論文

  1. Tomoko Sakai*, Junichi Hata, Yuta Shintaku, Hiroki Ohta, Kazumi Sogabe, Susumu Mori, Takako Miyabe-Nishiwaki, Hirotaka James Okano, Yuzuru Hamada, Toshiyuki Hirabayashi, Takafumi Minamimoto, Norihiro Sadato, Hideyuki Okano, Kenichi Oishi. The Japan Monkey Centre Primates Brain Imaging Repository of high-resolution postmortem magnetic resonance imaging: the second phase of the archive of digital records. NeuroImage. 273, 120096: 1-17 (2023) doi:10.1016/j.neuroimage.2023.120096.(筆頭著者)(責任著者)
  2. The PRIMatE Data and Resource Exchange (PRIME-DRE) Global Collaboration Workshop and Consortium(Michael Milham, Chris Petkov, Pascal Belin, Suliann Ben Hamed, Henry Evrard, Damien Fair, Andrew Fox, Sean Froudist-Walsh, Takuya Hayashi, Sabine Kastner, Chris Klink, Piotr Majka, Rogier Mars, Adam Messinger, Colline Poirier, Charles Schroeder, Amir Shmuel, Afonso C Silva, Wim Vanduffel, David C Van Essen, Zheng Wang, Anna Wang Roe, Melanie Wilke, Ting Xu, Mohammad Hadi Aarabi, Ralph Adolphs, Aarit Ahuja, Ashkan Alvand, Celine Amiez, Joonas Autio, Reza Azadi, Eunha Baeg, Ruiliang Bai, Pinglei Bao, Michele Basso, Austin K Behel, Yvonne Bennett, Boris Bernhardt, Bharat Biswal, Sethu Boopathy, Susann Boretius, Elena Borra, Robert Boshra, Elizabeth Buffalo, Long Cao, James Cavanaugh, Celine Amiez, Gianfranco Chavez, Li Min Chen, Xiaodong Chen, Luqi Cheng, Francois Chouinard-Decorte, Simon Clavagnier, Justine Cléry, Stan J Colcombe, Bevil Conway, Melina Cordeau, Olivier Coulon, Yue Cui, Rakshit Dadarwal, Robert Dahnke, Theresa Desrochers, Li Deying, Kacie Dougherty, Hannah Doyle, Carly M Drzewiecki, Marianne Duyck, Wasana Ediri Arachchi, Catherine Elorette, Abdelhadi Essamlali, Alan Evans, Alfonso Fajardo, Hector Figueroa, Alexandre Franco, Guilherme Freches, Steve Frey, Patrick Friedrich, Atsushi Fujimoto, Masaki Fukunaga, Maeva Gacoin, Guillermo Gallardo, Lixia Gao, Yang Gao, Danny Garside, Eduardo A Garza-Villarreal, Maxime Gaudet-Trafit, Marzio Gerbella, Steven Giavasis, Daniel Glen, Ana Rita Ribeiro Gomes, Sandra Gonzalez Torrecilla, Alessandro Gozzi, Roberto Gulli, Suzanne Haber, Fadila Hadj-Bouziane, Satoka Hashimoto Fujimoto, Michael Hawrylycz, Quansheng He, Ye He, Katja Heuer, Bassem Hiba, Felix Hoffstaedter, Seok-Jun Hong, Yuki Hori, Yujie Hou, Amy Howard, Maria de La Iglesia-Vaya, Takuro Ikeda, Lucija Jankovic-Rapan, Jorge Jaramillo, Hank P Jedema, Hecheng Jin, Minqing Jiang, Benjamin Jung, Igor Kagan, Itamar Kahn, Gregory Kiar, Yuki Kikuchi, Bjørg Kilavik, Nobuyuki Kimura, Ulysse Klatzmann, Sze Chai Kwok, Hsin-Yi Lai, Franck Lamberton, Julia Lehman, Pengcheng Li, Xinhui Li, Xinjian Li, Zhifeng Liang, Conor Liston, Roger Little, Cirong Liu, Ning Liu, Xiaojin Liu, Xinyu Liu, Haidong Lu, Kep Kee Loh, Christopher Madan, Loïc Magrou, Daniel Margulies, Froesel Mathilda, Sheyla Mejia, Yao Meng, Ravi Menon, David Meun ier, AJ Mitchell, Anna Mitchell, Aidan Murphy, Towela Mvula, Michael Ortiz-Rios, Diego Emanuel Ortuzar Martinez, Marco Pagan, Nicola Palomero-Gallagher, Vikas Pareek, , Pierce Perkins, Fernanda Ponce, Mark Postans, Pierre Pouge, Meizhen Qian, Julian “Bene” Ramirez, Erika Raven, Isabel Restrepo, Samy Rima, Kathleen Rockland, Nadira Yusif Rodriguez, Elise Roger, Eduardo