NEURO2026
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PosterPoster : July 30, 2026 PM

[1P]Poster

Thu. Jul 30, 2026 12:50 PM - 2:50 PM JST
Thu. Jul 30, 2026 3:50 AM - 5:50 AM UTC
Poster-1 (1F No.1 Building / 1F No.2 Building)

[1P-001]Revisiting the brain distribution and molecular classification of Vmat2-positive neurons in the era of single-cell biology

*Tomohito Sekita1, Yoshifumi Abe1, Kenji F Tanaka1 (1. Keio University School of Medicine Div. of Brain Science, Tokyo, Japan)
Comment()

[1P-002]CTBP2/ERBB4 Identified by Bioinformatics as Key Regulator of Serotonergic Neurons: A Potential Pathway in Anorexia Nervosa

*YUSHAN YAN1, ZIYI WANG1, HARUKO MIYAZAKI1, TOSHITAKA OOHASHI1 (1. Dept of Molecular Biology and Biochemistry, Okayama Univ Grad Sch of Med, Dent and Phar Sci, Okayama 700-8558, Japan)
Comment()

[1P-003]NMDAR-dependent phosphorylation signaling in NAc D2R-MSNs required for aversive learning is suppressed in PCP-induced schizophrenia model mice

*Yasuhiro Funahashi1, Rijwan Uddin Ahammad2, Zhang Xinjian1, Emran Hossen1, Masahiro Kawatani1, Akira Yoshimi3, Li Xu1, Daisuke Tsuboi1, Tomoki Nishioka1, Yukihiko Noda3, Kiyofumi Yamada1, Kenji Sakimura4, Taku Nagai1, Takayuki Yamashita1, Shigeo Uchino5, Kozo Kaibuchi1 (1. ICBS, Fujita Health Univ, Japan, 2. ATRI, Keck Sch of Med of USC, USA, 3. Fac Grad Sch Pharm, Meijo Univ, Japan, 4. Brain Res Inst, Niigata Univ, Japan, 5. Sch Sci Eng, Teikyo Univ, Japan)
Comment()

[1P-004]Soluble Adenylyl Cyclase and PDE2/4 Predominantly Control Resting cAMP Levels in Hippocampal Neurons

*Hiroya Tsuda1, Naoto Saitoh1 (1. Gred Sch Life Med Sci, Doshisha univ, Kyoto, Japan)
Comment()

[1P-006]Aquaporin downstream of CREB is required for cold tolerance in C. elegans

*Honoka Sakayama1, Yukina Mori1, Toru Miura1, Akane Ohta2,1, Atsushi Kuhara1,3 (1. Inst. of Integrative NeuroBiol. Konan Univ., 2. PRESTO JST, 3. PRIME AMED)
Comment()

[1P-007]Multiple GPCR-type temperature receptors in ASJ thermosensory neuron are involved in temperature tolerance of C. elegans

*Shiori Mototake1,2, Yuki Sato1,2, Kohei Ohnishi1,2,3, Tohru Miura1,2,3, Akane Ohta1,2,3,4, Atsushi Kuhara1,2,3,5 (1. Dept. Biol., Facul. Sci & Engineer. Konan Univ. , 2. Dept. Biol. Grad. Sch. Sci. Konan Univ. , 3. Inst. of Integral NeuroBiol. Konan Univ. , 4. PRESTO JST, 5. PRIME AMED)
Comment()

[1P-008]The mechanism for ciliary localization of G protein-coupled receptors in hTERT-RPE1 cells

*Ko Miyoshi1,2, Tomomi Nagano1, Yuuki Fujiwara1, Taiichi Katayama1 (1. Dept of Child Develop and Molecular Bra Sci, United Grad Sch of Child Develop, Univ of Osaka, Suita, Japan, 2. Molecular Res Center for Children's Mental Develop, United Grad Sch of Child Develop, Univ of Osaka, Suita, Japan)
Comment()

[1P-009]A novel molecular integrator of sleep need in the ventral striatum

*Wanrong Song1, Roy Koustav 1,2, Farag Nouran Hassan Tantawy1, Yoan Cherasse1,2, Ziruo Chen1, Masashi Yanagisawa2,1, Michael Lazarus1,2,3 (1. International Institute for Integrative Sleep Medicine (WPI-IIIS), 2. Tsukuba Institute for Advanced Research, 3. Institute of Medicine, University of Tsukuba)
Comment()

[1P-010]Ageing alters intrinsic excitability of striatal cholinergic interneurons.

*Etsuko Suzuki1, Qile Yang3, Hirokazu Sakamoto3, Toshiko Yamazawa2, Kenzo Hirose3, Toshihiko Momiyama1 (1. Department of Pharmacology, Jikei University School of Medicine, 2. Core Research Facilities, Jikei university School of Medicine, 3. Department of Pharmacology, Graduate School of Medicine, The University of Tokyo)
Comment()

[1P-012]Excitatory Synaptic Dynamics in Layer 2/3 of the Mouse Frontal Cortex Are Determined by Pre- and Postsynaptic Cell Subtype Combinations

*Fransiscus Adrian Agahari1, Yasuo Kawaguchi1 (1. Tamagawa University)
Comment()

[1P-013]Localization and Function of SIK3, an AMPK-Related Kinase, in Neurons and at Presynaptic Terminals

*Yuto Kobayashi1, Jin Yokota1, Shuma Ishikura1, Yamato Hida1, Shun Hamada1, Yasunori Mori1, Toshihisa Otsuka1 (1. University of Yamanashi)
Comment()

[1P-014]Large-scale mesoscale profiling of synapses using AI-based 3D-STED image analysis in ASD models

*Noriaki Shimizu1, Karin Uchiyama1,2, Kazuma Shiozawa1,2, Akito Nakao1, Hiroshi Kawabe1 (1. Gunma University Graduate School of Medicine, Department of Pharmacology, 2. Gunma University School of Medicine)
Comment()

[1P-015]Functional Diversity of the Cerebellin Family: Circuit-Specific Regulation by the Cbln4–GluD1 Complex

