Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
MBE, NC, NLP, CAS (Joint) [detail] |
2020-10-29 09:50 |
Online |
Online |
Correction methods of blood volume change-derived noise in flavoprotein fluorescence imaging in vivo Shunya Okano, Ryunosuke Togawa, Kentaro Oka, Mitsuyuki Nakao, Norihiro Katayama (Tohoku Univ) MBE2020-13 |
The flavoprotein autofluorescence imaging (FAI) is a functional optical imaging method of the brain that utilizes the gr... [more] |
MBE2020-13 pp.5-8 |
NC, MBE |
2019-12-06 13:25 |
Aichi |
Toyohashi Tech |
Numerical analysis of coil-induced electric field in micro magnetic stimulation and its evaluation on the basis of evoked neural responses Shunsuke Sugai, Jun Nishikawa, Takashi Tateno (Hokkaido Univ.) MBE2019-51 NC2019-42 |
Magnetic stimulation has widely attracted attention as a treatment for neurological diseases. In general, the size reduc... [more] |
MBE2019-51 NC2019-42 pp.37-42 |
IBISML |
2019-03-06 13:00 |
Tokyo |
RIKEN AIP |
Magnetic Resonance Angiography Image Restoration by Super Resolution based on Deep Learning Shizen Kitazaki, Masanori Kawakita, Yutaka Jitumatu (Kyushu Univ.), Shigehide Kuhara (Kyorin Univ.), Akio Hiwatashi, Jun'ichi Takeuchi (Kyushu Univ.) IBISML2018-114 |
Magnetic Resonance Imaging (MRI) is one of the powerful techniques to acquire in vivo information. However, to obtain a ... [more] |
IBISML2018-114 pp.65-72 |
MBE, NC (Joint) |
2017-11-24 14:55 |
Miyagi |
Tohoku University |
Extracellular diffusion analysis in the mouse cortex using in vivo integrative optical imaging method Yui Hiroya, Kenya Tanaka, Yuto Yoshida (Tohoku Univ.), Akihiro Karashima (TOHTECH), Mitsuyuki Nakao, Norihiro Katayama (Tohoku Univ.) MBE2017-47 |
The brain has an unique waste clearance system, called glymphatic system, which is activated during sleep state. In orde... [more] |
MBE2017-47 pp.5-8 |
MBE, NC (Joint) |
2017-03-14 10:25 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Evaluation of neural responses driven by implantable micro magnetic stimulation using optical imaging of intrinsic signals in the auditory cortex Shunsuke Minusa, Takashi Tateno (Hokkaido Univ.) NC2016-88 |
Electromagnetic stimulation is widely used for neuromodulation, and it has been successful in the clinical treatments su... [more] |
NC2016-88 pp.143-148 |
MBE, NC (Joint) |
2017-03-14 14:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Estimation of refractive index in the living brain by optimizing spherical aberration. Hiromu Monai (RIKEN), Yoshihiro Ue, Kaori Higuchi, Daisuke Nishiwaki, Tetsuya Tajima, Kenya Okazaki (RIKEN/OLYMPUS), Hiroshi Hama, Hirase Hajime, Atsushi Miyawaki (RIKEN) NC2016-93 |
The high-resolution imaging of fine structures such as neurites requires objectives with high numerical apertures (NAs).... [more] |
NC2016-93 pp.171-176 |
MI |
2015-11-11 14:05 |
Nara |
NAIST |
Hungarian algorithm based macrophage tracking in time-lapse MR images Atsuki Tashita, Syoji Kobashi (Univ of Hyogo), Yuki Mori (Osaka Univ), Masakazu Morimoto, Satoru Aikawa (Univ of Hyogo), Yoshichika Yoshioka (Osaka Univ), Yutaka Hata (Univ of Hyogo) MI2015-64 |
Immune cells deeply affect human health. however, it is difficult to directly observe immune cells in vivo. Macrophage i... [more] |
MI2015-64 pp.31-36 |
NC, MBE |
2015-03-16 13:35 |
Tokyo |
Tamagawa University |
Analysis of the spatio-temporal activity in a salt-sensing neuron of the nematode C. elegans Masahiro Kuramochi (Univ. of Tsukuba/AIST), Motomichi Doi (Univ. of Tsukuba) MBE2014-146 NC2014-97 |
