Skip to main content

Hitachi

Healthcare

General

  • Masashi Suda et al., “Frontpolar actication during face-to-face conversation: An in situ study using near-infrared spectroscopy,” Neuropsychologia, 48, 441-447 (2010)
  • Kohei Marumo et al., “Gender difference in right lateral prefrontal hemodynamic response while viewing fearful faces: A multi-channel near-infrared spectroscopy study,” Neuroscience Research, 63, 89-94 (2009)
  • Melany M. Richter et al., “Changesin cortical blood oxygenation during arithmetical tasks measured by near-infrared spectroscopy,” J. Nrural. Transm., 116, 267-273 (2009)
  • A. -C. Ehlis et al., “Cortical correlates of auditory sensory gating: A simultaneous near-infrared spectroscopy event-related potential study,” Neuroscience, 159, 1032-1043 (2009)
  • Kaori Yamanaka et al., “Transcranial magnetic stimulation of the parietal cortex facilitates spatial working memory: Near-infrared spectroscopy study,” Cerebral Cortex, Advance Access published online on August 14 (2009)
  • Yoshiyuki Aoyama et al., “Stimulus intensity dependence of cerebral blood volume changes in left frontal lobe by low-frequency rTMS to right frontal lobe: A near-infrared spectroscopy study,” Neuroscience Research, 63, 47-51 (2009)
  • Yukika Nishimura et al., “An event-related fNIRS investigation of Japanese word order,” Exp. Brain Res., published online 25 December (2009)
  • Markus J. Hofmann et al., “Differential activation of frontal and parietal regions during visual word rocognition: An optical topograhpy study,” NeuroImage, 40, 1340-1349 (2008)
  • Hiroshi Toyoda et al., “Source of nonlinearity of the BOLD response revealed by simultaneous fMRI and NIRS,” NeuroImage, 39, 997-1013 (2008)
  • Dilshat Abla et al., “Statistical segmentation of tone sequences activates the left inferior frontal cortex: A near-infrared spectroscopy study,” Neuropsychologia 46, 2787-2795 (2008)
  • Masako Kubo et al., “Increase in Prefrontal Cortex Blood Flow during the Computer Version Trail Making Test,” Neuropsychobiology, 58, 200-210 (2008)
  • Nobuaki Shimoda et al., “Cerebral laterality differences in handedness: A mental rotation study with NIRS,” Neurosci. Lett., 430, 43-47 (2008)
  • Masashi Suda et al., “Decreased cortical reactivity underlies subjective daytime light sleepiness in healthy subjects: A multichannel near-infrared spectroscopy study,” Neuroscience Research, 60, 319-326 (2008)
  • Goro Maehara et al., “Changes in hemoglobin concentration in the lateral occipital regions during shape recognition: a near-infrared spectroscopy study,” J. Biomed. Opt., 12, 062109 (2007)
  • M. M. Plichta et al., “Event-Related Functional Near-Infrared Spectroscopy (fNIRS) Based on Craniocerebral Correlations: Reproducibility of Activation?,” Human Brain Mapping, 28, 733-741 (2007)
  • M. M. Plichta et al., “Model-based analysis of rapid event-related functional near-infrared spectroscopy (NIRS) data: A parametric validation study,” NeuroImage, 35, 625-634 (2007)
  • Eiji Kobayashi et al., “Functional optical hemodynamic imaging of the olfactory cortex ,” Laryngoscope, 117, 541-546 (2007)
  • Toshimasa Sato et al., “Time courses of brain activation and their implications for function: A multichannel near-infrared spectroscopy study during finger tapping,” Neuroscience Research, 58, 297-304 (2007)
  • M. M. Plichta et al., “Event-Related Visual versus Blocked Motor Task: Detection of Specific Cortical Activation Patterns with Functional Near-Infrared Spectroscopy,” Neuropsychobiology, 53, 77-82 (2006)
  • M. M. Plichta et al., “Event-related functional near-infrared spectroscopy (fNIRS): Are the measurements reliable?,” NeuroImage, 31, 116-124 (2006)
  • Yutaka Fuchino et al., “Effect of fMRI acoustic noise on sensorimotor activation examined using optical topography,” NeuroImage, 32, 771-777 (2006)
  • Hitoshi Mochizuki et al., “Cortical hemoglobin-concentration changes under the coil induced by single-pulse TMS in humans: a simultaneous recording with near-infrared spectroscopy,” Exp. Brain Res., 169, 302-310 (2006)
  • A.-C. Ehlis et.al., “Multi-channel near-infrared spectroscopy detects specific inferior-frontal activation during incongruent Stroop trials,” Biological Psychology, 69, 315-331 (2005)
  • Akiko Obata et al., “Effects of alcohol on hemodynamic and cardiovascular reaction in different genotypes,” Psychiatry Research: Neuroimaging, 139, 65-72 (2005)
  • Martin J. Herrmann et al., “Optical Topography during a Go-NoGo task assessed with multi-channel near-infrared spectroscopy,” Behavioural Brain Research 160, 135-140 (2005)
  • Miho Suzuki et al., “Multichannel NIRS analysis of brain activity during semantic differential rating of drawing stimuli containing different affective polarities,” Neurosci. Lett. 375, 53-58 (2005)
  • Hiro-Fumi Yanai et.al., “Observation on Effect of Optical Stimulation to Human Using Optical Topography,” Japanese Journal of Applied Physics, 44, 6304-6306 (2005)
  • Naomi Kuboyama et.al., “Relationship between Cerebral Activity and Movement Frequency of Maximal Finger Tapping,” Journal of Physiological Anthropology and Applied Human Science, 24, 201-208 (2005)
  • Makoto Ito et.al., “Increased and decreased cortical reactivities in novelty seeking and persistence: A multichannel near-infrared spectroscopy study in healthy subjects ,” Neurophychobiology, 52, 45-54 (2005)
  • Martin J. Herrmann et al., “Near-infrared optical topography to assess activation of the parietal cortex during a visuo-spatial task,” Neuropsychologia 43, 1713-1720 (2005)
  • Matthias L. Schroeter et al., “Towards a standard analysis for functional near-infrared imaging,” NeuroImage, 21, 283-290 (2004)
  • Satoshi Tsujimoto et al., “Prefrontal Cortical Activation Associated with Working Memory in Adults and Preschool Children: An Event-related Optical Topography Study,” Cerebral Cortex, 14, 703-712 (2004)
  • Silvia G. Horovitz and John C. Gore, “Simultaneous Event-Related Potential and Near-Infrared Spectroscopic Studies of Semantic Processing,” Human Brain Mapping, 22, 110-115 (2004)
  • Naomi Kuboyama et.al., “The Effect of Maximal Finger Tapping on Cerebral Activation,” Journal of Physiological Anthropology and Applied Human Science, 23, 105-110 (2004)
  • Masaki Kameyama et al., “Sex and age dependencies of cerebral blood volume changes during cognitive activation: a multichannel near-infrared spectroscopy study,” NeuroImage 22, 1715-1721 (2004)
  • Yasuki Noguchi et al., “An event-related optical topography study of cortical activation induced by single-pulse transcranial magnetic stimulation,” NeuroImage 19, 156-162 (2003)
  • Akiko Obata et al., “Acute effects of alcohol on hemodynamic changes during visual stimulation assessed using 24-channel near-infrared spectroscopy,” Psychiatry Research: Neuroimaging, 123, 145-152 (2003)
  • Akira Watanabe et al., “Cerebrovascular response to cognitive tasks and hyperventilation measured by multi-channel near-infrared spectroscopy,” J. Neuropsychiatry Clin. Neurosci., 15, 442-449 (2003)
  • Yasuki Noguchi et al., “Lateralized Activation in the Inferior Frontal Cortex during Syntactic Processing: Event-Related Optical Topography Study,” Human Brain Mapping, 17, 89-99 (2002)
  • Richard P. Kennan et al., “Non-invasive Assessment of Language Lateralization by Transcranial Near Infrared Optical Topograhpy and Functional MRI ,” Human Brain Mapping, 16, 183-189 (2002)
  • Richard P. Kennan et al., “Simultaneous Recording of Event-Related Auditory Oddball Response Using Transcranial Near Infrared Optical Topography and Surface EEG,” NeuroImage 16, 587-592 (2002)
  • Mariko Igawa et al., “Activation of visual cortex in REM sleep measured by 24-channel NIRS imaging,” Psychiatry and Clinical Neurosciences, 55, 187-188 (2001)
  • Kazumi Takahashi et al., “Activation of the visual cortex imaged by 24-channel near-infrared spectroscopy,” J. Biomed Opt., 5, 93-96 (2000)
  • Hiroki Sato et al., “Temporal cortex activation during speech recognition: an optical topography study,” Cognition 73, B55-B66 (1999).
  • Eiju Watanabe et al., “Non-invasive functional mapping with multi-channel near infra-red spectroscopic topography in humans,” Neurosci. Lett., 205, 41-44 (1996)

