Researcher Profile and Settings

Researcher

• Name

  SATO Kiichi

Profile and Settings

• Name

  Sato, Kiichi

Affiliation

• Gunma University, Associate Professor

Affiliation

• Affiliation

  Graduate School of Science and Technology

• Job title

  Professor

Education

• Apr. 1990, Mar. 1994, The University of Tokyo, Graduate School of Agricultural and Life Sciences
• Apr. 1994, Mar. 1999, The University of Tokyo

Research Experience

• Gunma University, Prof lv

Research Activities

Research Areas

• Nanotechnology/Materials, Analytical chemistry

Research Interests

• Bioanalytical chemistry
• MicroTAS

Published Papers

• Evaluation of effects of shear stress on hepatocytes by a microchip-based system, Yuki Tanaka; Masayuki Yamato; Teruo Okano; Takehiko Kitamori; Kiichi Sato, Dec. 2006, MEASUREMENT SCIENCE AND TECHNOLOGY, 17, 12, 3167, 3170, Scientific journal

  DOI
• A liquid/liquid optical waveguide with miscible solvents to observe complexation reaction, Hiroyasu Murata; Junya Kamiyama; Sohto Asanuma; Kiichi Sato; Kin Ichi Tsunoda; Hiroki Hotta; Yasuhiko Sugii, 01 Jan. 2012, Proceedings of the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2012, 1783, 1785, Scientific journal
• Micro- and nanometer-scale patterned surface in a microchannel for cell culture in microfluidic devices, Makiko Goto; Takehiko Tsukahara; Kiichi Sato; Takehiko Kitamori, Feb. 2008, ANALYTICAL AND BIOANALYTICAL CHEMISTRY, 390, 3, 817, 823, Scientific journal

  DOI
• Microcirculation-on-a-Chip: A Microfluidic Platform for Assaying Blood- and Lymphatic-Vessel Permeability, Miwa Sato; Naoki Sasaki; Manabu Ato; Satoshi Hirakawa; Kiichi Sato; Kae Sato, Sep. 2015, PLOS ONE, 10, 9, e0137301, Scientific journal

  DOI
• A Microfluidic System to Evaluate Intestinal Absorption, Yuki Imura; Yasuyuki Asano; Kiichi Sato; Etsuro Yoshimura, Dec. 2009, ANALYTICAL SCIENCES, 25, 12, 1403, 1407, Scientific journal
• Bead-based padlock rolling circle amplification for single DNA molecule counting, Kae Sato; Reina Ishii; Naoki Sasaki; Kiichi Sato; Mats Nilsson, Jun. 2013, ANALYTICAL BIOCHEMISTRY, 437, 1, 43, 45, Scientific journal

  DOI
• Microcirculation System with a Dialysis Part for Bioassays Evaluating Anticancer Activity and Retention, Yuki Imura; Etsuro Yoshimura; Kiichi Sato, Feb. 2013, ANALYTICAL CHEMISTRY, 85, 3, 1683, 1688, Scientific journal

  DOI
• Characterization of Liquid-Core/Liquid-Cladding Optical Waveguides of a Sodium Chloride Solution/Water System by Computational Fluid Dynamics, Junya Kamiyama; Soto Asanuma; Hiroyasu Murata; Yasuhiko Sugii; Hiroki Hotta; Kiichi Sato; Kin-ichi Tsunoda, Dec. 2013, APPLIED SPECTROSCOPY, 67, 12, 1479, 1484, Scientific journal

  DOI
• Micro Total Bioassay System for Ingested Substances: Assessment of Intestinal Absorption, Hepatic Metabolism, and Bioactivity, Yuki Imura; Kiichi Sato; Etsuro Yoshimura, Dec. 2010, ANALYTICAL CHEMISTRY, 82, 24, 9983, 9988, Scientific journal

  DOI
• Microbead-based rolling circle amplification in a microchip for sensitive DNA detection, Kae Sato; Atsuki Tachihara; Bjorn Renberg; Kazuma Mawatari; Kiichi Sato; Yuki Tanaka; Jonas Jarvius; Mats Nilsson; Takehiko Kitamori, 2010, LAB ON A CHIP, 10, 10, 1262, 1266, Scientific journal

  DOI
• Cell Culture and Motility Study on a Polymer Surface with a Nanometer-Scaled Stripe Structure, Yasuyuki Sakamoto; Kiichi Sato; Mitsuru Abo; Takehiko Tsukahara; Takehiko Kitamori; Keiko Abe; Etsuro Yoshimura, Mar. 2010, BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY, 74, 3, 569, 572, Scientific journal

  DOI
• Cell culture and life support system for microbioreactor and bioassay, Y Tanaka; K Sato; M Yamato; T Okano; T Kitamori, Apr. 2006, JOURNAL OF CHROMATOGRAPHY A, 1111, 2, 233, 237, Scientific journal

  DOI
• Monitoring of intercellular messengers released from neuron networks cultured in a microchip, K Sato; A Egami; T Odake; M Tokeshi; M Aihara; T Kitamori, Apr. 2006, JOURNAL OF CHROMATOGRAPHY A, 1111, 2, 228, 232, Scientific journal

  DOI
• Nanometer-scale patterned surfaces for control of cell adhesion, Makiko Goto; Takehiko Tsukahara; Kae Sato; Tomohiro Konno; Kazuhiko Ishihara; Kfichi Sato; Takehiko Kitamori, Mar. 2007, ANALYTICAL SCIENCES, 23, 3, 245, 247, Scientific journal
• Development of a microchip-based bioassay system using cultured cells, M Goto; K Sato; A Murakami; M Tokeshi; T Kitamori, Apr. 2005, ANALYTICAL CHEMISTRY, 77, 7, 2125, 2131, Scientific journal

  DOI
• Microbioassay system for antiallergic drug screening using suspension cells retaining in a poly(dimethylsiloxane) microfluidic device, T Tokuyama; S Fujii; K Sato; M Abo; A Okubo, May 2005, ANALYTICAL CHEMISTRY, 77, 10, 3309, 3314, Scientific journal

  DOI
• A Solid-Cladding/Liquid-Core/Liquid-Cladding Sandwich Optical Waveguide for the Study of Dynamic Extraction of Dye by Ionic Liquid BmimPF(6), Xuwei Chen; Atsushi Sakurazawa; Kiichi Sato; Kin-Ichi Tsunoda; Jianhua Wang, Jul. 2012, APPLIED SPECTROSCOPY, 66, 7, 798, 802, Scientific journal