Rojas Hortelano, Marcello Rosa, Andrew Rossi, Peter Rudebeck, Brian Russ , Tomoko Sakai, Kadharbatcha S Saleem, Jerome Sallet, Stephen Sawiak, David Schaeffer, Caspar M. Schwiedrzik, Jakob Seidlitz, Julien Sein , Jitendra Sharma, Kelly Shen, Wei-an Sheng, Neo Sunhang Shi, Won Mok Shim, Luciano Simone, Nikoloz Sirmpilatze, Virginie Sivan, Xiaowei Song, Aaron Tanenbaum, Jordy Tasserie, Paul Taylor, Xiaoguang Tian, Roberto Toro, Lucas Trambaiolli, Nick Upright, Julien Vezoli, Sam Vickery, Julio Villalon, Xiaojie Wang, Yufan Wang, Alison R Weiss, Charlie Wilson, Ting-Yat Wong, Choong-Wan Woo, Bichan Wu, Du Xiao, Augix Guohua Xu, Dongrong Xu, Zhou Xufeng Essa Yacoub, Ningrong, Zhang Ying, Chihiro Yokoyama, Xiongjie Yu, Shasha Yue, Lu Yuheng, Xin Yumeng, Daniel Zaldivar, Shaomin Zhang, Yuguang, Zhanguang Zuo. Toward next-generation primate neuroscience: A collaboration-based strategic plan for integrative neuroimaging. Neuron. 110(1): 16-20 (2022) doi: 10.1016/j.neuron.2021.10.015.
  3. The PRIMatE Data Exchange (PRIME-DE) Global Collaboration Workshop and Consortium (Michael Milham, Christopher I. Petkov, Daniel S. Margulies, Charles E. Schroeder, Michele A. Basso, Pascal Belin, Damien A. Fair, Andrew Fox, Sabine Kastner, Rogier B. Mars, Adam Messinger, Colline Poirier, Wim Vanduffel, David C. Van Essen, Ashkan Alvand, Yannick Becker, Suliann Ben Hamed, Austin Benn, Clementine Bodin, Susann Boretius, Bastien Cagna, Olivier Coulon, Sherif Hamdy ElGohary, Henry Evrard, Stephanie J. Forkel, Patrick Friedrich, Sean Froudist-Walsh, Eduardo A. Garza-Villarreal, Yang Gao, Alessandro Gozzi, Antoine Grigis, Renee Hartig, Takuya Hayashi, Katja Heuer, Henrietta Howells, Dirk Jan Ardesch, Béchir Jarraya, Wendy Jarrett, Hank P. Jedema, Igor Kagan, Clare Kelly, Henry Kennedy, P. Christiaan Klink, Sze Chai Kwok, Robert Leech, Xiaojin Liu, Christopher Madan, Wasana Madushanka, Piotr Majka, Ann-Marie Mallon, Kevin Marche, Adrien Meguerditchian, Ravi S. Menon, Hugo Merchant, Anna Mitchell, Karl-Heinz Nenning, Aki Nikolaidis, Michael Ortiz Rios, Marco Pagani, Vikas Pareek, Mark Prescott, Emmanuel Procyk, Reza Rajimehr, Ioana-Sabina Rautu, Amir Raz, Anna Wang Roe, Román Rossi-Pool, Lea Roumazeilles, Tomoko Sakai, Jerome Sallet, Pamela Garcia Saldivar, Chika Sato, Stephen Sawiak, Marike Schiffer, Caspar M. Schwiedrzik, Jakob Seidlitz, Julien Sein, Zhi-ming Shen, Amir Shmuel, Afonso C. Silva, Luciano Simone, Nikoloz Sirmpilatze, Julia Sliwa, Jonathan Smallwood, Jordy Tasserie, Michel Thiebaut de Schotten, Roberto Toro, Regis Trapeau, Lynn Uhrig, Julien Vezoli, Zheng Wang, Sara Wells, Bella Williams, Ting Xu, Augix Guohua Xu, Essa Yacoub, Ming Zhan, Lei Ai, Céline Amiez, Fabien Balezeau, Mark G. Baxter, Erwin L.A. Blezer, Thomas Brochier, Aihua Chen, Paula L. Croxson, Christienne G. Damatac, Stanislas Dehaene, Stefan Everling, Lazar Fleysher, Winrich Freiwald, Timothy D. Griffiths, Carole Guedj, Fadila Hadj-Bouziane, Noam Harel, Bassem Hiba, Benjamin Jung, Bonhwang Koo1, Kevin N. Laland, David A. Leopold, Patrik Lindenfors, Martine Meunier, Kelvin Mok, John H. Morrison, Jennifer Nacef, Jamie Nagy, Mark Pinsk, Simon M. Reader, Pieter R. Roelfsema, David A. Rudko, Matthew F.S. Rushworth, Brian E. Russ, Michael Christoph Schmid, Elinor L. Sullivan, Alexander Thiele, Orlin S. Todorov, Doris Tsao, Leslie Ungerleider, Charles R.E. Wilson, Frank Q. Ye, Wilbert Zarco, Yong-di Zhou). Accelerating the Evolution of Nonhuman Primate Neuroimaging. Neuron. 105(4): 600-603(2020) doi: 10.1016/j.neuron.2019.12.023.
