Top

Published in:

Open Access 01-11-2009 | Original paper

Brain Cortical Mapping by Simultaneous Recording of Functional Near Infrared Spectroscopy and Electroencephalograms from the Whole Brain During Right Median Nerve Stimulation

Authors: Mikinobu Takeuchi, Etsuro Hori, Kouichi Takamoto, Anh Hai Tran, Kohno Satoru, Akihiro Ishikawa, Taketoshi Ono, Shunro Endo, Hisao Nishijo

Published in: Brain Topography | Issue 3/2009

Abstract

To investigate relationships between hemodynamic responses and neural activities in the somatosensory cortices, hemodynamic responses by near infrared spectroscopy (NIRS) and electroencephalograms (EEGs) were recorded simultaneously while subjects received electrical stimulation in the right median nerve. The statistical significance of the hemodynamic responses was evaluated by a general linear model (GLM) with the boxcar design matrix convoluted with Gaussian function. The resulting NIRS and EEGs data were stereotaxically superimposed on the reconstructed brain of each subject. The NIRS data indicated that changes in oxy-hemoglobin concentration increased at the contralateral primary somatosensory (SI) area; responses then spread to the more posterior and ipsilateral somatosensory areas. The EEG data indicated that positive somatosensory evoked potentials peaking at 22 ms latency (P22) were recorded from the contralateral SI area. Comparison of these two sets of data indicated that the distance between the dipoles of P22 and NIRS channels with maximum hemodynamic responses was less than 10 mm, and that the two topographical maps of hemodynamic responses and current source density of P22 were significantly correlated. Furthermore, when onset of the boxcar function was delayed 5–15 s (onset delay), hemodynamic responses in the bilateral parietal association cortices posterior to the SI were more strongly correlated to electrical stimulation. This suggests that GLM analysis with onset delay could reveal the temporal ordering of neural activation in the hierarchical somatosensory pathway, consistent with the neurophysiological data. The present results suggest that simultaneous NIRS and EEG recording is useful for correlating hemodynamic responses to neural activity.

Allison T, McCarthy G, Wood CC, Darcey TM, Spencer DD, Williamson PD (1989a) Human cortical potentials evoked by stimulation of the median nerve. 1. Cytoarchitectonic areas generation short-lasting activity. J Neurophysiol 62:694–710PubMed

Allison T, McCarthy G, Wood CC, Williamson D, Spencer DD (1989b) Human cortical potentials evoked by stimulation of the median nerve. I. Cytoarchitectonic areas generating long-latency activity. J Neurophysiol 62:711–722PubMed

Arezzo J, Legatt AD, Vaughan HG Jr (1979) Topography and intracranial sources of somatosensory evoked potentials in the monkey. I. Early components. Electroencephalogr Clin Neurophysiol 46:155–172PubMedCrossRef

Arezzo JC, Vaughan HG Jr, Legatt AD (1981) Topography and intracranial sources of somatosensory evoked potentials in the monkey. II. Cortical components. Electroencephalogr Clin Neurophysiol 51:1–18PubMedCrossRef

Arthurs OJ, Williams EJ, Carpenter TA, Pickard JD, Boniface SJ (2000) Linear coupling between functional magnetic resonance imaging and evoked potential amplitude in human somatosensory cortex. Neuroscience 101:803–806PubMedCrossRef

Backes WH, Mess WH, van Kramen-Mastenbroek V, Reulen JPH (2000) Somatosensory cortex responses to median nerve stimulation: fMRI effects of current amplitude and selective attention. Clin Neurophysiol 111:1738–1744PubMedCrossRef

Bagshaw AP, Agha Khani Y, Bénar CG, Kobayashi E, Hawco C, Dubeau F, Pike GB, Gotman J (2004) EEG-fMRI of focal epileptic spikes: analysis with multiple haemodynamic functions and comparison with gadolinium-enhanced MR angiograms. Hum Brain Mapp 22:179–192PubMedCrossRef

Banados M, Teitelboim C, Zanelli J (1994) Black hole entropy and the dimensional continuation of the Gauss-Bonnet theorem. Phys Rev Lett 14:957–960CrossRef