  DOI
• Adsorption Behavior of Curcumin onto Cetyltrimethylammonium Chloride Reverse Micelles Immobilized on a Glass Surface As Studied by Polarized Visible Attenuated Total Reflection Spectrometry with a Glass Slab Optical Waveguide, T. Nishiwaki; K. Sato; K Tsunoda; H. Horiuchi; T. Fujiwara, Apr. 2019, Analytical Sciences, 35, 4, Scientific journal
• A novel method for determination of inorganic oxyanions by electrospray ionization mass spectrometry using dehydration reactions, Hirochika Kojima; Shota Kurihara; Yoshito Watanabe; Koki Iwamaru; Kiichi Sato; Kin-ichi Tsunoda; Hiroki Hotta, Feb. 2016, JOURNAL OF MASS SPECTROMETRY, 51, 2, 123, 131, Scientific journal

  DOI
• Patterned Co-culture of Live Cells on a Microchip by Photocrosslinking with Benzophenone, Kiichi Sato; Sayaka Kikuchi; Eri Yoshida; Reina Ishh; Naoki Sasaki; Kin-ichi Tsunoda; Kae Sato, Jan. 2016, ANALYTICAL SCIENCES, 32, 1, 113, 116, Scientific journal

  DOI
• New Determination Methods of Halides and Cyanide Ions by Electrospray Ionization Mass Spectrometry Based on Ternary Complex Formation, Hiroki Hotta; Shota Kurihara; Keita Johno; Masaomi Kitazume; Kiichi Sato; Kin-ichi Tsunoda, Sep. 2011, ANALYTICAL SCIENCES, 27, 9, 953, 956, Scientific journal
• Microfluidics-based in situ Padlock/Rolling Circle Amplification System for Counting Single DNA Molecules in a Cell, Arisa Kuroda; Yuri Ishigaki; Mats Nilsson; Kiichi Sato; Kae Sato, Dec. 2014, ANALYTICAL SCIENCES, 30, 12, 1107, 1112, Scientific journal

  DOI
• Microfluidics for nano-pathophysiology, Kae Sato; Naoki Sasaki; Helene Andersson Svahn; Kiichi Sato, Jul. 2014, ADVANCED DRUG DELIVERY REVIEWS, 74, 115, 121, Scientific journal

  DOI
• Development of Tetrahydrofuran/Water Optical Waveguide and Its Application to the Observation of Extraction Behavior of 1-Anilino-8-naphtalene Sulfonate at the Tetrahydrofuran/Water Interface, Hiromi Takiguchi; Soto Asanuma; Junya Kamiyama; Hiroyasu Murata; Yuki Hasegawa; Satoshi Yoshizawa; Hiroki Hotta; Tamao Odake; Tomonari Umemura; Kiichi Sato; Kin-ichi Tsunoda, Apr. 2017, ANALYTICAL SCIENCES, 33, 4, 449, 455, Scientific journal

  DOI
• Development of a Multichannel Dialysis Microchip for Bioassay of Drug Efficacy and Retention, Yu Sakuta; Kin-ichi Tsunoda; Kiichi Sato, Mar. 2017, ANALYTICAL SCIENCES, 33, 3, 391, 394, Scientific journal

  DOI
• Development of a Microfluidic System Comprising Dialysis and Secretion Components for a Bioassay of Renal Clearance, Sakuta, Yu; Takehara, Issey; Tsunoda, Kin-ichi; Kiichi, Sato, Sep. 2018, ANALYTICAL SCIENCES, 34, 9, 1073, 1078, Scientific journal

  DOI
• Recent Progress in the Development of Microfluidic Vascular Models, Sato, Kae; Sato, Kiichi, Jul. 2018, ANALYTICAL SCIENCES, 37, 7, 755, 764, Scientific journal

  DOI
• Micro Total Bioassay System for Oral Drugs: Evaluation of Gastrointestinal Degradation, Intestinal Absorption, Hepatic Metabolism, and Bioactivity, Yuki Imura; Etsuro Yoshimura; Kiichi Sato, Mar. 2012, ANALYTICAL SCIENCES, 28, 3, 197, 199, Scientific journal
• Micropatterning Method for Porous Materials Using the Difference of the Glass Transition Temperature between Exposed and Unexposed Areas of a Thick-Photoresist, Hidetaka Ueno; Kiichi Sato; Kou Yamada; Takaaki Suzuki, 31 Dec. 2019, Micromachines, 11, 1, 54, 54, Scientific journal

  DOI
• A Liquid-core Liquid-cladding Optical Waveguide Based on Thermal Gradients across the Laminar Flow of Water in Capillary Tubing, Manami NAKAMURA; Hiroyasu MURATA; Kiichi SATO; Kin-ichi TSUNODA, 10 Feb. 2019, Analytical Sciences, 35, 2, 215, 218, Scientific journal

  DOI
• Development of a Linear Dichroism Measurement System Using Slab Optical Waveguides and the in situ Observation of Adsorption Process of Dye Molecules onto Glass Surface, Hiroki Hotta; Fumio Okada; Atsushi Sakurazawa; Kiichi Sato; Kin-ichi Tsunoda, May 2012, BUNSEKI KAGAKU, 61, 5, 429, 433, Scientific journal
• Drug Response Assay System in a Microchip Using Human Hepatoma Cells, Yuki Tanaka; Kiichi Sato; Masayuki Yamato; Teruo Okano; Takehiko Kitamori, Mar. 2004, Analytical Sciences, 20, 3, 411, 413, Scientific journal

  DOI
• Micro/Nano Devices for Chemical Analysis., Tokeshi Manabu;Sato Kiichi, 09 Sep. 2016, Micromachines, 7, 9, Scientific journal

  DOI
• Detection in Immunoassays, SATO Kiichi, 2020, Analytical Sciences, 36, 12, 1433, 1434, Scientific journal
• New Determination Methods of Halides and Cyanide Ions by Electrospray Ionization Mass Spectrometry Based on Ternary Complex Formation, Hotta, Hiroki;Kurihara, Shota;Johno, Keita;Kitazume, Masaomi;Sato, Kiichi;Tsunoda, Kin-ichi, 2011, ANALYTICAL SCIENCES, 27, 9, 953, 956
• Micro Total Bioassay System for Oral Drugs: Evaluation of Gastrointestinal Degradation, Intestinal Absorption, Hepatic Metabolism, and Bioactivity, Imura, Yuki;Yoshimura, Etsuro;Sato, Kiichi, 2012, ANALYTICAL SCIENCES, 28, 3, 197, 199
• Development of a Linear Dichroism Measurement System Using Slab Optical Waveguides and the in situ Observation of Adsorption Process of Dye Molecules onto Glass Surface, Hotta, Hiroki;Okada, Fumio;Sakurazawa, Atsushi;Sato, Kiichi;Tsunoda, Kin-ichi, 2012, BUNSEKI KAGAKU, 61, 5, 429, 433
• A Solid-Cladding/Liquid-Core/Liquid-Cladding Sandwich Optical Waveguide for the Study of Dynamic Extraction of Dye by Ionic Liquid BmimPF(6), Chen, Xuwei;Sakurazawa, Atsushi;Sato, Kiichi;Tsunoda, Kin-Ichi;Wang, Jianhua, 2012, APPLIED SPECTROSCOPY, 66, 7, 798, 802