*Keiko Matsuda1, Itaru Arai1, Kotaro Konno2, Shigetomo Suyama1, Masahiko Watanabe2, Michisuke Yuzaki1 (1. Keio University , 2. Hokkaido University)
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[1P-017]Relationship between the SIK3 signaling pathway that induces NREM sleep and synaptic potentiation

*Motoki Juichi1,4,5, Yusuke Iino4,5, Chika Shimizu4,5, Myo Kakizaki4,5, Shinnnosuke Nomura4,5,2, Takeshi Sawada2, Hiromasa Funato3,4,5, Shoi Shi4,5, Masashi Yanagisawa4,5 (1. University of Tsukuba, 2. University of Tokyo, 3. Toho University, 4. TIAR, 5. WPI-IIIS)
Comment()

[1P-018]Activity-dependent diffusion trapping of AMPA receptors through CaMKII-driven phase separation

*Ken Kunugitani1, Tomohisa Hosokawa1, Yasunori Hayashi1 (1. Kyoto University, Kyoto, Japan)
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[1P-019]uniSynK: a ratio-optimized bicistronic chemically induced dimerization tool for robust and safe induction of dendritic spine enlargement

*Kota Homma1,2, Siqi Zhou1,2, Tomoki Arima1,2, Masanari Ohtsuka1,2, Hitoshi Okazaki1,2, Haruo Kasai1,2, Takeshi Sawada1,2 (1. International Research Center for Neurointelligence (WPI-IRCN), Univ of Tokyo, Tokyo, Japan, 2. Faculty of Medicine, Univ of Tokyo, Japan)
Comment()

[1P-022]Regulation of vesicle localization in the axon by local ATP gradients

*Hiroto Kanda1, Yoshiyuki Konishi2,3 (1. Industrial Innovation of Engineering, Graduate School of Engineering, University of Fukui, 2. Department of Materials Science and Biotechnology, Faculty of Engineering, University of Fukui, 3. Life Science Innovation Center, University of Fukui)
Comment()

[1P-023]Asymmetric Turnover of Nav1.6 Establishes a Source-Sink Mechanism that Drives Molecular Renewal at the Axon Initial Segment

*Daisuke Yoshioka1, Kohei Yamamoto1, Yoshifumi Okochi 1, Manabu Abe 2, Kenji Sakimura2, Yasushi Okamura1 (1. Graduate School of Medicine, The University of Osaka, 2. Brain Research Institute, Niigata University)
Comment()

[1P-024]Regulation of axonal mitochondrial fusion encounters by size-dependent mitigation of inter-mitochondrial repulsion

*Yoshiyuki Konishi1, Hiroto Kanda1, Tetsuhiro S Hatakeyama2, Masashi K Kajita1 (1. Faclt Eng, University of Fukui, Fukui, Lapan, 2. Earth-Life Sci Inst, Inst Sci Tokyo, Tokyo, Japan)
Comment()

[1P-025]CRISPR/Cas9-based knockout screening revealed GSK3β as a key regulator for structural plasticity of axon initial segment

*YIXUAN DU1, Ryo Egawa1, Ryota Adachi1, Hiroshi Kuba1 (1. Nagoya University Graduate School of Medicine)
Comment()

[1P-026]Establishment of a tetracycline-controllable gene suppression system to investigate the role of TGF-β signaling in microglia

*Natsumi Sadaoka1, Chisato Iba1, Yuichi Hiraoka2, Kenji Tanaka1 (1. Institute for Advanced Medical Research - Division of Brain Sciences, Keio University, 2. Graduate School of Medicine, Center for Disease Biology and Integrative Medicine, The University of Tokyo)
Comment()

[1P-027]Mechanism of abnormal social behaviors induced by astrocyte activation: model mouse for tuberous sclerosis complex and status epilepticus

*Tadayuki Shimada1, Kanato Yamagata1, Hiroshi Sakuma1 (1. Tokyo Metropolitan Institute of Medical Science)
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[1P-028]Development of a tool for visualizing myelin phagocytosis in vivo and its applications

*Nonoka Ito1,2, Yuto Kubota1,2, Miho Miyakawa1,2, Kenji Tanaka3, Shota Sugio4, Hiroaki Wake4, Ko Matsui5, Schuichi Koizumi1,2 (1. Dept. Neuropharmacol., Interdisc. Grad. Sch. Med., Univ. Yamanashi, 2. Yamanashi GLIA Center, 3. Div. Brain sci., Sch. Med., Keio Univ., 4. Dept. Anat. and Mol. Cell Biol., Nagoya Univ. Grad. Sch. Med., 5. Super-network Brain Physiol., Grad Sch Life Sci., Tohoku Univ)
Comment()

[1P-029]The role of oligodendrocyte precursor cells (OPCs) in memory consolidation

*Sakthivel Srinivasan1,2, Bozhi Wu1,3, Xiaoyu Chen1,3, Sheena A Josselyn1,3,4,5, Paul W Frankland1,3,4,5 (1. Neurosciences & Mental Health, The Hospital for Sick Children, Toronto, ON, Canada, 2. International Institute for Integrative Sleep Medicine (WPI-IIIS), University of Tsukuba; Tsukuba, Ibaraki, Japan, 3. Department of Physiology, University of Toronto, Toronto, ON, Canada, 4. Department of Psychology, University of Toronto, Toronto, ON, Canada, 5. Institute of Medical Science, University of Toronto, Toronto, ON, Canada)
Comment()

[1P-030]Immune checkpoint molecule LAG-3 regulates microglial activation and oxidative phosphorylation

*Motoki Ohshima1, Yuta Morisaki1, Hidemi Misawa1 (1. Keio University)
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[1P-031]Impact of Microglial Morphology and Neuronal Inflammation through CRMP2 Phosphorylation Inhibition in an APP knock- in Mouse Model

*Wanying Li1, Takaomi C. Saido2, Toshio Ohshima1 (1. Waseda University, 2. RIKEN CBS)
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[1P-032]Microglia engulf dendritic spines in the hippocampal dentate gyrus after cerebral ischemia

*Momoka Okada1, Hitomi Takahashi1, Shuma Nakazawa1, Natsumi Yamaguchi1, Jin Nakatani1, Toshinori Sawano1, Hidekazu Tanaka1 (1. Grad Sch Life Sci,Ritsumeikan Univ,Shiga,Japan)
Comment()

