inhibition: evidence from event-related potentials in a go/no go task. NeuroReport, 9(4):765-70, 1998 Mar 9.

Mulder G, Wijers AA, Lange JJ, Buijink BM, Mulder LJ, Willemsen AT, Paans AM. The role of neuroimaging in the discovery of processing stages. A review. Acta Psychologica 90:63-79, 1995.

Reinvang I, Magnussen S, Greenlee MW, Larsson PG. Electrophysiological localization of brain regions involved in perceptual memory. Experimental Brain Research 123(4):481-4, 1998 Dec.

Thierry G, Doyon B, Demonet JF. ERP mapping in phonological and lexical semantic monitoring tasks: A study complementing previous PET results. Neuroimage 8(4):391-408, 1998 Nov.

Wang L, Kakigi R, Hoshiyama M. Neural activities during Wisconsin Card Sorting Test – MEG observation. Cognitive Brain Research 12:19-31, 2001.