  DOI
• Microcirculation System with a Dialysis Part for Bioassays Evaluating Anticancer Activity and Retention, Imura, Yuki;Yoshimura, Etsuro;Sato, Kiichi, 2013, ANALYTICAL CHEMISTRY, 85, 3, 1683, 1688

  DOI
• Bead-based padlock rolling circle amplification for single DNA molecule counting, Sato, Kae;Ishii, Reina;Sasaki, Naoki;Sato, Kiichi;Nilsson, Mats, 2013, ANALYTICAL BIOCHEMISTRY, 437, 1, 43, 45

  DOI
• Characterization of Liquid-Core/Liquid-Cladding Optical Waveguides of a Sodium Chloride Solution/Water System by Computational Fluid Dynamics, Kamiyama, Junya;Asanuma, Soto;Murata, Hiroyasu;Sugii, Yasuhiko;Hotta, Hiroki;Sato, Kiichi;Tsunoda, Kin-ichi, 2013, APPLIED SPECTROSCOPY, 67, 12, 1479, 1484

  DOI
• Microfluidics for nano-pathophysiology, Sato, Kae;Sasaki, Naoki;Svahn, Helene Andersson;Sato, Kiichi, 2014, ADVANCED DRUG DELIVERY REVIEWS, 74, 115, 121

  DOI
• Microfluidics-based in situ Padlock/Rolling Circle Amplification System for Counting Single DNA Molecules in a Cell, Kuroda, Arisa;Ishigaki, Yuri;Nilsson, Mats;Sato, Kiichi;Sato, Kae, 2014, ANALYTICAL SCIENCES, 30, 12, 1107, 1112
• Microcirculation-on-a-Chip: A Microfluidic Platform for Assaying Blood- and Lymphatic-Vessel Permeability, Sato, Miwa;Sasaki, Naoki;Ato, Manabu;Hirakawa, Satoshi;Sato, Kiichi;Sato, Kae, 2015, PLOS ONE, 10, 9

  DOI
• Patterned Co-culture of Live Cells on a Microchip by Photocrosslinking with Benzophenone, Sato, Kiichi;Kikuchi, Sayaka;Yoshida, Eri;Ishh, Reina;Sasaki, Naoki;Tsunoda, Kin-ichi;Sato, Kae, 2016, ANALYTICAL SCIENCES, 32, 1, 113, 116
• A novel method for determination of inorganic oxyanions by electrospray ionization mass spectrometry using dehydration reactions, Kojima, Hirochika;Kurihara, Shota;Watanabe, Yoshito;Iwamaru, Koki;Sato, Kiichi;Tsunoda, Kin-ichi;Hotta, Hiroki, 2016, JOURNAL OF MASS SPECTROMETRY, 51, 2, 123, 131

  DOI
• Micro/Nano Devices for Chemical Analysis, Tokeshi, Manabu;Sato, Kiichi, 2016, MICROMACHINES, 7, 9

  DOI
• Development of a Multichannel Dialysis Microchip for Bioassay of Drug Efficacy and Retention, Sakuta, Yu;Tsunoda, Kin-ichi;Sato, Kiichi, 2017, ANALYTICAL SCIENCES, 33, 3, 391, 394

  DOI
• Development of Tetrahydrofuran/Water Optical Waveguide and Its Application to the Observation of Extraction Behavior of 1-Anilino-8-naphtalene Sulfonate at the Tetrahydrofuran/Water Interface, Takiguchi, Hiromi;Asanuma, Soto;Kamiyama, Junya;Murata, Hiroyasu;Hasegawa, Yuki;Yoshizawa, Satoshi;Hotta, Hiroki;Odake, Tamao;Umemura, Tomonari;Sato, Kiichi;Tsunoda, Kin-ichi, 2017, ANALYTICAL SCIENCES, 33, 4, 449, 455

  DOI
• Recent Progress in the Development of Microfluidic Vascular Models, Sato, Kae;Sato, Kiichi, 2018, ANALYTICAL SCIENCES, 34, 7, 755, 764
• Development of a Microfluidic System Comprising Dialysis and Secretion Components for a Bioassay of Renal Clearance, Sakuta, Yu;Takehara, Issey;Tsunoda, Kin-ichi;Sato, Kiichi, 2018, ANALYTICAL SCIENCES, 34, 9, 1073, 1078
• A Liquid-core Liquid-cladding Optical Waveguide Based on Thermal Gradients across the Laminar Flow of Water in Capillary Tubing, Nakamura, Manami;Murata, Hiroyasu;Sato, Kiichi;Tsunoda, Kin-ichi, 2019, ANALYTICAL SCIENCES, 35, 2, 215, 218
• Adsorption Behavior of Curcumin onto Cetyltrimethylammonium Chloride Reverse Micelles Immobilized on a Glass Surface As Studied by Polarized Visible Attenuated Total Reflection Spectrometry with a Glass Slab Optical Waveguide, Nishiwaki, Takuya;Sato, Kiichi;Tsunoda, Kin-ichi;Horiuchi, Hiroaki;Fujiwara, Terufumi, 2019, ANALYTICAL SCIENCES, 35, 4, 465, 469
• New Determination Methods of Halides and Cyanide Ions by Electrospray Ionization Mass Spectrometry Based on Ternary Complex Formation, HOTTA Hiroki;KURIHARA Shota;JOHNO Keita;KITAZUME Masaomi;SATO Kiichi;TSUNODA Kin-Ichi, Sep. 2011, Analytical Sciences, 27, 9, 953, 956
• Development of a Linear Dichroism Measurement System Using Slab Optical Waveguides and the in situ Observation of Adsorption Process of Dye Molecules onto Glass Surface, HOTTA Hiroki;OKADA Fumio;SAKURAZAWA Atsushi;SATO Kiichi;TSUNODA Kin-ichi, 2012, BUNSEKI KAGAKU, 61, 5, 429, 433