[1P-033]Elucidating the role of USP15 in the maintenance of microglial homeostasis

*Kseniia Sevostianova1, Yukino Uematsu2, Kiwon Park3, Fuminori Tsuruta1,4 (1. PhD Prog Hum Biol, Univ of Tsukuba, Tsukuba, Japan, 2. Grad Sch Life and Env Sci, Univ of Tsukuba, Tsukuba, Japan, 3. Sch Life and Env Sci, Univ of Tsukuba, Tsukuba, Japan, 4. Inst Life and Env Sci, Univ of Tsukuba, Tsukuba, Japan)
Comment()

[1P-034]Aging-associated Phenotypic Changes in Microglial SIRPα Deficient Mice

*Mizuki Ueda1, Etsumi Oike1, Yuka Moriya1, Eriko Urano1, Eiko Matsumoto1, Yuriko Hayashi2, Hiroshi Ohnishi1,3 (1. Grad Sch Health Sci, Gunma Univ, Gunma, Japan, 2. Grad Sch Health Sci, Univ of Gunma Paz, Gunma, Japan , 3. Grad Sch Food & Popul Health Sci, Gunma Univ, Gunma, Japan)
Comment()

[1P-035]Analysis of environmental regulation of microglial identity

*Rikako Harema1, Momoka Okada1, Hitomi Takahashi1, Mihoko Kazita2, Zin Nakatani1, Kyoko Shirakabe2, Toshinori Sawano1, Hidekazu Tanaka1 (1. Pharmacology Lab, Department of Biomedical Sciences, College of Life Sciences, Ritsumeikan University, 2. Protein Modification Biology Lab, Department of Biomedical Sciences, College of Life Sciences, Ritsumeikan University)
Comment()

[1P-036]Cerebellar Resilience to Amyloid pathology associates with Microglial-ECM Proteoglycan Interactions in 5xFAD Mice

*Carla Cangalaya1, Henning Peter Düsedau2, Ildiko Rita Dunay2,3,4, Alexander Dityatev1,3,5, Stoyan Stoyanov1 (1. Molecular Neuroplasticity Research Group, German Center for Neurodegenerative Diseases (DZNE), D-39120, Magdeburg, Germany., 2. Institute of Inflammation and Neurodegeneration, Health Campus Immunology, Infectiology and Inflammation (GC-I3), Otto-von-Guericke-University, D-39120, Magdeburg, Germany., 3. Center for Behavioral Brain Sciences (CBBS), D-39106 Magdeburg, Germany., 4. German Center for Mental Health (DZPG) Center for Intervention and Research on Adaptive and Maladaptive Brain Circuits Underlying Mental Health (C-I-R-C), Halle-Jena-Magdeburg, Germany. , 5. Medical Faculty, Otto-von-Guericke-University, D-39120, Magdeburg, Germany.)
Comment()

[1P-039]In vivo genome editing approach to elucidate axonal factors regulating Ranvier node spacing in the sound localization circuit

*Mai Horioka1,2, Ryo Egawa2, Hiroshi Kuba2, Matida Misa2 (1. Nagoya Univ , 2. Grad Sch Med, Nagoya Univ)
Comment()

[1P-040]Functional analysis of myelin protein Zwilling in medaka fish

*Ryoko Matsumoto1, Yuki Tokoro1, Shuntaro Inoue1, Shigenobu Yonemura2, Shintaro Iwasaki3, Mari Mito3, Naoki Tani4, Akira Nakamura4, Shinichi Nakagawa1, Saori Yokoi1 (1. Hokkaido University, 2. RIKEN BDR, 3. RIKEN CPR, 4. LILA.Kumamoto Univ.)
Comment()

[1P-041]Vertical Passive Body Motion Ameliorates Brain Damage and Motor Deficits in a Mouse Model of Acute Ischemic Stroke: Potential Role of Blood–Brain Barrier Integrity and AQP4 Polarization

*Rina Okura1, Ryoma Kato1, Kazuhiro Hayashi1, Yui Fukushima1, Jun Miyata1, Ryo Nakahara1, Yuri Okada1, Fuyu Niida1, Naoyoshi Sakitani2,3, Yasuhiro Sawada4, Akira Ito1 (1. Human Health Sciences, Graduate School of Medicine, Kyoto University, 2. Integrated Research Center for Self-Care Technology, National Institute of Advanced Industrial Science and Technology (AIST), 3. Health and Medical Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), 4. Department of Clinical Research, National Rehabilitation Center for Persons with Disabilities)
Comment()

[1P-042]De novo mutation of SRF coactivator MRTFB found in patients with autism spectrum disorders and intellectual disability negatively and positively regulates their function, respectively

*Daisuke Ihara1, Momoko Ishikuro1, Kyoko Kobayashi1, Ryotaro Oishi1, Yuya Yamazaki1, Natsumi Satou1, Ichiro Takasaki2, Mamoru Fukuchi3, Masaaki Tsuda1, Akiko Tabuchi1 (1. Grad Sch Med & Pharm Sci, Univ of Toyama, Toyama, Japan, 2. Dep Pharmacol, Grad Sch Sci & Eng, Grad Sch Innov Life Sci, Univ of Toyama, Toyama, Japan, 3. Lab Mol Neurosci, Fac Pharm, Takasaki Univ of Health & Welfare, Gunma, Japan)
Comment()

[1P-043]Identification of novel target genes induced by neuronal activity-dependent nuclear translocation of MRTFB

*Shunsuke Yoneda1, Daisuke Ihara1, Haruka Ohkawara1, Hiroki Tanabe1, Shiori Imanishi1, Sho Hatanaka1, Shigeru Sasaki1, Aya Kosaka1, Yukari Sano1, Hiroyuki Sakagami2, Akiko Tabuchi1 (1. Lab Mol Neurobiol, Grad Sch of Med & Pharm Sci, Univ of Toyama, 2. Dept Anatomy, Kitasato Univ, Sch of Med)
Comment()

[1P-044]Screen for cold responsive gene involved in cold tolerance and acclimation of C. elegans