Buckner RL, Bandettini PA, O’Craven KM, Savoy RL, Petersen SE, Raichle ME, Rosen BR (1996) Detection of cortical activation during averaged single trials of a cognitive task using functional magnetic resonance imaging. Proc Natl Acad Sci USA 93:14878–14883PubMedCrossRef

Buckner RL, Koutstaal W, Schacter DL, Dale AM, Rotte M, Rosen BR (1998) Functional-anatomic study of episodic retrieval. II. Selective averaging of event-related fMRI trials to test the retrieval success hypothesis. NeuroImage 7:163–175PubMedCrossRef

Chance B, Zhuang Z, UnAh C, Alter C, Lipton L (1993) Cognition-activated low-frequency modulation to light absorption in human brain. Proc Natl Acad Sci USA 90:3770–3774PubMedCrossRef

Chen Y, Tailor DR, Intes X, Chance B (2003) Correlation between near-infrared spectroscopy and magnetic resonance imaging of rat brain oxygenation modulation. Phys Med Biol 48:417–427PubMedCrossRef

Cummings FW (2001) The interaction of surface geometry with morphogens. J Theor Biol 212:303–313PubMedCrossRef

Devor A, Dunn AK, Andersann ML, Ulbert I, Boas DA, Dale AM (2003) Coupling of total hemoglobin concentration, oxygenation, and neural activity in rat somatosensory cortex. Neuron 39:353–359PubMedCrossRef

Duncan A, Meek JH, Clemence M, Elwell CE, Fallon P, Tyszczuk L, Cope M, Delpy DT (1996) Measurement of cranial optical path length as a function of age using phase resolved near infrared spectroscopy. Periatr Res 39:889–894CrossRef

Endo S, Hayashi N, Takaku A, Ono T (1997) Preoperative simulation and intraoperative navigation with three-dimensional functional images. In: Szabo Z, Lewis JE, Fantini GA, Savalgi RS (eds) Surgical Technology International VI (STI VI). Universal Medical Press, San Francisco, pp 320–326

Fox PT, Raichle ME (1986) Focal physiological uncoupling of cerebral blood flow and oxidative metabolism during somatosensory simulation in human subjects. Proc Natl Acad Sci USA 83:1140–1144PubMedCrossRef

Fox PT, Raichle ME, Mintun MA, Dence C (1988) Nonoxidative glucose consumption during focal physiologic neural activity. Science 241:462–464PubMedCrossRef

Fukui Y, Ajichi Y, Okada E (2003) Monte Carlo prediction of near-infrared light propagation in realistic adult and neonatal head models. Appl Opt 42:2881–2887PubMedCrossRef

Gerrits RJ, Stein EA, Greene AS (1998) Blood flow increases linearly in rat somatosensory cortex with increased whisker movement frequency. Brain Res 783:151–157PubMedCrossRef

Giard MH, Perrin F, Pernier J, Bouchet P (1990) Brain generators implicated in the processing of auditory stimulus deviance: a topographic event-related potential study. Psychophysiology 27:627–640PubMedCrossRef

Gotman J, Grova C, Baqshaw A, Kobayashi E, Aqhakhani Y, Dubeau F (2005) Generalized epileptic discharges show thalamocortical activation and suspension of the default state of the brain. Proc Natl Acad Sci USA 102:15236–15240PubMedCrossRef

Gratton G, Coles MG, Donchin E (1983) A new method for off-line removal of ocular artifact. Electroencephalogr Clin Neurophysiol 55:468–484PubMedCrossRef

Hayashi N, Endo S, Kurimoto M, Nishijo H, Ono T, Takaku A (1995a) Functional image-guided neurosurgical simulation system using computerized three-dimensional graphics and dipole tracing. Neurosurgery 37:695–703CrossRef

Hayashi N, Nishijo H, Ono T, Endo S, Tabuchi E (1995b) Generators of somatosensory evoked potentials investigated by dipole tracing in the monkey. Neuroscience 68:323–338PubMedCrossRef

He B, Musha T, Okamoto Y, Homma S (1987) Electric dipole tracing in the human brain by means of the boundary element method and its accuracy. IEEE Trans Biomed Eng 34:406–414PubMedCrossRef

Hess A, Stiller D, Kaulisch T, Heil P, Scheich H (2000) New insights into the hemodynamic blood oxygenation level-dependent response through combination of functional magnetic resonance imaging and optical recording in gerbil barrel cortex. J Neurosci 20:3328–3338PubMed