  DOI
• New Determination Methods of Halides and Cyanide Ions by Electrospray Ionization Mass Spectrometry Based on Ternary Complex Formation, HOTTA Hiroki;KURIHARA Shota;JOHNO Keita;KITAZUME Masaomi;SATO Kiichi;TSUNODA Kin-Ichi, 2011, Analytical Sciences, 27, 9
• Micro Total Bioassay System for Oral Drugs: Evaluation of Gastrointestinal Degradation, Intestinal Absorption, Hepatic Metabolism, and Bioactivity, IMURA Yuki;YOSHIMURA Etsuro;SATO Kiichi, 2012, Analytical Sciences, 28, 3, 197, 197
• Microfluidics-based in situ Padlock/Rolling Circle Amplification System for Counting Single DNA Molecules in a Cell, KURODA Arisa;ISHIGAKI Yuri;NILSSON Mats;SATO Kiichi;SATO Kae, 2014, Analytical Sciences, 30, 12, 1107, 1112
• Patterned Co-culture of Live Cells on a Microchip by Photocrosslinking with Benzophenone, SATO Kiichi;KIKUCHI Sayaka;YOSHIDA Eri;ISHII Reina;SASAKI Naoki;TSUNODA Kin-ichi;SATO Kae, 2016, Analytical Sciences, 32, 1, 113, 116
• Development of a Multichannel Dialysis Microchip for Bioassay of Drug Efficacy and Retention, SAKUTA Yu;TSUNODA Kin-ichi;SATO Kiichi, 2017, Analytical Sciences, 33, 3, 391, 394
• Development of Tetrahydrofuran/Water Optical Waveguide and Its Application to the Observation of Extraction Behavior of 1-Anilino-8-naphtalene Sulfonate at the Tetrahydrofuran/Water Interface, TAKIGUCHI Hiromi;SATO Kiichi;TSUNODA Kin-ichi;ASANUMA Soto;KAMIYAMA Junya;MURATA Hiroyasu;HASEGAWA Yuki;YOSHIZAWA Satoshi;HOTTA Hiroki;ODAKE Tamao;UMEMURA Tomonari, 2017, Analytical Sciences, 33, 4, 449, 455
• Recent Progress in the Development of Microfluidic Vascular Models, SATO Kae;SATO Kiichi, 2018, Analytical Sciences, 34, 7, 755, 764
• Development of a Microfluidic System Comprising Dialysis and Secretion Components for a Bioassay of Renal Clearance, SAKUTA Yu;TAKEHARA Issey;TSUNODA Kin-ichi;SATO Kiichi, 2018, Analytical Sciences, 34, 9, 1073, 1078
• A Liquid-core Liquid-cladding Optical Waveguide Based on Thermal Gradients across the Laminar Flow of Water in Capillary Tubing, NAKAMURA Manami;MURATA Hiroyasu;SATO Kiichi;TSUNODA Kin-ichi, 2019, Analytical Sciences, 35, 2, 215, 218
• Adsorption Behavior of Curcumin onto Cetyltrimethylammonium Chloride Reverse Micelles Immobilized on a Glass Surface As Studied by Polarized Visible Attenuated Total Reflection Spectrometry with a Glass Slab Optical Waveguide, NISHIWAKI Takuya;SATO Kiichi;TSUNODA Kin-ichi;HORIUCHI Hiroaki;FUJIWARA Terufumi, 2019, Analytical Sciences, 35, 4, 465, 469
• マイクロデバイスを用いたバイオアッセイのための血管モデルの開発, ;;, Aug. 2016, 65年会, 155
• 薬剤の吸収率測定のためのマイクロ消化吸収モデルの開発, ;;;, Aug. 2016, 65年会, 155
• 毛細血管網を持つマイクロ三次元組織構築の基礎検討, ;;, Aug. 2016, 65年会, 159
• 血液脳関門マイクロモデル開発のための共培養法と透過性試験法の開発, ;;, Aug. 2017, 66年会, 109
• バイオアッセイのための生体模倣マイクロデバイスの開発, 佐藤 記一, Aug. 2017, 66年会, 178
• 赤城大沼における放射性セシウムの底質と湖水間の分配係数の測定, ;;;;;;;;;;;, Aug. 2017, 66年会, 277
• ニトロソアミン生成反応を利用するESI-MSによる亜硝酸イオンの定量法の開発, ;;, Aug. 2017, 66年会, 294
• マイクロ血管モデル開発をめざした中空状ハイドロゲル中での細胞培養, ;;, Aug. 2017, 66年会, 298
• 糸球体および尿細管の機能を集積化したマイクロ腎モデルの構築, ;;;;;, Aug. 2017, 66年会, 299
• マイクロ血管モデルのための中空状ハイドロゲル内での血管構成細胞の共培養, ;;, Aug. 2018, 67年会, 110
• 薬剤の排泄試験のためのマイクロ腎モデル開発に向けた尿細管部位の検討, ;;;;, Aug. 2018, 67年会, 110
• マイクロ糸球体モデルの開発とバイオアッセイへの応用, ;;;, Aug. 2018, 67年会, 111
• レクチン固定化マイクロチップを用いた糖タンパク質の電気泳動分析の検討, ;;, Aug. 2018, 67年会, 255
• A solid-cladding/liquid-core/liquid-cladding sandwich optical waveguide for the study of dynamic extraction of dye by ionic liquid BmimPF6., Chen Xuwei;Sakurazawa Atsushi;Sato Kiichi;Tsunoda Kin-Ichi;Wang Jianhua, Applied spectroscopy, 66, 7

  DOI
• Microfluidics for nano-pathophysiology., Sato Kae;Sasaki Naoki;Svahn Helene Andersson;Sato Kiichi, 31 Aug. 2013, Advanced drug delivery reviews, 74

  DOI
• Characterization of liquid-core/liquid-cladding optical waveguides of a sodium chloride solution/water system by computational fluid dynamics., Kamiyama Junya;Asanuma Soto;Murata Hiroyasu;Sugii Yasuhiko;Hotta Hiroki;Sato Kiichi;Tsunoda Kin-ichi, Applied spectroscopy, 67, 12

  DOI
• Microcirculation-on-a-Chip: A Microfluidic Platform for Assaying Blood- and Lymphatic-Vessel Permeability., Sato Miwa;Sasaki Naoki;Ato Manabu;Hirakawa Satoshi;Sato Kiichi;Sato Kae, 02 Sep. 2015, PloS one, 10, 9

  DOI
• Patterned Co-culture of Live Cells on a Microchip by Photocrosslinking with Benzophenone., Sato Kiichi;Kikuchi Sayaka;Yoshida Eri;Ishii Reina;Sasaki Naoki;Tsunoda Kin-ichi;Sato Kae, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 32, 1

  DOI
• A novel method for determination of inorganic oxyanions by electrospray ionization mass spectrometry using dehydration reactions., Kojima Hirochika;Kurihara Shota;Watanabe Yoshito;Iwamaru Koki;Sato Kiichi;Tsunoda Kin-Ichi;Hotta Hiroki, Journal of mass spectrometry : JMS, 51, 2