  4. Tomoko Sakai*, Junichi Hata, Hiroki Ohta, Yuta Shintaku, Naoto Kimura, Yuki Ogawa, Kazumi Sogabe, Susumu Mori, Hirotaka James Okano, Yuzuru Hamada, Shinsuke Shibata, Hideyuki Okano, Kenichi Oishi. The Japan Monkey Centre Primates Brain Imaging Repository for Comparative Neuroscience: an archive of digital records, including records for endangered species. Primates. 59(6): 553-570 (2018) doi: 10.1007/s10329-018-0694-3.(筆頭著者)(責任著者)

総説書・解説書

  1. 酒井朋子. 霊長類脳標本画像リポジトリを通して創造するマルチスピーシーズ脳科学の未来 岡野編 特集 革新脳と関連プロジェクトから見えてきた新しい脳科学. 生体の科学, 73(5): 410-411 医学書院(2022).
  1. Tomoko Sakai (2020, 5) Mapping the evolution and development of the primate brain by various neuroimaging techniques. The 53rd Japanese Society of Developmental Biologists/Asia-Pacific Developmental Biology Network Meeting, Kumamoto, Japan (invited Speaker)
  2. Tomoko Sakai(2019, 9) Mapping the Evolution and Development of the Primate Brain by Neuroimaging Techniques. Behavioral and Cognitive Neuroscience (Beacon) Seminar, Department of Experimental Psychology, Oxford University, Oxford, UK (invited Speaker)
  3. Tomoko Sakai (2017, 10) Development and evolution of human brain: insights from comparative anatomical MRI between chimpanzees and humans. Learning from Ape and other Nonhuman Animals: The LANA Conference, Atlanta, USA (keynote Speaker)
  4. Tomoko Sakai(2017, 1) Elucidation of evolutionary basis of human specific brain structure by computational anatomical approach. The JSPS Researcher Reception 2017, San Francisco, USA (invited Speaker)
  5. Tomoko Sakai (2016, 3) Mapping Evolution and Development of the Primate Brain by Neuroimaging Techniques. The University of Toyama International Research Symposium “How Human Evolved Supersize Brains-The Growth of the Brain-”, Toyama, Japan (invited Speaker)
  6. Tomoko Sakai(2015, 2) Brain development in chimpanzees: a combined MRI and Ultrasound study. Seminar of Department of Radiology, Johns Hopkins University School of Medicine, Baltimore, USA (invited Speaker)
  7. Tomoko Sakai (2013, 8) Differential cerebral development in chimpanzees and humans. Seminar of Brain Information Communication Research Laboratory Group, Advanced Telecommunications Research Institute International, Kyoto, Japan (invited Speaker)
  8. Tomoko Sakai (2010, 9) Brain development in chimpanzees: A combined 3D Ultrasound and MRI study. Symposium “The chimpanzee brain” International Primatological Society 2010 Congress, Kyoto, Japan (invited Speaker)
  1. Tomoko Sakai, Junichi Hata, Hiroki Ohta, Yuta Shintaku, Naoto Kimura, Yuki Ogawa, Kazumi Sokabe, Susumu Mori, Hirotaka J Okano, Yuzuru Hamada, Hideyuki Okano, Kenichi Oishi (2018, 11) The Japan Monkey Centre Primates Brain Imaging Repository for comparative neuroscience: an archive of digital records including records for endangered species. Annual Meeting of the Society for Neuroscience 2018, The Society for Neuroscience, Abstract 282.07.