Hlushchuk Y, Hari R (2006) Transient suppression of ipsilateral primary somatosensory cortex during tactile finger stimulation. J Neurosci 26:5819–5824PubMedCrossRef

Hock C, Villringer K, Muller-Spahn F, Wenzel R, Heekeren H, Schuh-Hofer S, Hofmann M, Minoshima S, Schwaiger M, Dirnagl U, Villringer A (1997) Decrease in parietal cerebral hemoglobin oxygenation during performance of a verbal fluency task in patients with Alzheimer’s disease monitored by means of near-infrared spectroscopy (NIRS)-correlation with simultaneous rCBF-PET measurements. Brain Res 755:293–303PubMedCrossRef

Homma S, Musha T, Nakajima Y, Okamoto Y, Blom S, Flink R, Hagbarth KE, Mostrom U (1994) Localization of electric current sources in the human brain estimated by the dipole tracing method of the scalp-skull-brain (SSB) head model. Electroencephalogr Clin Neurophysiol 91:374–382PubMedCrossRef

Hoshi S (2003) Functional near-infrared optical imaging: utility and limitations in human brain mapping. Psychophysiology 40:511–520PubMedCrossRef

Hoshi Y, Tamura M (1993) Detection of dynamic changes in cerebral oxygenation coupled to neuronal function during mental work in human. Neurosci Lett 150:5–8PubMedCrossRef

Hoshi Y, Oda I, Wada Y, Ito Y, Yamashita Y, Oda M, Ohta K, Yamada Y, Tamura M (2000) Visuospatial imagery is a fruitful strategy for the digit span backward task: a study with near-infrared optical tomography. Cogn Brain Res 9:339–342CrossRef

Hoshi Y, Kobayashi N, Tamura M (2001) Interpretation of near-infrared spectroscopy signal: a study with a newly developed perfused rat brain model. J Appl Physiol 90:1657–1662PubMed

Huettel S (2004) Non-linearities in the blood-oxygenation-level dependent (BOLD) response measured by functional magnetic resonance imaging (fMRI). Conf Proc IEEE Eng Med Biol Soc 6:4413–4416PubMed

Huppert TJ, Hoge RD, Diamond SG, Franceschini MA, Boas DA (2006) A temporal comparison of BOLD, ASL and NIRS hemodynamic responses to motor stimuli in adult humans. NeuroImage 29:368–382PubMedCrossRef

Ibanez V, Deiber MP, Sadato N, Toro C, Grisson J, Wood RP, Mazziotta JC, Hallett M (1995) Effects of stimulus rate on regional cerebral blood flow after median nerve stimulation. Brain 118:1339–1351PubMedCrossRef

Ikeda H, Nishijo H, Miyamoto K, Tamura R, Endo S, Ono T (1998) Generators of visual evoked potentials investigated by dipole tracing in the human occipital cortex. Neuroscience 84:723–739PubMedCrossRef

Jobsis FF (1977) Noninvasive infrared monitoring of cerebral and myocardial oxygen sufficiency and circulatory parameters. Science 198:1264–1267PubMedCrossRef

Kampe KK, Jones RA, Auer DP (2000) Frequency dependence of the functional MRI response after electric median nerve stimulation. Hum Brain Mapp 9:106–114PubMedCrossRef

Kanno A, Nakasato N, Hatanaka K, Yoshimoto T (2003) Ipsilateral area 3b responses to median nerve somatosensory stimulation. NeuroImage 18:169–177PubMedCrossRef

Kato T, Kamei A, Takashima S, Ozaki T (1993) Human visual cortical function during photic stimulation monitoring by means of near-infrared spectroscopy. J Cereb Blood Flow Metab 13:516–520PubMed

Katsura T, Tanaka N, Obata A, Sato H, Maki A (2006) Quantitative evaluation of interrelations between spontaneous low frequency oscillations in cerebral hemodynamics and systemic cardiovascular dynamics. NeuroImage 31:1592–1600CrossRef

Kleinschmidt A, Obrig H, Requardt M, Merboldt KD, Dirnagl U, Villringer A, Frahm J (1996) Simultaneous recording of cerebral blood oxygenation changes during human brain activation by magnetic resonance imaging and near-infrared spectroscopy. J Cereb Blood Flow Metab 16:817–826PubMedCrossRef