  DOI
• Development of a Multichannel Dialysis Microchip for Bioassay of Drug Efficacy and Retention., Sakuta Yu;Tsunoda Kin-Ichi;Sato Kiichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 33, 3

  DOI
• Development of a Microfluidic System Comprising Dialysis and Secretion Components for a Bioassay of Renal Clearance., Sakuta Yu;Takehara Issey;Tsunoda Kin-Ichi;Sato Kiichi, 25 May 2018, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 34, 9

  DOI
• Recent Progress in the Development of Microfluidic Vascular Models., Sato Kae;Sato Kiichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 34, 7

  DOI
• A Liquid-core Liquid-cladding Optical Waveguide Based on Thermal Gradients across the Laminar Flow of Water in Capillary Tubing., Nakamura Manami;Murata Hiroyasu;Sato Kiichi;Tsunoda Kin-Ichi, 14 Sep. 2018, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 35, 2

  DOI
• Adsorption Behavior of Curcumin onto Cetyltrimethylammonium Chloride Reverse Micelles Immobilized on a Glass Surface As Studied by Polarized Visible Attenuated Total Reflection Spectrometry with a Glass Slab Optical Waveguide., Nishiwaki Takuya;Sato Kiichi;Tsunoda Kin-Ichi;Horiuchi Hiroaki;Fujiwara Terufumi, 21 Dec. 2018, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 35, 4

  DOI
• Micropatterning Method for Porous Materials Using the Difference of the Glass Transition Temperature between Exposed and Unexposed Areas of a Thick-Photoresist, Ueno, Hidetaka;Sato, Kiichi;Yamada, Kou;Suzuki, Takaaki, 2020, MICROMACHINES, 11, 1

  DOI
• Detection in Immunoassays, Sato, Kiichi, 2020, ANALYTICAL SCIENCES, 36, 12, 1433, 1434

  DOI
• 薬剤移行性アッセイのための毛細血管網を有するマイクロ三次元脂肪組織の構築, ;, Aug. 2019, 68年会, 94
• マイクロ消化吸収モデルを用いた薬剤の吸収率測定, ;, Aug. 2019, 68年会, 95
• 抗体固定化ビーズを用いたマイクロチップ電気泳動によるタンパク質の分析, ;, Aug. 2019, 68年会, 387
• 伸展負荷細胞培養デバイスの構築と血管平滑筋細胞の配向制御, ;;, Aug. 2019, 68年会, 407
• Detection in Immunoassays., Sato Kiichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 36, 12

  DOI
• Micropatterning Method for Porous Materials Using the Difference of the Glass Transition Temperature between Exposed and Unexposed Areas of a Thick-Photoresist., Ueno Hidetaka;Sato Kiichi;Yamada Kou;Suzuki Takaaki, 31 Dec. 2019, Micromachines, 11, 1

  DOI
• Angiogenesis Evaluation Techniques Developed by Using Microfluidic Devices, Sato, Kae;Sato, Kiichi, 2023, BUNSEKI KAGAKU, 72, 3, 73, 78
• Development of supercooling preservation method of adherent cultured human cells, Hikichi, Maaya;Shimizu, Takuya;Sato, Kiichi, 2023, JOURNAL OF BIOCHEMISTRY

  DOI
• マイクロ尿細管モデルの開発に向けたハイドロゲル中での三次元組織の構築, ;, Sep. 2020, 69年会, 137
• 共培養スフェロイドを用いたマイクロ肝臓モデルの開発, ;, Sep. 2020, 69年会, 138
• ヒト糸球体内皮細胞株およびヒト蛸足細胞株を用いたマイクロ糸球体モデルの開発と糸球体透過試験への応用, ;;, Sep. 2020, 69年会, 139
• 三次元毛細血管網構築のためのマイクロデバイスの設計と共培養条件の検討, ;, Sep. 2020, 69年会, 140
• 3次元マイクロ糸球体モデルの開発とその評価, ;;, Sep. 2020, 69年会, 141
• 免疫分析チップ, 佐藤記一, 2000, Medical Technology, 28, 540, 541
• イムノアッセイシステムノのマイクロチップへの集積化, 佐藤記一, 2000, 44, 2, 73
• マイクロ分析システム, SATO K.;HISAMOTO H.;TOKESHI M.;KIMURA H.;KITAMORI T., Oct. 2001, 15, 10, 24, 30
• マイクロチップを用いたイムノアッセイシステム, ;;, Jul. 2003, 61, 7, 449, 454
• マイクロチップイムノアッセイシステム, SATO Kiichi;KITAMORI Takehiko, Nov. 2001, 12, 4, 217, 226
• Bio-analytical systems using microchip technologies, SATO Kiichi;KITAMORI Takehiko, 2004, Nippon Nōgeikagaku Kaishi, 78, 2, 125, 127

  DOI
• イムノアッセイシステムのマイクロチップへの集積化, ;;, Jun. 2000, 44, 2, 73, 77
• Stress-free Cell Culture inside Microchip, TANAKA Yuki;SATO Kiichi;KITAMORI Takehiko, 2004, Kobunshi, 53, 11, 872, 875

  DOI
• Novel Experimental Systems for Biochemical Researches Using a Microchip, SATO Kiichi;YOSHIMURA Etsuro, 2005, KAGAKU TO SEIBUTSU, 43, 11, 712, 718

  DOI
• マイクロチップを用いた細胞実験システム, SATO Kiichi;KITAMORI Takehiko, 2006, Electrochemistry, 74, 11, 895, 899

  DOI
• マイクロチップ分析システムを用いた超微量物質の超高感度・高速分析, ;;, 2001, 12, 1, 85, 90
• 特別講演 液相微小空間におけるバイオミメティック分子環境の創成と高性能免疫分析システムの集積化, ;;, May 2000, 21, 2, 93, 96
• Single Non-fluorescent Molecule Measurement by Thermal Lens Microscope, SATO Kiichi;TOKESHI Manabu;HIBARA Akihide;KITAMORI Takehiko, 2000, Seibutsu Butsuri, 40, 4, 262, 265

  DOI
• W20-(4) 分子挙動の生体類似ミクロサイズ効果と超高性能化学システムの集積化, ;, 2000, The Reference Collection of Annual Meeting, 2000.5, 0, 613, 615

  DOI
• High Performance Micro Diagnosis Devices( Cooperation of Medicine and Engineering), Sato K.;, Feb. 2003, JAPANES JOURNAL OF MEDICAL INSTRUMENTATION, 73, 2, 58, 64