  2. Tomoko Sakai, Junichi Hata, Hiroki Ohta, Yuta Shintaku, Naoto Kimura, Yuki Ogawa, Kazumi Sokabe, Susumu Mori, Hirotaka J Okano, Yuzuru Hamada, Hideyuki Okano, Kenichi Oishi (2018, 7) The Japan Monkey Centre Primates Brain Imaging Repository for comparative neuroscience: an archive of digital records including records for endangered species. International Symposium Towards Understanding “INDIVIDUALITY”, Abstract P-50.
  3. Tomoko Sakai (2016, 10) Comparing the development of the corpus callosum in infant and juvenile chimpanzees and humans. The 19th Annual MR Division Retreat, Johns Hopkins University of Medicine.
  1. 酒井朋子 (2023, 12) Development of an Integrative Eco-Platform for Knowledge-Driven Brain Imaging Across Multiple Primate Species. The805th Human Brain Research Center Seminar, 京都大学大学院医学研究科脳機能総合研究センター, 京都, 日本 (招待講演)
  2. 酒井朋子 (2023, 2) 共創の時代に向けた脳の発達進化学の未来. 群馬大学大学院医科学系研究科 第4回遺伝発達行動学セミナー, 群馬, 日本 (招待講演)
  3. 酒井朋子 (2022, 11) 共創の時代に向けた脳イメージング研究における循環型共同利用研究支援エコシステムの構築. 生理学研究所所長招聘セミナー, 愛知, 日本 (招待講演)
  4. 酒井朋子 (2020, 2) 非ヒト霊長類の脳イメージング研究の発展・加速:The PRIMatE Data Exchange (PRIME-DE) Global Collaboration Workshop and Consortium. 第9回日本マーモセット研究会大会, 兵庫, 日本 (招待講演)
  5. 酒井朋子 (2019, 2) 最先端の計算解剖学的手法による比較霊長類脳イメージング研究の確立. 放射線医学総合研究所 脳機能イメージング研究部 システム神経回路研究チームセミナー, 千葉, 日本 (招待講演)
  6. 酒井朋子 (2019, 1) 最先端の計算解剖学的手法による比較霊長類脳イメージング研究の確立. 第8回日本マーモセット研究会大会, 東京, 日本 (招待講演)
  7. 酒井朋子 (2019, 1) 最先端の計算解剖学的手法による比較霊長類脳イメージング研究. 京都大学脳機能統合センターセミナー, 京都, 日本 (招待講演)
  8. 酒井朋子 (2015, 8) ヒトの大脳化の由来:霊長類の脳の進化・発達の観点から. 富山大学生命融合科学教育部大学院セミナー, 富山, 日本 (招待講演)
  9. 酒井朋子 (2015, 3) ヒトとチンパンジーの脳発達:磁気共鳴画像法と超音波画像診断法を用いて. 富山大学大学院医学薬学研究部(医学)心理学・認知神経科学セミナー, 富山, 日本 (招待講演)
  1. Tomoko Sakai (2023, 3) Comparative Primate neuroimaging to understand the evolutional and developmental basis of the human brain. 日本生理学会 第100回記念大会, 日本生理学会, Journal of Physiological Sciences,1P-236.