To understand the characterization of a neuronal activity in animal brains, integration of the in vivo measurement of ne... [more] |
MBE2014-146 NC2014-97 pp.169-172 |
OFT, OPE |
2011-03-04 10:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
A CMOS image sensor with a light guide array for in-vivo fluorescent imaging of brain neural activities Kiyotaka Sasagawa (NAIST/JST), Keisuke Ando, Hiroshi Taneda, Yuki Mizuta, Ayato Tagawa (NAIST), Takuma Kobayashi, Toshihiko Noda (NAIST/JST), Takashi Tokuda (NAIST), Jun Ohta (NAIST/JST) OFT2010-65 OPE2010-169 |
We fabricated an implantable CMOS image sensor with light guide array structure for improvement of spatial resolution an... [more] |
OFT2010-65 OPE2010-169 pp.13-16 |
ICD, ITE-IST |
2009-10-01 12:15 |
Tokyo |
CIC Tokyo (Tamachi) |
CMOS image sensor for optical measurement of cranial nerve activity Yasuhiro Oguro, Sanshiro Shishido (NAIST), Toshihiko Noda, Kiyotaka Sasagawa, Takashi Tokuda, Jun Ohta (NAIST/JST) ICD2009-40 |
Intrinsic Optical Signal (IOS) indicates activities of brain neurons, and is one of the optical imaging methods, which r... [more] |
ICD2009-40 pp.35-38 |
ICD, ITE-IST |
2009-10-01 13:30 |
Tokyo |
CIC Tokyo (Tamachi) |
Development of a multifunctional CMOS image sensor for in vivo sensing of neural activities in a mouse deep brain Ayato Tagawa, Hiroki Mitani, Masahiro Mitani (NAIST), Toshihiko Noda, Kiyotaka Sasagawa, Takashi Tokuda, Jun Ohta (NAIST/JST) ICD2009-41 |
We developed a multimodal CMOS image sensor includes an pixel array, electrodes, and LED. The electrodes were placed on ... [more] |
ICD2009-41 pp.39-43 |
PRMU, IE, MI |
2009-05-29 10:30 |
Gifu |
Gifu Univ. |
MR diffusion tensor tractography by searching curvature deviation in the vicinity of fiber crossing area Takenori Oida, Yoshihide Sakagami, Tetsuo Kobayashi (Kyoto Univ.) IE2009-36 PRMU2009-27 MI2009-27 |
Functional magnetic resonance imaging (fMRI) gives us increasingly detailed information about the loci of brain activiti... [more] |
IE2009-36 PRMU2009-27 MI2009-27 pp.147-152 |
MI |
2008-09-17 13:30 |
Kyoto |
Shimadzu Corp. |
[Invited Talk]
Imaging neural activity by IR temperature measurement Junji Seki (NCVC), Yutaka Komai, Yasuhiro Ooi (Osaka Univ.), Hiromichi Nakadate (NCVC), Akitoshi Seiyama (Kyoto Univ.) MI2008-42 |
Since the local heat production and the blood flow follow the change in the neural activity, temperature distribution of... [more] |
MI2008-42 pp.37-40 |
ICD, SDM |
2008-07-18 10:30 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Invited Talk]
CMOS-based biomedical photonic devices Takashi Tokuda, Jun Ohta (NAIST) SDM2008-142 ICD2008-52 |
CMOS-based biomedical photonic devices especially for bio-implant applications are proposed and discussed. We describe (... [more] |
SDM2008-142 ICD2008-52 pp.83-88 |
MI |
2008-01-26 13:00 |
Okinawa |
Naha-Bunka-Tenbusu |
A correction method for temporal attenuation of iodine-concentration in in-vivo imaging of rat’s head using fluorescent x-ray CT Seita Nasukawa, Qingkai Huo, Norihide Maikusa, Tadanori Fukami (Yamagata Univ.), Jin Wu, Thet Thet Lwin (Tsukuba Univ.), Tetsuya Yuasa (Yamagata Univ.), Kazuyuki Hyodo (KEK), Tohoru Takeda (Tsukuba Univ.), Takao Akatsuka (Yamagata Prefectural Industry Technology Junior College School) MI2007-125 |
Fluorescent X-ray CT (FXCT) can be a high-resolution molecular imaging, since it can detect a very small amount of imagi... [more] |
MI2007-125 pp.337-341 |