*Karin So1, Tezuka Moe1, Toru Miura1, Akane Ohta1,2, Atsushi Kuhara1,3 (1. Inst. of Integrative NeuroBiol. Konan Univ., 2. PRESTO JST, 3. PRIME AMED)
Comment()

[1P-045]UBL3-Regulated Secretion of Alpha-Synuclein and Its Modulation by Gemcitabine in Neurodegenerative Pathways

*Rafia Ferdous1, Md. Shoriful Islam1, Zhang Chi1, Shuhei Aramaki2,3, Atsushi Baba1, Shoshiro Hirayama1, Tomoaki Kahyo1,4, Mitsutoshi Setou1,5 (1. Department of Cellular and Molecular Anatomy, Hamamatsu University School of Medicine, 1-20-1 Handayama, Chuo-ku, Hamamatsu, Shizuoka 431-3192, Japan., 2. Photonic Quantum Therapeutics Laboratory, Institute of Photonics Medicine, Hamamatsu University School of Medicine, 1-20-1 Handayama, Chuo-ku, Hamamatsu, Shizuoka 431-3192, Japan., 3. Department of Radiation Oncology, Hamamatsu University School of Medicine, 1-20-1 Handayama, Chuo-ku, Hamamatsu, Shizuoka 431-3192, Japan., 4. Quantum Imaging Laboratory, Institute of Photonics Medicine, Hamamatsu University School of Medicine, 1-20-1 Handayama, Chuo-ku, Hamamatsu, Shizuoka 431-3192, Japan., 5. International Mass Imaging and Spatial Omics Center, Institute of Photonics Medicine, Hamamatsu University School of Medicine, 1-20-1 Handayama, Chuo-ku, Hamamatsu, Shizuoka 431-3192, Japan.)
Comment()

[1P-047]Synaptic target selectivity in interareal projection circuits of the marmoset prefrontal cortex

*Takaaki Miyazaki1,2, Nilton Liuji Kamiji1,2,3, Estilla Zsófia Tóth1, Mitsuo Suga2,4, Akiya Watakabe2, Yasuo Kawaguchi5, Ryo Sasaki1,6, Yoshiyuki Kubota1,2,3,7 (1. Natl Inst for Physiol Sciences, 2. RIKEN Center for Brain Science, 3. Inst of Photonics Med, Hamamatsu Univ Sch of Med, 4. JEOL Ltd, 5. Brain Science Inst, Tamagawa Univ, 6. SOKENDAI, 7. Jichi Med Sch)
Comment()

[1P-048]Stereochemistry of lysophospholipid diastereomers determines axonal attraction or repulsion in a potential biased agonism manner

*Yuji Tatsumi1,2, Xianyue HUANG1,2, Nozomi Ishii3, Ichiro Matsuo3, Adam Guy1,4, Itaru Imayoshi1,2,5 (1. Laboratory of Brain Development and Regeneration, Division of Systemic Life Science, Kyoto University Graduate School of Biostudies, 2. Center for Living Systems Information Science, Kyoto University Graduate School of Biostudies,, 3. Graduate School of Science and Technology, Gunma University, 4. Laboratory of Science Communication, Graduate School of Biostudies, Kyoto University,, 5. Laboratory of Deconstruction of Stem Cells, Institute for Life and Medical Science, Kyoto University)
Comment()

[1P-049]Characterization of Sulf1-expressing neurons in the paraventricular nucleus of the thalamus in the adult mouse

*JIABO CHEN1, Takuya Okada1,2, Yuichi Ueno1,2,3, Ken Miya2, Kazuko Keino-Masu1,2, Kenta Kobayashi4, Masayuki Masu1,2 (1. Grad Sch Compr Human Sci, Univ of Tsukuba, 2. Dept Mol Neurobiol, Inst Med, Univ of Tsukuba, 3. Dept Pediatrics, Univ of Tsukuba Hospital, 4. Nat Inst Physiol Sci, National Institutes of Natural Sciences (NINS))
Comment()

[1P-050]Genetic dissection of parallel cerebellar circuits based on δ2-protocadherin

*Takuto Miwa1, Miyuki Hoshina2, Tasuku Shigeta1, Hisashi Umemori3, Takafumi Inoue1, Naosuke Hoshina2 (1. Dept Life Sci & Med Biosci, Waseda Univ, Tokyo, Japan, 2. Waseda Institute for Advanced Study, Waseda Univ, Tokyo, Japan, 3. Dept Neurol, FM Kirby Neurobiol Ctr, Boston Children’s Hosp, Harvard Med Sch, Boston, USA)
Comment()

[1P-051]Molecular architecture of primate specific neural circuit formation

*Kohei Onishi1, Takafumi Hoshino1, Moe Nakanishi1, Tomomi Shimogori1 (1. RIKEN CBS)
Comment()

[1P-052]Multi-Modal Analysis of Microvascular Diameter across Cortical Layers and Corpus Callosum

*Supriya Nair1, Stefan Stamenkovic2, Gocke Gurler2, Andy Shih3,2,4 (1. Stanford Online High School, Seattle WA , 2. Center for Developmental Biology & Regenerative Medicine, Seattle USA, 3. Seattle Children's Research Institute, Seattle, WA , 4. Depts. of Pediatrics and Bioengineering, University of Washington , Seattle WA)
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[1P-053]Effects of Humanin on Mitochondrial Dynamics in Primary Mouse Cortical Neurons

*Chiaki Nakano1, Takako Niikura1 (1. Sophia university, Tokyo, Japan)
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[1P-054]TMEM240 Knockout and Disease-Associated Knock-In Mice Suggest a Loss-of-Function Mechanism for Motor Dysfunction in Spinocerebellar Ataxia Type 21

*Miho Kobatake1, Satoshi Tsukamoto2, Eigo Sasaki1, Yoshitaka Kurikawa1, Ikuko Koyama-Honda1, Tomoya Eguchi1, Noboru Mizushima1 (1. Grad Sch Med, Univ of Tokyo, Tokyo, Japan, 2. National Institutes for Quantum Science and Technology, Chiba, Japan)
Comment()

[1P-055]Beyond the Batch Effect: Subtyping Glioblastoma with an Absolute Coordinate System