  DOI
• 脱窒光合成細菌の生産する銅酵素、亜酸化窒素還元酵素の精製とその性質 : 酵素, ;;, Mar. 1996, Journal of the Agricultural Chemical Society of Japan, 70, 0, 158
• On-site solid phase extraction method for endocrine disrupters, UJIIE Kumiko;HANDO Rie;SATO Kiichi;ABO Mitsuru;OKUBO Akira, 2004, BUNSEKI KAGAKU, 53, 12, 1463, 1467

  DOI
• Highly Sensitive Detection of Non-Labeled Peptides Using UV Excitation Thermal Lens Microscope/Liquid Chromatography, HIKI Shinichiro;TOKESHI Manabu;KAKUTA Masaya;MAWATARI Kazuma;KIKUTANI Yoshikuni;SATO Kiichi;HIBARA Akihide;SHIMURA Kiyohito;UCHIDA Naoyuki;KITAMORI Takehiko, 2007, BUNSEKI KAGAKU, 56, 1, 1, 7

  DOI
• マイクロチップを用いた細胞内酵素活性測定システム(C・物理化学,分析化学,放射線学), SATO KIICHI, Nov. 2002, Farumashia, 38, 11, 1101, 1102

  DOI
• Integration of immunoassay system into a microchip., Sato Kiichi;Tokeshi Manabu;Kimura Hiroko;Kitamori Takehiko, 2000, SEIBUTSU BUTSURI KAGAKU, 44, 2, 73, 77

  DOI
• マイクロ化学デバイスは医療を進化させるか？　　マイクロ分析システム, SATO K;HISAMOTO H;TOKESHI M;KIMURA H;KITAMORI T, 2001, BME, 15, 10, 24, 30

  DOI
• 化学反応場としてのマイクロ化学チップ--マイクロ化学プラントへの技術と展望, ;;, 2001, 34, 4, 42, 49
• イムノアッセイマイクロチップの開発, ;;, Jan. 2001, 18, 1, 27, 33
• マイクロバイオシステム, ;;, May 2005, 50, 5, 329, 334
• 分析システムのマイクロチップへの集積化, ;;, Jul. 2002, 12, 1, 2, 5
• マイクロシステムと細胞工学の融合によるマイクロ人体モデルの開発, 佐藤 記一, 2017, 1, 8
• マイクロチップ技術のバイオサイエンスへの応用, ;, Aug. 2003, 48, 11, 1435,1595, 1601
• 生化学分析システムの集積化, 佐藤 記一, Sep. 2003, 32, 16, 29, 36
• Microchip-based immunoassay system with branching multichannels for simultaneous determination of interferon-gamma., Sato Kiichi;Yamanaka Maho;Takahashi Hiroko;Tokeshi Manabu;Kimura Hiroko;Kitamori Takehiko, Electrophoresis, 23, 5

  DOI
• Single-cell analysis by a scanning thermal lens microscope with a microchip: direct monitoring of cytochrome c distribution during apoptosis process., Tamaki Eiichiro;Sato Kiichi;Tokeshi Manabu;Sato Kae;Aihara Makoto;Kitamori Takehiko, Analytical chemistry, 74, 7

  DOI
• Continuous-flow chemical processing on a microchip by combining microunit operations and a multiphase flow network., Tokeshi Manabu;Minagawa Tomoko;Uchiyama Kenji;Hibara Akihide;Sato Kiichi;Hisamoto Hideaki;Kitamori Takehiko, Analytical chemistry, 74, 7

  DOI
• Integration of chemical and biochemical analysis systems into a glass microchip., Sato Kiichi;Hibara Akihide;Tokeshi Manabu;Hisamoto Hideaki;Kitamori Takehiko, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 19, 1

  DOI
• Microchip-based chemical and biochemical analysis systems., Sato Kiichi;Hibara Akihide;Tokeshi Manabu;Hisamoto Hideaki;Kitamori Takehiko, Advanced drug delivery reviews, 55, 3

  DOI
• An interface chip connection between capillary electrophoresis and thermal lens microscope., Uchiyama Kenji;Hibara Akihide;Sato Kiichi;Hisamoto Hideaki;Tokeshi Manabu;Kitamori Takehiko, Electrophoresis, 24, 1-2

  DOI
• [Application of microchip technology to bioscience]., Sato Kiichi;Kitamori Takehiko, Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 48, 11 Suppl
• Chemical processing on microchips for analysis, synthesis, and bioassay., Tokeshi Manabu;Kikutani Yoshikuni;Hibara Akihide;Sato Kiichi;Hisamoto Hideaki;Kitamori Takehiko, Electrophoresis, 24, 21

  DOI
• Drug response assay system in a microchip using human hepatoma cells., Tanaka Yuki;Sato Kiichi;Yamato Masayuki;Okano Teruo;Kitamori Takehiko, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 20, 3

  DOI
• Integration of an immunoassay system into a microchip for high-throughput assay., Sato Kiichi;Kitamori Takehiko, Journal of nanoscience and nanotechnology, 4, 6

  DOI
• Microchip-based enzyme-linked immunosorbent assay (microELISA) system with thermal lens detection., Sato Kiichi;Yamanaka Maho;Hagino Tomokazu;Tokeshi Manabu;Kimura Hiroko;Kitamori Takehiko, Nov. 2004, Lab on a chip, 4, 6

  DOI
• Separation of 2-aminobenzoic acid-derivatized glycosaminoglycans and asparagine-linked glycans by capillary electrophoresis., Sato Kae;Sato Kiichi;Okubo Akira;Yamazaki Sunao, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 21, 1

  DOI
• Development of a microchip-based bioassay system using cultured cells., Goto Makiko;Sato Kiichi;Murakami Atsushi;Tokeshi Manabu;Kitamori Takehiko, Analytical chemistry, 77, 7

  DOI
• Microbioassay system for antiallergic drug screening using suspension cells retaining in a poly(dimethylsiloxane) microfluidic device., Tokuyama Takahito;Fujii Shin-Ichiro;Sato Kiichi;Abo Mitsuru;Okubo Akira, Analytical chemistry, 77, 10

  DOI
• Role of trehalose synthesis pathways in salt tolerance mechanism of Rhodobacter sphaeroides f. sp. denitrificans IL106., Makihara Fumihiro;Tsuzuki Minoru;Sato Kiichi;Masuda Shinji;Nagashima Kenji V P;Abo Mitsuru;Okubo Akira, Nov. 2005, Archives of microbiology, 184, 1

  DOI
• Microbioassay system for an anti-cancer agent test using animal cells on a microfluidic gradient mixer., Fujii Shin-ichiro;Uematsu Munehisa;Yabuki Soichi;Abo Mitsuru;Yoshimura Etsuro;Sato Kiichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 22, 1