Koch SP, Steinbrink J, Villringer A, Obrig H (2006) Synchronization between background activity and visually evoked potential is not mirrored by focal hyperoxygenation: Implications for the interpretation of vascular brain imaging. J Neurosci 26:4940–4948PubMedCrossRef

Kojima T, Tsunashima H, Shiozawa T, Takada H, Sakai T (2005) Measurement of train driver’s brain activity by functional near-infrared spectroscopy (fNIRS). Opt Quant Electron 37:1319–1338CrossRef

Kruggel F, von Cramon DY (1999) Temporal properties of the hemodynamic response in functional MRI. Hum Brain Mapp 8:259–271PubMedCrossRef

Liu Z, He B (2008) fMRI-EEG integrated cortical source imaging by use of time-variant spatial constraints. NeuroImage 39:1198–1214PubMedCrossRef

Longothetis NK, Pauls J, Augath M, Trinath T, Oeltermann A (2001) Neurophysiological investigation of the basis of the fMRI signal. Nature 412:150–157CrossRef

Lorensen WE, Cline HE (1987) Marching cubes: a high resolution 3D surface construction algorithm. Proc. ACM SIGGRAPH’87 21:163–170

McCormick PW, Stewart M, Lewis G, Dujovny M, Ausman JI (1992) Intracerebral penetration of infrared light. Technical note. J Neurosurg 76:315–318PubMedCrossRef

Mehagnoul-Schipper DJ, van der Kallen BF, Colier WN, van der Sluijs MC, van Erning LJ, Thijssen HO, Oeseburg B, Hoefnagels W, Jansen RW (2002) Simultaneous measurements of cerebral oxygenation changes during brain activation by near-infrared spectroscopy and functional magnetic resonance imaging in healthy young and elderly subjects. Human Brain Mapp 16:14–23CrossRef

Metting van Rijin AC, Peper A, Grimbergen CA (1990) High-quality recording of bioelectric events. Part 1. Interference reduction, theory and practice. Med Biol Eng Comput 25:389–397CrossRef

Minati L, Rosazza C, Zucca I, D’Incerti L, Scaioli V, Bruzzone MG (2008) Spatial correspondence between functional MRI (fMRI) activations and cortical current density maps of event-related potentials (ERP): a study with four tasks. Brain Topogr 21:112–127PubMedCrossRef

Musha T, Okamoto Y (1999) Forward and inverse problems of EEG dipole localization. Crit Rev Biomed Eng 27:189–239PubMed

Nishijo H, Hayahi N, Fukuda M, Endo S, Musha T, Ono T (1994) Localization of dipole by boundary element method in three dimensional reconstructed monkey brain. Brain Res Bull 33:225–230PubMedCrossRef

Noachtar S, Luder HO, Kinner DS, Kem G (1997) Ipsilateral median somatosensory evoked potentials recorded from human somatosensory cortex. Electroencephalogr Clin Neuroshysiol 104:189–198CrossRef

Ogawa S, Menon RS, Tank DW, Kin SG, Merkle H, Ellermann JM, Ugurbil K (1993) Functional brain mapping by blood oxygenation level-dependent contrast magnetic resonance imaging. A comparison of signal characteristics with a biophysical model. Biophys J 64:803–812PubMedCrossRef

Okamoto M, Dan H, Sakamoto K, Takeo K, Shimizu K, Kohno S, Oda I, Isobe S, Suzuki T, Kohyama K, Dan I (2004) Three-dimensional probabilistic anatomical cranio-cerebral correlation via the international 10–20 system oriented for transcranial functional brain mapping. NeuroImage 21:99–111PubMedCrossRef

Plichta MM, Herrmann MJ, Baehne CG, Ehlis AC, Richter MM, Pauli P, Fallgatter AJ (2006) Event-related functional near-infrared spectroscopy (fNIRS): are the measurements reliable? NeuroImage 31:116–124PubMedCrossRef

Pouratian N, Sicotte N, Rex D, Martin NA, Becker D, Cannestra AF, Toga AW (2002) Spatial/temporal correlation of BOLD and optical intrinsic signals in humans. Magn Reson Med 47:766–776PubMedCrossRef