  2. 酒井朋子, 南本敬史, 平林敏行 (2021, 1) 非ヒト霊長類の脳イメージング研究の発展・加速:2020 年の国際的動向の進捗報告, 第10回日本マーモセット研究会大会プログラム, P-42.
  3. 酒井朋子, 南本敬史, 平林敏行 (2020, 2) 非ヒト霊長類の脳イメージング研究の発展・加速:The PRIMatE Data Exchange (PRIME-DE) global collaboration workshop and consortium, 第9回日本マーモセット研究会大会プログラム, P-23.
  4. 曽我部和美, 畑純一, 酒井朋子, 新宅勇太, 太田裕貴, 岡野栄之, 岡野ジェイムス洋尚 (2019, 10) 非ヒト霊長類の標本脳を使用した白質組織の異方性拡散特性. 第47回日本放射線技術学会秋季学術大会, 日本放射線技術学会, 日本放射線技術学会雑誌, 75(9), 1004-1005.
  5. 酒井朋子, 畑純一, 太田裕貴, 新宅勇太, 木村直人, 森進, 岡野ジェイムス洋尚, 濱田穣, 岡野栄之, 大石健一 (2019, 9) 霊長類比較脳MRI研究のためのJMC霊長類脳画像リポジトリ:精神・神経疾患の進化的起源の解明に向けて. 第47回日本磁気共鳴医学学会大会, 日本磁気共鳴医学学会 第47回日本磁気共鳴医学学会大会講演抄録集, 39, 223.
  6. Tomoko Sakai, Junichi Hata, Hiroki Ohta, Yuta Shintaku, Naoto Kimura, Yuki Ogawa,Kazumi Sokabe, Susumu Mori, Hirotaka J Okano, Yuzuru Hamada, Hideyuki Okano, Kenichi Oishi. (2018, 7) The Japan Monkey Centre Primates Brain Imaging Repository for comparative neuroscience: An archive of digital records including records for endangered species. 第41回日本神経科学大会, 日本神経科学学会, Neuroscience Research, 64(Supplement 1), 2P-388.
  7. 曽我部和美, 畑純一,酒井朋子, 太田裕貴, 岡野ジェイムス洋尚, 新宅勇太, 白川崇子 (2018, 4) MRI画像を使用した各種霊長類脳の構造比較. 第74回日本放射線技術学会総会学術大会, 日本放射線技術学会, 日本放射線技術学会総会学術大会予稿集74回,183.
  8. 酒井朋子, 畑純一, 太田裕貴, 小川優樹, 新宅勇太, 森進, 岡野ジェイムス洋尚, 濱田穣, 大石健一, 岡野栄之 (2016, 1) 高磁場MRI による霊長類の脳神経回路構造の比較研究:マーモセットからテナガザルまで. 第5回日本マーモセット研究会大会, 日本マーモセット研究会, 第5回日本マーモセット研究会大会プログラム, P-30.
  9. Tomoko Sakai, Yuji Komaki, Junichi Hata1, Akichika Mikami, Mie Matsui, Junko Okahara, Norio Okahara, Takashi Inoue, Erika Sasaki, Hideyuki Okano (2015, 7) Developmental patterns of the corpus callosum in common marmosets, chimpanzees, and humans. 第38回日本神経科学大会, 日本神経科学学会, Neuroscience Research, 61(Supplement 1), 3P037 (2015).
  10. 酒井朋子, 三上章允, 小牧裕司, 畑純一,松井三枝, 岡原純子,岡原則夫, 岡原則夫, 井上貴司,佐々木えりか, 濱田穣, 鈴木樹理, 宮部貴子, 松沢哲郎, 岡野栄之 (2015, 7) ヒト,チンパンジー,コモンマーモセットにおける脳梁発達の比較研究:ヒト特異的な脳構造の発達機構の解明に向けて., 日本霊長類学会, 霊長類研究, 31(Supplement), 63-64.
  11. 酒井朋子, 疋島啓吾, 佐々木えりか, 岡野英之 (2013, 12) 霊長類の脳発達イメージング研究の新たな展望:マーモセット脳科学への展開にむけて. 第3回日本マーモセット研究会大会, 日本マーモセット研究会, 第3回日本マーモセット研究会大会プログラム, P-28.