  DOI
• Monitoring of intercellular messengers released from neuron networks cultured in a microchip., Sato Kiichi;Egami Akiko;Odake Tamao;Tokeshi Manabu;Aihara Makoto;Kitamori Takehiko, Jul. 2005, Journal of chromatography. A, 1111, 2

  DOI
• Cell culture and life support system for microbioreactor and bioassay., Tanaka Yuki;Sato Kiichi;Yamato Masayuki;Okano Teruo;Kitamori Takehiko, Jul. 2005, Journal of chromatography. A, 1111, 2

  DOI
• Construction of a dimethyl sulfoxide sensor based on dimethyl sulfoxide reductase immobilized on a au film electrode., Yonehara Hiroki;Fujii Shin-Ichiro;Sato Kiichi;Abo Mitsuru;Yoshimura Etsuro, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 23, 1

  DOI
• Nanometer-scale patterned surfaces for control of cell adhesion., Goto Makiko;Tsukahara Takehiko;Sato Kae;Konno Tomohiro;Ishihara Kazuhiko;Sato Kiichi;Kitamori Takehiko, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 23, 3

  DOI
• Development of an analytical HPLC system for the specific detection of 2-isopropylmalic acid in yeast growth medium., Ito Kyoko;Sato Kiichi;Abo Mitsuru;Yoshimura Etsuro, Feb. 2007, Analytical biochemistry, 364, 2

  DOI
• Micro- and nanometer-scale patterned surface in a microchannel for cell culture in microfluidic devices., Goto Makiko;Tsukahara Takehiko;Sato Kiichi;Kitamori Takehiko, Jul. 2007, Analytical and bioanalytical chemistry, 390, 3

  DOI
• Development of fundamental technologies for micro bioreactors., Sato Kiichi;Kitamori Takehiko, Advances in biochemical engineering/biotechnology, 119

  DOI
• A microfluidic system to evaluate intestinal absorption., Imura Yuki;Asano Yasuyuki;Sato Kiichi;Yoshimura Etsuro, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 25, 12

  DOI
• A high-peak-power UV picosecond-pulse light source based on a gain-switched 1.55 microm laser diode and its application to time-resolved spectroscopy of blue-violet materials., Sato Aya;Kono Shunsuke;Saito Kyosuke;Sato Ki-ichi;Yokoyama Hiroyuki, Optics express, 18, 3

  DOI
• Cell culture and motility study on a polymer surface with a nanometer-scaled stripe structure., Sakamoto Yasuyuki;Sato Kiichi;Abo Mitsuru;Tsukahara Takehiko;Kitamori Takehiko;Abe Keiko;Yoshimura Etsuro, Mar. 2010, Bioscience, biotechnology, and biochemistry, 74, 3

  DOI
• Microbead-based rolling circle amplification in a microchip for sensitive DNA detection., Sato Kae;Tachihara Atsuki;Renberg Björn;Mawatari Kazuma;Sato Kiichi;Tanaka Yuki;Jarvius Jonas;Nilsson Mats;Kitamori Takehiko, Mar. 2010, Lab on a chip, 10, 10

  DOI
• Micro total bioassay system for ingested substances: assessment of intestinal absorption, hepatic metabolism, and bioactivity., Imura Yuki;Sato Kiichi;Yoshimura Etsuro, Nov. 2010, Analytical chemistry, 82, 24

  DOI
• Salt stress-induced changes in the transcriptome, compatible solutes, and membrane lipids in the facultatively phototrophic bacterium Rhodobacter sphaeroides., Tsuzuki Minoru;Moskvin Oleg V;Kuribayashi Masayuki;Sato Kiichi;Retamal Susana;Abo Mitsuru;Zeilstra-Ryalls Jill;Gomelsky Mark, Sep. 2011, Applied and environmental microbiology, 77, 21

  DOI
• New determination methods of halides and cyanide ions by electrospray ionization mass spectrometry based on ternary complex formation., Hotta Hiroki;Kurihara Shota;Johno Keita;Kitazume Masaomi;Sato Kiichi;Tsunoda Kin-Ichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 27, 9

  DOI
• Micro total bioassay system for oral drugs: evaluation of gastrointestinal degradation, intestinal absorption, hepatic metabolism, and bioactivity., Imura Yuki;Yoshimura Etsuro;Sato Kiichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 28, 3

  DOI
• Microcirculation system with a dialysis part for bioassays evaluating anticancer activity and retention., Imura Yuki;Yoshimura Etsuro;Sato Kiichi, Jan. 2013, Analytical chemistry, 85, 3

  DOI
• Bead-based padlock rolling circle amplification for single DNA molecule counting., Sato Kae;Ishii Reina;Sasaki Naoki;Sato Kiichi;Nilsson Mats, Mar. 2013, Analytical biochemistry, 437, 1

  DOI
• Microfluidics-based in situ padlock/rolling circle amplification system for counting single DNA molecules in a cell., Kuroda Arisa;Ishigaki Yuri;Nilsson Mats;Sato Kiichi;Sato Kae, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 30, 12

  DOI
• Development of Tetrahydrofuran/Water Optical Waveguide and Its Application to the Observation of Extraction Behavior of 1-Anilino-8-naphtalene Sulfonate at the Tetrahydrofuran/Water Interface., Takiguchi Hiromi;Asanuma Soto;Kamiyama Junya;Murata Hiroyasu;Hasegawa Yuki;Yoshizawa Satoshi;Hotta Hiroki;Odake Tamao;Umemura Tomonari;Sato Kiichi;Tsunoda Kin-Ichi, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 33, 4

  DOI
• 肝スフェロイドと血管網を有するマイクロ肝モデル構築とその機能評価, ;, Sep. 2022, 71年会, C1001
• 粘液層と乳酸菌をもつマイクロ腸管モデルの開発と機能評価, ;;, Sep. 2022, 71年会, C1002
• 正常および疾患マイクロ糸球体モデルの開発とその濾過機能評価, ;;;, Sep. 2022, 71年会, C1003
• バイオアッセイのためのマイクロ臓器モデルの開発, 佐藤 記一, Sep. 2022, 71年会, K3101C
• 類洞内皮細胞および肝星細胞との共培養によるマイクロ肝臓モデルの機能向上の試み, ;, Sep. 2023, 72年会, 3A4
• 酸素濃度を制御したマイクロ腸管モデル開発のための基礎検討, ;, Sep. 2023, 72年会, 2Y
• マイクロ尿細管モデルの開発とそのバリア機能および物質輸送機能の解析, ;, Sep. 2023, 72年会, 2Y
• 【バイオ分析の新潮流】経上皮電気抵抗測定のための簡便に作製できるマイクロ腸管モデルの開発, ;, Mar. 2024, 73, 3, 117
• 【バイオ分析の新潮流】経上皮電気抵抗測定のための簡便に作製できるマイクロ腸管モデルの開発, ;, Mar. 2024, 73, 3, 117
• 肝スフェロイドと血管網を有するマイクロ肝モデル構築とその機能評価, ;, Sep. 2022, 71年会, C1001
• 粘液層と乳酸菌をもつマイクロ腸管モデルの開発と機能評価, ;;, Sep. 2022, 71年会, C1002
• 正常および疾患マイクロ糸球体モデルの開発とその濾過機能評価, ;;;, Sep. 2022, 71年会, C1003
• バイオアッセイのためのマイクロ臓器モデルの開発, 佐藤 記一, Sep. 2022, 71年会, K3101C
• 類洞内皮細胞および肝星細胞との共培養によるマイクロ肝臓モデルの機能向上の試み, ;, Sep. 2023, 72年会, 3A4
• 酸素濃度を制御したマイクロ腸管モデル開発のための基礎検討, ;, Sep. 2023, 72年会, 2Y
• マイクロ尿細管モデルの開発とそのバリア機能および物質輸送機能の解析, ;, Sep. 2023, 72年会, 2Y