Puce A, Constable T, Luby ML, McCarthy G, Nobre AC, Spencer DD, Gore JC, Allison T (1995) Functional magnetic resonance imaging of sensory and motor cortex: comparison with electrophysiological location. J Neurosurg 83:262–270PubMedCrossRef

Punwani SOR, Cooper CE, Amess P, Clemence M (1998) MRI measurements of cerebral deoxyhaemoglobin concentration [dHb]-correlation with near infrared spectroscopy (NIRS). NMR Biomed 11:281–289PubMedCrossRef

Rajapakse JC, Kruqqel F, Maisoq JM, von Cramon DY (1998) Modeling hemodynamic response for analysis of functional MRI time-series. Hum Brain Mapp 6:283–300PubMedCrossRef

Roche-Labarbe N, Wallois F, Ponchel E, Kongolo G, Grebe R (2007) Coupled oxygenation oscillation measured by NIRS and intermittent cerebral activation on EEG in premature infants. NeuroImage 36:718–727PubMedCrossRef

Roy CS, Sherrington CS (1890) On the regulation of the blood-supply of the brain. J Physiol 11:85–108PubMed

Schacter DL, Buckner RL, Koutstaal W, Dale AM, Rosen BR (1997) Late onset of anterior prefrontal activity during true and false recognition: an event-related fMRI study. NeuroImage 6:259–269PubMedCrossRef

Schroeter ML, Bucheler MM, Muller K, Uludaq K, Obriq H, Lohmann G, Tittqemeyer M, Villringer A, von Cramon DY (2004) Towards a standard analysis for functional near-infrared imaging. NeuroImage 21:283–290PubMedCrossRef

Schroeter ML, Kupka T, Mildner T, Uludag K, von Cramon DY (2006) Investigating the post-stimulus undershoot of the BOLD signal—a simultaneous fMRI and fNIRS study. NeuroImage 30:349–358PubMedCrossRef

Seiyama A, Hazeki O, Tamura M (1988) Noninvasive quantitative analysis of blood oxygenation in rat skeletal muscle. J Biochem (Tokyo) 103:419–424

Seiyama A, Seki J, Tanabe HC, Sase I, Takatsuki A, Miyauchi S, Eda H, Hayashi S, Imaruoka T, Iwakura T, Yanagida T (2004) Circulatory basis of fMRI signals: relationship between changes in the hemodynamic parameters and BOLD signal intensity. NeuroImage 21:1204–1214PubMedCrossRef

Shepard D (1968) A two-dimensional interpolation function for irregularly-spaced data. In: Proceedings of the 23rd national conference ACM. ACM Press, New York, pp 517–524

Sheth SA, Nemoto M, Guiou M, Walker M, Puratian N, Toga AW (2004) Linear and nonlinear relationships between neuronal activity, oxygen metabolism, and hemodynamic responses. Neuron 42:347–355PubMedCrossRef

Shibata T, Nishijo H, Tamura R, Miyamoto K, Eifuku S, Endo S, Ono T (2002) Generators of visual evoked potentials for faces and eyes in the human brain as determined by dipole localization. Brain Topogr 15:51–63PubMedCrossRef

Siegel AM, Culver JP, Mandeville JB, Boas DA (2003) Temporal comparison of functional brain imaging with diffuse optical tomography and fMRI during rat forepaw stimulation. Phys Med Biol 48:1391–1403PubMedCrossRef

Spiegel J, Tintera J, Gawehn J, Stoeter P, Treede RD (1999) Functional MRI of human primary somatosensory and motor cortex during median nerve stimulation. Clin Neurophysiol 110:47–52PubMedCrossRef

Srinivasan H (2005) High-resolution EEG: theory and practice. In: Handy TC (ed) Event-related potentials. A methods handbook. The MIT Press, London, pp 167–188

Strangman G, Culver JP, Thompson JH, Boas DA (2002) A quantitative comparison of simultaneous BOLD fMRI and NIRS recordings during functional brain activation. NeuroImage 17:719–731PubMedCrossRef

Sutherland MT (2006) The hand and the ipsilateral primary somatosensory cortex. J Neurosci 26:8217–8218PubMedCrossRef

