| Estimation of melanin and hemoglobin in skin tissue using multiple regression analysis aided by Monte Carlo simulation I Nishidate, Y Aizu, H Mishina Journal of biomedical optics 9 (4), 700-710, 2004 | 144 | 2004 |
| Estimation of melanin and hemoglobin using spectral reflectance images reconstructed from a digital RGB image by the Wiener estimation method I Nishidate, T Maeda, K Niizeki, Y Aizu Sensors 13 (6), 7902-7915, 2013 | 102 | 2013 |
| Noninvasive imaging of human skin hemodynamics using a digital red-green-blue camera I Nishidate, N Tanaka, T Kawase, T Maeda, T Yuasa, Y Aizu, T Yuasa, ... Journal of biomedical optics 16 (8), 086012-086012-14, 2011 | 90 | 2011 |
| Unconstrained cardiorespiratory and body movement monitoring system for home care K Niizeki, I Nishidate, K Uchida, M Kuwahara Medical and Biological Engineering and Computing 43, 716-724, 2005 | 70 | 2005 |
| Real-time optical diagnosis of the rat brain exposed to a laser-induced shock wave: observation of spreading depolarization, vasoconstriction and hypoxemia-oligemia S Sato, S Kawauchi, W Okuda, I Nishidate, H Nawashiro, G Tsumatori PLoS One 9 (1), e82891, 2014 | 66 | 2014 |
| Visualizing of skin chromophore concentrations by use of RGB images I Nishidate, K Sasaoka, T Yuasa, K Niizeki, T Maeda, Y Aizu Optics letters 33 (19), 2263-2265, 2008 | 59 | 2008 |
| Diffuse light reflectance signals as potential indicators of loss of viability in brain tissue due to hypoxia: charge-coupled-device-based imaging and fiber-based measurement S Kawauchi, I Nishidate, Y Uozumi, H Nawashiro, H Ashida, S Sato Journal of biomedical optics 18 (1), 015003-015003, 2013 | 53 | 2013 |
| Visualizing depth and thickness of a local blood region<? xpp qa?> in skin tissue using diffuse reflectance images I Nishidate, T Maeda, Y Aizu, K Niizeki Journal of Biomedical optics 12 (5), 054006-054006-12, 2007 | 51 | 2007 |
| Noninvasive spectral imaging of skin chromophores based on multiple regression analysis aided by Monte Carlo simulation I Nishidate, A Wiswadarma, Y Hase, N Tanaka, T Maeda, K Niizeki, Y Aizu Optics letters 36 (16), 3239-3241, 2011 | 43 | 2011 |
| Estimation of absorbing components in a local layer embedded in the turbid media on the basis of visible to near-infrared (VIS-NIR) reflectance spectra I Nishidate, Y Aizu, H Mishina Optical review 10, 427-435, 2003 | 40 | 2003 |
| Agarose-based tissue mimicking optical phantoms for diffuse reflectance spectroscopy A Mustari, I Nishidate, MA Wares, T Maeda, S Kawauchi, S Sato, M Sato, ... JoVE (Journal of Visualized Experiments), e57578, 2018 | 35 | 2018 |
| Depth visualization of a local blood region in skin tissue by use of diffuse reflectance images I Nishidate, Y Aizu, H Mishina Optics letters 30 (16), 2128-2130, 2005 | 34 | 2005 |
| Non-contact imaging of peripheral hemodynamics during cognitive and psychological stressors D McDuff, I Nishidate, K Nakano, H Haneishi, Y Aoki, C Tanabe, K Niizeki, ... Scientific Reports 10 (1), 10884, 2020 | 33 | 2020 |
| Multispectral imaging of absorption and scattering properties of in vivo exposed rat brain using a digital red-green-blue camera K Yoshida, I Nishidate, T Ishizuka, S Kawauchi, S Sato, M Sato Journal of Biomedical Optics 20 (5), 051026-051026, 2015 | 33 | 2015 |
| Changes in optical properties of rat cerebral cortical slices during oxygen glucose deprivation I Nishidate, K Yoshida, M Sato Applied optics 49 (34), 6617-6623, 2010 | 28 | 2010 |
| Medical applications of reflectance spectroscopy in the diffusive and sub-diffusive regimes S Akter, MG Hossain, I Nishidate, H Hazama, K Awazu Journal of Near Infrared Spectroscopy 26 (6), 337-350, 2018 | 27 | 2018 |
| Evaluation of cerebral hemodynamics and tissue morphology of in vivo rat brain using spectral diffuse reflectance imaging I Nishidate, T Ishizuka, A Mustari, K Yoshida, S Kawauchi, S Sato, M Sato Applied Spectroscopy 71 (5), 866-878, 2017 | 25 | 2017 |
| Light-source unit, measurement apparatus, near-infrared microscopic apparatus, optical detection method, imaging method, calculation method, functional bio-related substance … H Ando, J Ukon, T Iwai, I Nishidate US Patent 10,660,523, 2020 | 24 | 2020 |
| In vivo rat brain measurements of changes in signal intensity depth profiles as a function of temperature using wide-field optical coherence tomography M Sato, D Nomura, T Tsunenari, I Nishidate Applied optics 49 (30), 5686-5696, 2010 | 24 | 2010 |
| Measurement of signal intensity depth profiles in rat brains with cardiac arrest using wide-field optical coherence tomography M Sato, MS Hrebesh, I Nishidate Applied optics 48 (22), 4354-4364, 2009 | 22 | 2009 |
Kazuya NakanoAssociate Professor, Seikei University在 st.seikei.ac.jp 的电子邮件经过验证