*Yuki Nakanishi1, Yuji Okano1, Kazuhiro Sakurada1, Tetsuo Ishikawa1 (1. Keio University)
Comment()

[1P-057]Neocortical module architecture emerges from radial glial cell cycle dynamics

*Hisato Maruoka1,2,3, Yuta Nariya4, Shunsuke Mizutani2, Hidetaka Tamune2,5, Hirotaka Asai2, Atsunori Shitamukai6, Toshihiko Hosoya3, Shigeo Okabe2,3 (1. Next Generation Medical Development Research Core Institute for Frontier Science Initiative, Kanazawa University, Japan, 2. Grad Sch Med, Univ of Tokyo, Tokyo, Japan, 3. RIKEN CBS, Japan, 4. Kameda Medical Center, Japan, 5. Juntendo University Grad Sch of Med, Japan, 6. Okayama University Grad Sch of Med, Dentistry and Pharm Sciences, Japan)
Comment()

[1P-058]Short-Term Activation of Piezo1 Promotes Neuronal Differentiation in PC12 Cells

*MUHAMMAD DHIAULFIKRI NAUVAL HADIANA1, ASUNA SUGIMOTO1, YUMIKO NAKASHIMA1, MANAMI TANAKA1, NODOKA ATO1, TSUTOMU IWAMOTO1 (1. DEPARTMENT OF PEDIATRIC DENTISTRY/SPECIAL NEEDS DENTISTRY, INSTITUTE OF SCIENCE TOKYO, JAPAN)
Comment()

[1P-059]Comparative analysis of Tbr2-expressing cells suggests evolutionary divergence in pallial progenitor properties in amniotes

*Taito Tsujino1, Bradley Colquitt2, Sayaka Tojima1, Tadashi Nomura1,3 (1. Kyoto Institute of Technology ・ Applied Biology, 2. Department of Molecular, Cell, and Developmental Biology University of California, Santa Cruz, 3. Center for Social and BioMedical Engineering, Kyoto Institute of Technology)
Comment()

[1P-060]Is Laminin 332 involved in astrocyte differentiation in the mouse embryonic spinal cord?

*Soei Asuka1,2, Yusuke Minato2, Tetsuto Yamaura1, Hirosato Kanda2, Seishi Maeda2, Toshiya Tachibana1, Hideshi Yagi2 (1. Dept Orthop Surg, Hyogo Med Univ Grad Sch Med, Nishinomiya, Japan, 2. Dept Anat Cell Biol, Hyogo Med Univ Sch Med, Nishinomiya, Japan)
Comment()

[1P-061]Single-nucleus transcriptomics and in silico simulation reveal transcription factor networks in cholinergic neuron differentiation

*Seiji Ishii1,2,3, Shun Takano2, Tsukasa Sanosaka3, Yasuhiro Go4,5,6, Hideyuki Okano3,7, Takuya Shimazaki3, Kazunori Nakajima2, Hirohide Iwasaki1 (1. Dept Anat, Gunma Univ Grad Sch Med, Maebashi, Japan, 2. Dept Anat, Keio Univ Sch Med, Tokyo, Japan, 3. Dept Phys, Keio Univ Sch Med, Tokyo, Japan, 4. Cognitive Genomics Research Group, Exploratory Research Center on Life and Living Systems, National Institutes of Natural Sciences, Okazaki, Japan., 5. Dept System Neuroscience, National Institute for Physiological Sciences, National Institutes of Natural Sciences, Okazaki, Japan., 6. Grad Sch Information Science, Univ of Hyogo, Kobe, Japan., 7. Keio Univ Regenerative Medicine Research Center, Kawasaki, Japan)
Comment()

[1P-062]Neural progenitor cell interactions drive the differentiation of embryonic brain macrophages into microglia

*Mizuki Ono1, Hattori Yuki1 (1. Department of Anatomy and Cell Biology Graduate School of Medicine, Nagoya University)
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[1P-063]Unravelling the developmental roles of the mammalian-specific alanine repeats in Lhx2 for neocortical evolution

*Reon Ikeda1, Sayaka Toujima1, Tadashi Nomura1,2 (1. Applied Biology, Kyoto Institute of Technology, 2. Center for Social and BioMedical Engineering, Kyoto Institute of Technology)
Comment()

[1P-064]Single cell multiome analysis reveals molecular mechanisms underlying retinal neuronal cell fate determination

*Yuki Miyanohara1, Hung-Ya Tu1, Hitoshi Sumihiro1, Haruka Yamamoto1, Makoto Ando1, Yamato Maeda1, Taro Chaya1, Takahisa Furukawa1 (1. Laboratory for Molecular and Developmental Biology, IPR, Univ of Osaka, Osaka, Japan)
Comment()

[1P-065]Sustained Notch activation impairs cognitive function through depletion of adult neural stem cells

*Nur Azrah Fazera Mohd Ariffin1, Naoko Morimura1, Kenny Daun1,2, Seiji Hitoshi1 (1. Department of Integrative Physiology, Shiga University of Medical Science, 2. Faculty of Resource Science and Technology, Universiti Malaysia Sarawak, Malaysia)
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[1P-066]Asynchronous Hes1 expression dynamics regulate dorsoventral patterning in neural tube organoids

*Yuki Maeda1, Ryoichiro Kageyama1 (1. RIKEN Center for Biosystems Dynamics Research)
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[1P-067]Comparative analysis of astrocyte subtype in the amniote cerebrum

*Senri Doi1,2, Illia Aota1, Takuma Kumamoto1, Yuichiro Hara4, Hideya Kawaji4, Kei Yura3,5, Chiaki Ohtaka Maruyama1 (1. Developmental Neuroscience Project, Tokyo Metropolitan Institute of Medical Science, Tokyo, Japan, 2. Graduate School of Humanities and Sciences, Ochanomizu University, Tokyo, Japan, 3. Faculty of Core Research Natural Sciences Division, Ochanomizu University, Tokyo, Japan, 4. Research Center for Genome & Medical Sciences, Tokyo Metropolitan Institute of Medical Science, Tokyo, Japan, 5. Department of Life Science & Medical Bioscience, School of Advanced Science and Engineering, Waseda University, Tokyo, Japan)
Comment()