MISC

• マイクロチップ内酵素反応速度のサイズ依存性, 田中有希; SLYADNEV M; 佐藤記一; 渡慶次学; 金幸夫; 北森武彦, 19 Sep. 2001, 化学とマイクロシステム研究会講演要旨集, 4th, 41
• 培養細胞を用いたバイオマイクロリアクターの開発, 田中有希; 佐藤記一; 大和雅之; 岡野光夫; 北森武彦, 09 Sep. 2003, 日本分析化学会年会講演要旨集, 52nd, 134
• 疑似血管チップを用いた細胞のせん断応力応答計測システムの開発, 田中有希; 佐藤記一; 上村公一; 吉田謙一; 北森武彦, 2004, キャピラリー電気泳動シンポジウム講演要旨集, 24th, 68-69, 69
• 分析システムの集積化 (34)—マイクロチップ内での肝細胞培養と機能維持, 田中有希; 佐藤記一; 大和雅之; 岡野光夫; 北森武彦, 10 May 2003, 分析化学討論会講演要旨集, 64th, 101
• マイクロチップにおける細胞の生命と機能維持, 田中有希; 佐藤記一; 大和雅之; 岡野光夫; 北森武彦, 11 Apr. 2003, 化学とマイクロ・ナノシステム研究会講演要旨集, 7th, 76
• 分析システムの集積化 (31) 細胞を利用した高機能化学システムの構築, 田中有希; 佐藤記一; 大和雅之; 岡野光夫; 北森武彦, 05 Sep. 2002, 日本分析化学会年会講演要旨集, 51st, 236
• 分析システムの集積化 (27) マクロファージを用いたドラッグスクリーニングチップシステムの開発, 後藤真紀子; 安田奈美穂; 田中有希; 佐藤記一; 渡慶次学; 大久保明; 北森武彦, 10 May 2002, 分析化学討論会講演要旨集, 63rd, 24
• マイクロチップ中酵素反応の速度に関する考察, 田中有希; SLYADNEV M N; 佐藤記一; 渡慶次学; KIM H‐B; 北森武彦, 12 Dec. 2001, キャピラリー電気泳動シンポジウム講演要旨集, 21st, 83-84, 84
• マイクロチップ内培養細胞を用いたマイクロ抗がん剤アッセイの開発, 田中有希; 佐藤記一; 大和雅之; 岡野光夫; 北森武彦, 21 May 2004, 化学とマイクロ・ナノシステム研究会講演要旨集, 9th, 99
• マイクロチップ内酵素反応の速度論的考察, 田中有希; SLYADNEV M; 佐藤記一; 渡慶次学; 金幸夫; 北森武彦, 07 May 2001, 化学とマイクロシステム研究会講演要旨集, 3rd, 59
• 液/液光導波路を用いるAl³⁺‐ルモガリオン錯体の形成反応の観察, 村田博康; 神山潤也; 佐藤記一; 角田欣一; 杉井康彦, 05 Sep. 2012, 日本分析化学会年会講演要旨集, 61st, 380
• 液/液光導波路を用いるAl³⁺‐ルモガリオン錯体の生成反応の観察と濃度分布シミュレーション, 村田博康; 佐藤記一; 角田欣一; 杉井康彦, 27 Aug. 2013, 日本分析化学会年会講演要旨集, 62nd, 74
• 創薬のためのマイクロ人体モデルの開発, 佐藤記一, 2015, 21, 2, 8-11.
• マイクロチップ内ビーズ上RCA法による,単一DNA分子検出法の開発, 立原淳貴; 佐藤香枝; 佐藤記一; 田中有希; JARVIUS Jonas; NILSSON Mats; 北森武彦, 12 Mar. 2008, 日本化学会講演予稿集, 88th, 1, 407
• Development of in vitro blood vessel microchip system, SATO KAE; KIKUKAWA YUJI; TANAKA YO; TANAKA YUKI; SATO KIICHI; KITAMORI TAKEHIKO, 13 Mar. 2006, 日本化学会講演予稿集, 86th, 1, 495
• Stress-free Cell Culture inside Microchip, TANAKA Yuki; SATO Kiichi; KITAMORI Takehiko, 01 Nov. 2004, Kobunshi, 53, 11, 872, 875

  DOI
• The maintenance of hepatocyte functions inside microchips, TANAKA YUKI; SATO KIICHI; YAMATO MASAYUKI; OKANO MITSUO; KITAMORI TAKEHIKO, 11 Mar. 2004, 日本化学会講演予稿集, 84th, 1, 11
• Multichannel Micro ELISA System, Kiichi Sato; Maho Yamanaka; Manabu Tokeshi; Keisuke Morishima; Takehiko Kitamori, 2003, Proceedings of the Micro Total Analysis Systems,Squaw Valley, USA, (2003)., 781, 784
• Microchip-Based Enzyme-Linked Immunosorbent Assay (ELISA) System, Kiichi Sato; Maho Yamanaka; Manabu Tokeshi; Keisuke Morishima; Takehiko Kitamori, 2002, Proceedings of the Micro Total Analysis Systems,Nara, Japan, (2002)., 311, 312

Books etc

• 食品素材のナノ加工を支える技術, 2013
• バイオチップの基礎と応用, 2015
• マイクロ流体分析, Joint work, Oct. 2020, viii, 139p, 図版 [4] p, ISBN: 9784320044593
• 臓器チップの技術と開発動向, Contributor, Apr. 2018, ix, 293p, ISBN: 9784781313252
• 再生医療・創薬のための3次元細胞培養技術, Contributor, Apr. 2018, vii, 203p,, ISBN: 9784781313306