Correia T, Lloyd-Fox S, Everdell NL, Blasi A, Elwell C, Hebden JC, Gibson AP. Three-dimensional optical topography of brain activity in infants watching videos of human movement. Physics in Medicine and Biology 57, 1135-1146, 2012.
Cristia A., Dupoux E., Hakuna Y., Lloyd-Fox S., Schuetze M., Kivits J., Bergvelt T., van Gelder M., Filippin M., Charron S., and Minagawa-Kawai Y. An online database of infant functional Near InfraRed Spectroscopy studies: A community-augmented systematic review. PLoS One, 8, e58906, 2012.
Papademetriou, M.D., Richards, J., Correia, T., Blasi, A., Murphy, D.G., Lloyd-Fox, S., Johnson, M. & Elwell, C.E. Cortical Mapping of 3D Optical Topography in Infants. Advances in Experimental Medicine and Biology, 985, 2012.
Lloyd-Fox, S., Blasi, A., Mercure, E., Elwell, C.E. & Johnson, M.H. The emergence of cerebral specialisation for the human voice over the first months of life. Social Neuroscience, 7, 317-330, 2012.
Cooper RJ, Hebden JC, O'Reilly H, Mitra S, Mitchell A, Everdell NL, Gibson AP, Austin T. Transient haemodynamic events in neurologically compromised infants: A simultaneous EEG and diffuse optical imaging study. Neuroimage 55(4), 1610-1616, 2011.
Lloyd-Fox S, Blasi A, Everdell NL, Elwell C, Johnson MH. Selective cortical mapping of biological motion processing in young infants. Journal of Cognitive Neuroscience 23(9), 2521-2532, 2011.
Gervain, J., Mehler, J., Werker, J.F., Nelson, C.A., Csibra, G., Lloyd-Fox, S., Shukla, M. & Aslin, R.A. Near infrared spectroscopy: A report from the McDonnell Infant Methodology Consortium. Developmental Cognitive Neuroscience. 1, 22-46, 2011.
Lloyd-Fox, S., Blasi, A. & Elwell, C.E. Illuminating the developing brain: The past, present and future of functional near infrared spectroscopy. Neuroscience and Biobehavioural Reviews, 34(3), 269-284, 2010.
Blasi, A., Phillips, D., Lloyd-Fox, S., Hui-Koh, P. & Elwell, C.E. Automatic detection of motion artifacts in infant functional optical topography studies. Advances in Experimental Medicine and Biology, 662, 279-284, 2010.
Cooper RJ, Everdell NL, Enfield LC, Gibson AP, Worley A, Hebden JC. Design and evaluation of a probe for simultaneous EEG and near-infrared imaging of cortical activation. Physics in Medicine and Biology 54, 2093-2102, 2009.
Correia T, Banga A, Everdell NL, Gibson AP, Hebden JC. A quantitative assessment of the depth sensitivity of an optical topography system using a solid dynamic tissue-phantom. Physics in Medicine and Biology 54, 6277-6286, 2009.
Lloyd-Fox S, Blasi A, Volein A, Everdell NL, Elwell CE, Johnson MH. Social Perception in Infancy: a near infrared spectroscopy study. Child Development 80(4), 986-999, 2009.
Cooper RJ, Bhatt D, Everdell NL, Hebden JC. A tissue-like, optically turbid and electrically conducting phantom for simultaneous EEG and near-infrared imaging. Physics in Medicine and Biology 54, N403-N408, 2009.
Grossman, T., Johnson, M.H., Lloyd-Fox, S., Blasi, A., Deligianni, F., Elwell, C. & Csibra, G. Early cortical specialization for face-to-face communication in human infants. Proceedings of the Royal Society B, 275, 2803-2811, 2008.
Blasi A, Fox S, Everdell NL, Volein A, Tucker L, Csibra G, Gibson AP, Hebden JC, Johnson MH, Elwell CE. Investigation of depth dependent changes in cerebral haemodynamics during face perception in infants. Physics in Medicine and Biology 52, 6849-6864, 2007.
Everdell NL, Gibson AP, Tullis IDC, Vaithianathan T, Hebden JC and Delpy DT. A frequency multiplexed near-infrared topography system for imaging functional activation in the brain. Rev. Sci. Instrum. 76, 093705, 2005.

●軟件：NTS數(shù)據(jù)采集軟件的設(shè)計和開發(fā)基于多年在成人、兒童和嬰兒中進(jìn)行的fNIRS研究經(jīng)驗，與眾多經(jīng)驗豐富的fNIRS研究人員一起完成。軟件具有用戶友好且可擴(kuò)展的界面、信號優(yōu)化、數(shù)據(jù)質(zhì)量保證和實(shí)時反饋、靈活的事件標(biāo)記、開放的數(shù)據(jù)格式等特點(diǎn)。

●多模態(tài)腦功能測試：NTS系統(tǒng)與各種神經(jīng)監(jiān)測、神經(jīng)成像和神經(jīng)設(shè)備*兼容。系統(tǒng)使用高質(zhì)量的玻璃光纖，確保我們的技術(shù)與EEG、tDCS和TMS設(shè)備之間的干擾為零。NTS系統(tǒng)還旨在促進(jìn)fNIRS和EEG的同時使用：系統(tǒng)的帽子允許EEG電極直接集成在NTS光纖上，NTS系統(tǒng)可以輕松地與幾乎所有EEG設(shè)備同步。

功能近紅外光譜成像技術(shù)（fNIRS）使用光來監(jiān)測人腦功能。該技術(shù)通過將近紅外光傳輸?shù)筋^皮，然后在幾厘米遠(yuǎn)的地方檢測散射回頭皮的光，可以測量大腦中氧合和脫氧血紅蛋白濃度的變化。由于腦活動和局部血流之間存在密切的聯(lián)系，血紅蛋白濃度的這些變化提供了腦功能的可靠度量。NTS fNIRS系統(tǒng)處于這一技術(shù)增長的前沿，以易于使用和便攜的方式安全地研究人腦功能。
相比其他腦功能成像技術(shù)，近紅外腦功能成像技術(shù)具有良好的空間分辨率、較高的采樣率、更多的測量指標(biāo)、良好的舒適性和較低的成本等優(yōu)點(diǎn)，在認(rèn)知神經(jīng)科學(xué)和臨床研究中有著較為廣泛的應(yīng)用；同時由于其抗運(yùn)動干擾性強(qiáng)、便攜可穿戴等特點(diǎn)，系統(tǒng)在運(yùn)動科學(xué)、腦機(jī)接口等領(lǐng)域的價值也逐漸被研究者所認(rèn)識。具體應(yīng)用案例包括駕駛員的認(rèn)知負(fù)荷研究、多模態(tài)腦機(jī)接口研究、操作人的情緒狀態(tài)研究等。