[1P-068]Clonal analysis reveals a spatially distinct neural progenitor population contributing to lateral cortical expansion

*Yuta Furusho1,2, Koichiro Irie2, Koyomi Shimamoto1,2, Takayuki Kimura1,2, Miyu Watanabe1,2, Naoto Ohte1,2, Anzu Kuriyama1,2, Carina Hanashima1,2 (1. Grad Sch Adv Sci and Eng, Waseda University, Tokyo, Japan, 2. Dep of Bio, Sch Edu, Waseda University, Tokyo, Japan)
Comment()

[1P-073]Activation of adult neurogenesis improves amyloid-β pathology and cognitive function through coordinated non-cell-autonomous, AMPK-dependent metabolic reprogramming in Alzheimer’s disease model mice

*Masahiro Fukui1, Takashi Kaise2, Taimu Masaki1,4, Tyler Sakamoto3, Ryoichiro Kageyama1 (1. RIKEN Center for Biosystems Dynamics Research, 2. Massachusetts Institute of Technology, Cambridge, MA, 02139 USA, 3. Stanford University School of Medicine, Stanford, CA, 94305 USA, 4. Graduate School of Medicine, Kyoto University)
Comment()

[1P-075]Vesicle-dependent formation of plasma membrane microdomain competent for exocytic fusion.

*Tomonobu Hida1, Tatsuya Mori1, Hiroyuki Kamiguchi1 (1. RIKEN, Saitama, Japan)
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[1P-076]Stem cell competition during neurodevelopment regulates brain size

*Xuelian SUN1, Zhenhua CHEN1, Qing-feng WU1 (1. Institute of Genetics and Developmental Biology, Chinese Academy of Sciences)
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[1P-077]Circuit modelling of volume electron microscopy derived prefrontal cortico-cortical projections in working memory

*Vikas Pandey1, Can Sozuer2, Takaaki Miyazaki3,5, Estilla Zsofia Toth3, Shobha Upreti3, Nilton Liuji Kamiji3,5,4, Akiya Watakabe4, Yasuo Kawaguchi6, Ryo Sasaki3,7, Kazue Semba2, Yoshiyuki Kubota3,4,5 (1. Premium Research Institute for Human Metaverse Medicine (WPI- PRIMe), The University of Osaka, Japan, 2. Dalhousie University, Halifax, Canada, 3. National Institute for Physiological Sciences, Okazaki, Japan, 4. Institute of Photonics Medicine, Hamamatsu University School of Medicine, Hamamatsu, Japan, 5. RIKEN Center for Brain Science, Wako, Japan, 6. Brain Science Inst, Tamagawa Univ, Machida, Japan, 7. SOKENDAI, Okazaki, Japan)
Comment()

[1P-078]A novel therapeutic strategy and drug candidate for treating Spinal Cord Injury

*Vance Paul Lemmon1,2,3, Abdiel Badillo-Martinez1,4, Omar Elwardany1,8, Bassel Awada1, Jae K. Lee1,2, John L. Bixby1,3,5, Hassan Al Ali1,2,3,4,6,7 (1. Miami Project to Cure Paralysis, University of Miami Miller School of Medicine, Miami, FL, USA, 2. Department of Neurological Surgery, University of Miami Miller School of Medicine, Miami, FL, USA. , 3. Frost Institute for Data Science and Computing, University of Miami Miller School of Medicine, Miami, FL, USA. , 4. Biochemistry and Molecular Biology, University of Miami Miller School of Medicine, Miami, FL USA. , 5. Department of Molecular and Cellular Pharmacology, University of Miami Miller School of Medicine, Miami, Fl, USA. , 6. Department of Medicine, University of Miami Miller School of Medicine, Miami, FL, USA. , 7. Peggy and Harold Katz Family Drug Discovery Center, University of Miami Miller School of Medicine, Miami, FL, USA. , 8. Department of Neurosurgery, Faculty of Medicine, Suez Canal University, Ismailia, Egypt)
Comment()

[1P-079]Membrane order driven by very-long-chain fatty acids anchors axon specification

*Atsuko Honda1, Michihiro Igarashi2 (1. Center for Res Prom, Sch Med, Niigata Univ, Niigata, Japan , 2. Grad Sch Med & Sci, Niigata Univ, Niigata, Japan)
Comment()

[1P-081]Mechanisms of retinal wave propagation for direction-selective circuit formation

*Haruka Yamamoto1, Gergely Szarka2, Ikuma Nakagawa1, Béla Völgyi2, Keisuke Yonehara1 (1. National Institute of Genetics, Shizuoka, Japan, 2. University of Pécs, Pécs, Hungary)
Comment()

[1P-082]Layer-specificity of ocular dominance plasticity in mouse primary visual cortex

*Akihiro Shigemura1, Taisuke Yoneda1,2, Yumiko Yoshimura1,2 (1. The Graduate University for Advanced Studies, SOKENDAI, 2. National Institute for Physiological Sciences)
Comment()

[1P-085]Developmental Hypothyroidism Induces Region-Specific Epigenomic Remodeling in the Hippocampus and Prefrontal Cortex

*Namuunbayar Ganchimeg1, Katsuya Uchida1, Akane Kitamura2, Takeshi Obayashi1,2 (1. Graduate School of Information Sciences, Tohoku University, 2. Advanced Institute for Marine Ecosystem Change (WPI-AIMEC))
Comment()

[1P-086]DEAD-box RNA helicase Ddx20 is required for spinal motor neuron maintenance and motor function

*Norihisa Bizen1,2, Yui Toyomasu2, Yoshika Hayakawa-Yano2,3, Masato Yano2,3, Hirohide Takebayashi1,2 (1. Cent Anat stud, Grad Sch Med, Kyoto Univ, Kyoto, Japan, 2. Div Neurobiol Anat, Grad Sch Med Dent Sci, Niigata Univ, Niigata, Japan, 3. Core Res Facil Basic Sci, Res Cent Med Sci, The Jikey Univ Sch Med, Tokyo, Japan)
Comment()