Infant/Baby

  • Emi. Nakato, et al., “When do infants differentiate profile face from frontal face? A near-infrared spectroscopic study,” Human Brain Mapping, 30, 462-472 (2009)
  • Gentaro Taga et al., “Selectivity and localization of cortical response to auditory and visual stimulation in awake infants aged 2 to 4 months,” NeuroImage, 36, 1246-1252 (2007)
  • Yumiko Otsuka et al., “Neural activation to upright and inverted faces in infants measured by near infrared spectroscopy,” NeuroImage 34, 399-406 (2007)
  • Yasuyo Minagawa-Kawai et.al., “Neural Attunement Process in Infants during the Acquisition of a Language-Specific Phonemic Contrast,” The Journal of Neuroscience, 27, 315-321 (2007)
  • Gentaro Taga et al., “Hemodynamic responses to visual stimulation in occipital and frontal cortex of newborn infants: a near-infrared optical topography study,” Pathophysiology, 10, 277-281 (2004)
  • Marcela Pena et al., “Sounds and silence: an optical topography study of language recognition at birth,” Proc. Natl. Acad. Sci. USA 100, 11702-11705 (2003)
  • Gentaro Taga et al., “Brain imaging in awake infants by near-infrared optical topography,” Proc. Natl. Acad. Sci. USA 100, 10722-10727 (2003)
  • Gentaro Taga et al., “Spontaneous oscillation of oxy- and deoxy-hemoglobin changes with a phase difference throughout the occipital cortex of newborn infants observed using non-invasive optical topography,” Neurosci. Lett., 282, 101-104 (2000)

This website includes information intended for healthcare professionals.
Please note that all descriptions in this website conform to the Pharmaceutical and Medical Device Act in Japan as well as other laws and regulations in Japan. Model names, specifications and configurations of products in overseas market outside Japan may be different by the countries.