Takakura H, Umeno K, Tabuchi E, Hori E, Miyamoto K, Asao S, Watanabe Y, Ono T, Nishijo H (2003) Differential activation in the medial temporal lobe during a sound-sequence discrimination task across age in human subjects. Neuroscience 119:517–532PubMedCrossRef

Tanosaki M, Hoshi Y, Iguchi Y, Oikawa Y, Oda I, Oda M (2001) Variation of temporal characteristics in human cerebral hemodynamic responses to electric median nerve stimulation: a near-infrared spectroscopic study. Neurosci Lett 316:75–78PubMedCrossRef

Tanosaki M, Sato C, Shimada M, Iguchi Y, Hoshi Y (2003) Effect of stimulus frequency on human cerebral hemodynamic responses to electric median nerve stimulation: a near-infrared spectroscopic study. Neurosci Lett 352:1–4PubMedCrossRef

Tommerdahl M, Simons SB, Chiu JS, Favorov O, Whitsel BL (2006) Ipsilateral input modifies the primary somatosensory cortex response to contralateral skin flutter. J Neurosci 26:5970–5977PubMedCrossRef

Toronov V, Webb A, Choi JH, Wolf M, Michalos A, Gratton E, Heuber D (2001) Investigation of human brain hemodynamics by simultaneous near-infrared spectroscopy and functional magnetic resonance imaging. Med Phys 28:521–527PubMedCrossRef

Toronov V, Webb A, Walker S, Gupta R, Choi JH, Gratton E, Hueber D, Webb A (2003) The roles of changes in deoxyhemoglobin concentration and regional cerebral blood volume in the fMRI BOLD signal. NeuroImage 19:1521–1531PubMedCrossRef

Villringer A, Plank J, Hock C, Schleinkofer L, Dirnagl U (1993) Near-infrared spectroscopy(NIRS): a new tool to study hemodynamic changes during activation of brain function in human adults. Neurosci Lett 154:101–104PubMedCrossRef

Wray S, Cope M, Delpy DT, Wyatt JS, Reynolds EO (1988) Characterization of the near infrared absorption spectra of cytochrome aa3 and haemoglobin for the non-invasive monitoring of cerebral oxygenation. Biochim Biophys Acta 30:184–192

Yamamoto Y, Kato T (2002) Paradoxical correlation between signal in functional magnetic resonance imaging and deoxygenated haemoglobin content in capillaries : a new theoretical explanation. Phys Med Biol 47:1121–1141PubMedCrossRef

Yousry TA, Schmid UD, Alkadhi H, Schmidt D, Peraud A, Buettner A, Winkler P (1997) Localization of the motor hand area to a knob on the precentral gyrus. A new landmark. Brain 120:141–157PubMedCrossRef

Title: Brain Cortical Mapping by Simultaneous Recording of Functional Near Infrared Spectroscopy and Electroencephalograms from the Whole Brain During Right Median Nerve Stimulation
Authors: Mikinobu Takeuchi
Etsuro Hori
Kouichi Takamoto
Anh Hai Tran
Kohno Satoru
Akihiro Ishikawa
Taketoshi Ono
Shunro Endo
Hisao Nishijo
Publication date: 01-11-2009
Publisher: Springer US
Published in: Brain Topography / Issue 3/2009
Print ISSN: 0896-0267
Electronic ISSN: 1573-6792
DOI: https://doi.org/10.1007/s10548-009-0109-2

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Brain Cortical Mapping by Simultaneous Recording of Functional Near Infrared Spectroscopy and Electroencephalograms from the Whole Brain During Right Median Nerve Stimulation

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 3/2009

Similarities Between Simulated Spatial Spectra of Scalp EEG, MEG and Structural MRI

Meditators and Non-Meditators: EEG Source Imaging During Resting

Thinning of the Motor–Cingulate–Insular Cortices in Siblings Concordant for Tourette Syndrome

Characteristic Changes in Brain Electrical Activity Due to Chronic Hypoxia in Patients with Obstructive Sleep Apnea Syndrome (OSAS): A Combined EEG Study Using LORETA and Omega Complexity

Steady State Visually Evoked Potential Correlates of Static and Dynamic Emotional Face Processing

Intracranial Recording and Source Localization of Auditory Brain Responses Elicited at the 50 ms Latency in Three Children Aged from 3 to 16 Years