[1P-087]Induction of DNA Damage and Cell Death by Beta Amyloid Peptide and Its Modification by Tocotrienol Rich Fraction (TRF)

*Haryati Ahmad Hairi1, Rusdiah Ruzanna Jusoh1 (1. Manipal University College Malaysia)
Comment()

[1P-088]Modeling Drug-Induced Cellular Senescence in Microglia-Containing Human Brain Organoids

*Haruki Odaka1, Yasuyuki Kusaka2, Hisashi Shima3 (1. Cell Mol Biotechnol Res Inst, AIST, Ibaraki, Japan, 2. Sensing Technol Res Inst, AIST, Ibaraki, Japan, 3. Core Electron Technol Res Inst, AIST, Ibaraki, Japan)
Comment()

[1P-089]Activation of the pro-regenerative environment by iPSC-derived bioactive axon graft promotes peripheral nerve regeneration

*Kentaro Okuyama1, Takayuki Nishijima2, Junpei Nakayama1, Thinh Quang Phan1, Manabu Hayatsu1, Eri Niiyama1,3, Jiro Kawada1,3, Keiko Uchiyama1, Shinsuke Shibata1,2 (1. Grad Sch Med Dent, Niigata Univ, Niigata, Japan, 2. Sch Med, Keio Univ, Tokyo, Japan, 3. Jiksak Bioengineering Inc.)
Comment()

[1P-090]A Juvenile Transcriptomic Program Underlies Nervous System Maturation

*Masaki Mori1 (1. National Center for Child Health and Development)
Comment()

[1P-091]Effect of vasopressin 1a receptor agonist administration on the voltage-activated Ca2+ currents recorded from mitral cells in the mouse accessory olfactory bulb

*Mutsuo Taniguchi1, Yoshihiro Murata1, Shogo Shimizu1, Masahiro Yamaguchi1, Hideto Kaba2 (1. Kochi Medical School, Kochi University, 2. Univ of Kochi Health Sciences)
Comment()

[1P-093]Disrupting Mosquito Mating Using Artificial Intelligence Created Sounds

*Alberto John Thornton1,2, Matthew P Su1,2,3, Azusa Kamikouchi1,2 (1. Grad Sch Sci, Nagoya Univ, Nagoya, Japan, 2. ITbM, Nagoya Univ, Nagoya, Japan, 3. IAR, Nagoya Univ, Nagoya, Japan)
Comment()

[1P-094]Measurements of cortical and brainstem activities associated with perception of consonance: Validation of correlations with psychological measures

*Tamami Toya1, Sho Otsuka2,3, Seiji Nakagawa2,3,4 (1. Dept. of Medical Eng., Graduate School of Sci. & Eng., Chiba Univ., 2. Ctr. for Frontier Medical Eng., Chiba Univ., 3. Graduate School of Eng., Chiba Univ., 4. Med-Tech Link Ctr., Chiba Univ. Hospital)
Comment()

[1P-095]Investigating the development of the sexually dimorphic hearing systems of Aedes aegypti mosquitoes

*Reika Handoko1,2, Yifeng YJ Xu1,2, YuMin M Loh1,2, Matthew P Su1,2,3, Azusa Kamikouchi1,2 (1. Grad Sch Sci, Nagoya Univ, Nagoya, Japan, 2. ITbM, Nagoya Univ, Nagoya, Japan , 3. IAR, Nagoya Univ, Nagoya, Japan)
Comment()

[1P-096]Dopaminergic modulation of auditory neurons in female fruit flies

*Haruna Yamakoshi1, Mihoko Horigome1, Hina Kodaka1, Ryoya Tanaka1, Yuki Ishikawa1, Azusa Kamikouchi1 (1. Grad Sch Sci, Nagoya University, Nagoya, Japan)
Comment()

[1P-097]Effects of AMPA receptor blockade on neural oscillations and
auditory-evoked synchronization in a non-human primate model of schizophrenia

*Naho Konoike1,2, Harriet Berckenhagen3, Kumiko Mashita1, Katsuki Nakamura1 (1. EHUB, Kyoto University, 2. Hakubi Center, Kyoto University, 3. Leipzig University, Leipzig, Germany)
Comment()

[1P-098]Emergence of structural separation in auditory parallel processing models: representation analysis of music and non-music information using CNNs

*Tae Kuramoto1, Hiroshi Tamura1 (1. Graduate School of Frontier Biosciences, The University of Osaka, Osaka, Japan)
Comment()

[1P-099]Novel Infrared Laser Cochlear Implant : Behavioral and Cellular Responses to Laser Stimulation

*Natsumi Kai1, Ayase Kawasaki2, Kazuki Tanaka-Shin'ya2, Kohta I KOBAYASI1, Yuta Tamai3,4 (1. Faculty of life and medical science, Doshisha Univ, Kyoto, Japan, 2. Grad Sch life and medical science, Doshisha Univ, Kyoto, Japan, 3. Univ of Tübingen, Tübingen, Germany, 4. Keio Univ, Tokyo, Japan)
Comment()

[1P-100]Role of Microtubule-Associated Protein 2 (MAP2) in Hearing Recovery: Evidence from Auditory Brainstem Responses Before and After Noise Exposure

*Yukihiro Sato1, Kazuki sinnya1, Nobuto Kakuda1, Akihiro Harada3, Tomohiro Miyasaka2, Kohta I KOBAYASI1 (1. Doshisha University, 2. Nihon University, 3. The University of Osaka)
Comment()

[1P-105]Versatile visual stimulation for awake mice in ultra-high field fMRI reveals diverse patterns in visual and prefrontal cortex

*SeungYub Lee1,3, GeunHo Im3, Sanghan Choi3, Seong-Gi Kim3, HyungGoo Kim2,3 (1. Department of Intelligent Precision Healthcare Convergence, Sungkyunkwan University, Suwon 16419, Republic of Korea, 2. Department of GlobalBiomedical Engineering, Sungkyunkwan University, Suwon 16419, Republic of Korea, 3. Center for Neuroscience Imaging Research, Institute for Basic Science, Suwon 16419, Republic of Korea)
Comment()

[1P-106]Spatial map of distribution of face-selective filter units in the early areas of a recurrent convolutional neural network corresponds to the structural features of an average face.

