[1] F. F. Jobsis, “Noninvasive, infrared monitoring of cerebral and myocardial oxygen sufficiency and circulatory parameters,” Science 198, 1264–1267 (1977).
[2] Y. Hoshi, “Functional near-infrared spectroscopy: Current status and future prospects,” J. Biomed. Opt. 12, 062106 (2007).
[3] T. Shiga, K. Tanabe, Y. Nakase, T. Shida, B. Chance, “Development of a portable tissue oximeter using near infra-red spectroscopy,” Med. Biol. Eng. Comput. 33, 622–626 (1995).
[4] S. R. Fanning, S. Short, K. Cole, S. Andresen, H. Moore, G. T. Budd, D. Weng, “Dynamic infrared imaging — a real-time, non-invasive tool for monitoring tumor response to neoadjuvant therapy for breast cancer: An update,” Breast Cancer Res. Treat 100, S151–S152 (2006).
[5] S. Ke, X. X. Wen, M. Gurfinkel, C. Charnsangavej, S. Wallace, E. M. Sevick-Muraca, C. Li, “Nearinfrared optical imaging of epidermal growth factor receptor in breast cancer xenografts,” Cancer Res. 63, 7870–7875 (2003).
[6] M. Ferrari, L. Mottola, V. Quaresima, “Principles, techniques, and limitations of near infrared spectroscopy,” Can. J. Appl. Physiol. 29, 463–487 (2004).
[7] Y. Hoshi, “Functional near-infrared optical imaging: Utility and limitations in human brain mapping,” Psychophysiology 40, 511–520 (2003).
[8] A. Villringer, B. Chance, “Non-invasive optical spectroscopy and imaging of human brain function,” Trends. Neurosci. 20, 435–442 (1997).
[9] S. C. Bruce, A. Devaraj, M. Izzetoglu, B. Onaral, K. Pourrezaei, “Detecting deception in the brain: A functional near-infrared spectroscopy study of neural correlates of intentional deception,” Proc. SPIE 5769, S24–S32 (2005).
[10] H. Ogata, T.Mukai, T. Yagi, “A study on the frontal cortex in cognitive tasks using near-infrared spectroscopy,” Conf. Proc. IEEE Eng. Med. Biol. Soc. 2007, 4731–4734 (2007).
[11] J. Lee, B. S. Folley, J. Gore, S. Park, “Origins of spatial working memory deficits in schizophrenia: An event-related fMRI and near-infrared spectroscopy study,” PLoS ONE 3, e1760 (2008).
[12] T. Schreppel, J. Egetemeir, M. Schecklmann, M. M. Plichta, P. Pauli, H. Ellgring, A. J. Fallgatter, M. J. Herrmann, “Activation of the prefrontal cortex in working memory and interference resolution processes assessed with near-infrared spectroscopy,” Neuropsychobiology 57, 188–193 (2008).
[13] M. Izzetoglu, K. Izzetoglu, S. Bunce, H. Ayaz, A. Devaraj, B. Onaral, K. Pourrezaei, “Functional near-infrared neuroimaging,” IEEE Trans. Neural Syst. Rehabil. Eng. 13, 153–159 (2005).
[14] A. M. Owen, “The functional organization of working memory processes within human lateral frontal cortex: The contribution of functional neuroimaging,” Eur. J. Neurosci. 9, 1329–1339 (1997).
[15] E. E. Smith, J. Jonides, “Working memory: A view from neuroimaging,” Cognit. Psychol. 33, 5– 42 (1997).
[16] E. E. Smith, J. Jonides, “Storage and executive processes in the frontal lobes,” Science 283, 1657–1661 (1999).
[17] T. S. Braver, J. D. Cohen, L. E. Nystrom, J. Jonides, E. E. Smith, D. C. Noll, “A parametric study of prefrontal cortex involvement in human working memory,” Neuroimage 5, 49–62 (1997).
[18] Y. Zheng, Z. Zhang, Q. Liu, C. Cao, H. Gong, “Design and evaluation of a portable continuouswave NIR topography instrument,” Proc. SPIE 6047, 60470X (2006).
[19] H. Obrig, A. Villringer, “Beyond the visible-imaging the human brain with light,” J. Cereb. Blood Flow Metab. 23, 1–18 (2003).
[20] M. J. Herrmann, M. M. Plichta, A. C. Ehlis, A. J. Fallgatter, “Optical topography during a Go-NoGo task assessed with multi-channel near-infrared spectroscopy,” Behav. Brain Res. 160, 135–140 (2005).
[21] E. E. Smith, J. Jonides, R. A. Koeppe, “Dissociating verbal and spatial working memory using PET,” Cereb. Cortex 6, 11–20 (1996).
[22] E. E. Smith, J. Jonides, R. A. Koeppe, E. Awh, E. H. Schumacher, S. Minoshima, “Spatial vs. object working memory: PET investigations,” J. Cognit. Neurosci. 7, S337–S356 (1995).
[23] J. Jonides, E. E. Smith, R. A. Koeppe, E. Awh, S. Minoshima, M. A. Mintun, “Spatial working memory in humans as revealed by PET,” Nature 363, 623–625 (1993).
[24] C. Pallier, S. Dehaene, J. B. Poline, A. M. Argenti, E. Dupoux, J. Mehler, “Brain imaging of language plasticity in adopted adults: Can a second language replace the first ,” Cereb. Cortex 2, S155– S161 (2003).
[25] S. Zeng, J. Yang, L. Guan, P. Kuang, H. Gong, B. Chance, “Observing prefrontal activation during semantic encoding with near infrared diffusive imaging,” Acta Photonica Sinica 29, 1–3 (2000).
[26] J. Yang, S. Zeng, Q. Luo, L. Guan, P. Kuang, H. Gong,W. Lichty, B. Chance, “Hemispheric asymmetry for encoding unrelated word pairs A functional near-infrared spectroscopy study,” Space Med. Med. Eng. 18, 318–323 (2005).