1977
[1977] Jöbsis reported that brain tissue transparency to NIR light allowed a non-invasive and continuous method of tissue oxygen saturation using transillumination. Transillumination (forward-scattering) was of limited utility in adults because of light attenuation and was quickly replaced by reflectance-mode based techniques - resulting in development of NIRS systems proceeding rapidly.
1985
[1985] The first studies on cerebral oxygenation were conducted by M. Ferrari.
1985
[1985] Japanese researchers at the central research laboratory of Hitachi Ltd set out to build a NIRS-based brain monitoring system using a pulse of 70-picosecond rays.
1989
[1989] Following work with David Delpy at University College London, Hamamatsu developed the first commercial NIRS system: NIR-1000 cerebral oxygenation monitor
1990
[1990] NIRS methods were initially used for cerebral oximetry in the 1990s.
1993
[1993] Four publications by Chance et al. PNAS, Hoshi & Tamura J Appl Physiol, Kato et al. JCBFM, Villringer et al Neuros. Lett. demonstrated the feasibility of fNIRS in adult humans.
1995
[1995] This effort came into light when the team, along with their leading expert, Dr Hideaki Koizumi (小泉 英明), held an open symposium to announce the principle of “Optical Topography” in January 1995.
2001
[2001] In fact, the term “Optical Topography” derives from the concept of using light on “2-Dimensional mapping combined with 1-Dimensional information”, or topography. The idea had been successfully implemented in launching their first fNIRS (or Optical Topography, as they call it) device based on Frequency Domain in 2001: Hitachi ETG-100.
2003
[2003] Later, Harumi Oishi (大石 晴美), a PhD-to-be at Nagoya University, published her doctoral dissertation in 2003 with the subject of “language learners’ cortical activation patterns measured by ETG-100” under the supervision of Professor Toru Kinoshita (木下 微)—presenting a new prospect on the use of fNIRS. The company has been advancing the ETG series ever since.
NIRS techniques were further expanded on by the work of Randall Barbour, Britton Chance, Arno Villringer, M. Cope, D. T. Delpy, Enrico Gratton, and others. Currently, wearable fNIRS are being developed.
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| Jöbsis (1997). “Noninvasive, infrared monitoring of cerebral and myocardial oxygen sufficiency and circulatory parameters”. Science. 198 (4323): 1264–1267. doi:10.1126/science.929199. PMID 929199 |