*Ryohsuke Nishi1, Hiroshi Tamura2,1 (1. School of Engineering Science, The University of Osaka, Osaka, Japan, 2. Graduate School of Frontier Biosciences, The University of Osaka, Osaka,Japan)
Comment()

[1P-107]Exploration of cortical regions involved in responses to near-threshold visual perceptual stimuli

*Azumi Tatani1,2, Masanori Kawabata2, Yoshikazu Isomura2 (1. Faculty of Medicine, Institute of Science Tokyo, 2. Department of Physiology and Cell Biology, Institute of Science Tokyo)
Comment()

[1P-108]Auditory context-dependent representation of contrast category across multiple brain regions in rats

*Shinnosuke Mizuno1, Rie Kimura2, Kenichi Ohki2,3,4 (1. Faculty of Medicine, The University of Tokyo, 2. Department of Physiology, Graduate School of Medicine, The University of Tokyo, 3. International Research Center for Neurointelligence, The University of Tokyo, 4. Institute for AI and Beyond)
Comment()

[1P-109]Potential pathological role of cleaved αB-crystallin in angiogenesis and fibrosis in age-related macular degeneration

*Eunhye Yu1, Chul Kyu Lee1, Hyeonji Park2, Ji Hye Hong2, Jonghwa Jin2, Jung Kee Min3, Jaesuk Yun1 (1. Col Pharm, Chungbuk Natl Univ, Cheongju, Republic of Korea, 2. Osong Med Innov Fdn, New Drug Dev Ctr, Cheongju, Republic of Korea, 3. Dept Ophthalmol, Ulsan Univ Hosp, Univ of Ulsan Coll Med, Ulsan, Republic of Korea)
Comment()

[1P-110]Alpha blocking and visual cortical engagement during aversive learning in human observers: an EEG–fMRI study

*Judith Cristina Cediel Escobar1, Faith Gilbert1, Laura Ahumada1, Jourdan Pouliot, Andrew Farkas1, Andreas Keil1 (1. Department of Psychology, University of Florida, Gainesville, Florida, USA.)
Comment()

[1P-117]Acid-sensing ion channel 3 contributes to activity-induced muscle pain

*Kazuhiro Hayashi1,2 (1. Human Health Sciences, Graduate School of Medicine, Kyoto University, 2. Department of Physical Therapy and Rehabilitation Science, University of Iowa)
Comment()

[1P-118]Increased microglial marker expression in spinal dorsal horn in a mouse model of activity-induced pain

*Mei Yamada1, Yui Fukushima2, Mayuu Iwai1, Naoki Ooka2, Kenshiro Kashima2, Momoko Nagai-Tanima2, Akira Ito2, Shigehito Yamada2, Kazuhiro Hayashi2 (1. Human Health Sciences, Faculty of Medicine, Kyoto University, 2. Human Health Sciences, Graduate School of Medicine, Kyoto University)
Comment()

[1P-119]Macrophage related gene expression in skeletal muscle and sensory neurons in a mouse model of inflammatory muscle pain

*Mayuu Iwai1, Yui Fukushima2, Mei Yamada1, Rina Okura2, Yuri Okada2, Naoki Ooka2, Kenshiro Kashima2, Momoko Nagai-Tanima2, Akira Ito2, Shigehito Yamada2, Kazuhiro Hayashi2 (1. Human Health Sciences, Faculty of Medicine, Kyoto University, 2. Human Health Sciences, Graduate School of Medicine, Kyoto University)
Comment()

[1P-120]Visual Rhythms Shape Tactile Temporal Prediction: Evidence from Event-Related Potentials

*WANLONG LIU1, YINGHUA YU1, JIAJIA YANG1 (1. Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University, Okayama, Japan)
Comment()

[1P-121]Bidirectional Causal Roles of the S1–M2 Recurrent Circuit in Somatosensory Perception

*Yasuhiro Oisi1, Yusuke Atsumi1, Yoshiki Yoshihito5,1, Yoshiki Ito1, Hiroyuki Uwamori1, Maya Odagawa1, Chie Matsubara1, Takayuki Suzuki1, Shigeki Kato2, Kazuto Kobayashi2, Kenta Kobayashi3, Atsushi Kamoshida4, Kanako Ueno1, Midori Kobayashi1, Masanori Murayama1 (1. RIKEN, Saitama, Japan, 2. Fukushima medical Uni., Fukushima, Japan, 3. NIPS, Nagoya, Japan, 4. NI, Tokyo, Japan, 5. Cornell Uni., New York, US.)
Comment()

[1P-122]Noxious and innocuous sensory responses in mice after ablation of Brn3a-positive spinal dorsal horn neurons

*Kazuhiko Nishida1, Matsumura Shinji1, Tudor Badea2,3, Kobayashi Takuya1 (1. Dept Med Chem, Kansai Med Univ, Osaka, Japan, 2. Research & Dev Inst, Fac Med, Transylvania Univ. of Brasov, Brasov, Romania, 3. Natl Cent for Brain Res, ICIA, Bucharest, Romania)
Comment()

[1P-123]Neuronal correlates of tactile motion decision-making in humans

*Erfan Rezaei1, Mehdi Adibi1, Mark Bellgrove1, MArcello Rosa1, Ramesh Rajan1 (1. monash university)
Comment()

[1P-124]Effects of chronic restraint stress on glial activation and cytokine production in the rostral ventromedial medulla and spinal cord

*Hiroki Imbe1, Moritoshi Hirono1 (1. Wakayama Medical University)
Comment()

[1P-125]Deep analysis of mouse pain behaviour for high-throughput pre-clinical drug screening

*Sarasa Amilia Mohammadi1, Andre Mare1, Robert Vandenberg1, Thomas Joseph Burton2 (1. The University of Sydney, 2. The University of New South Wales)
Comment()

[1P-128]The Effect of Auditory Uncertainty on Multisensory Integration During Perceptual Decision-Making

*QIUZI DONG1, XIANGFU YANG1, JIAJIA YANG1 (1. Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University, Okayama, Japan.)
Comment()

[1P-129]Input circuitry of the infragranular auditory cortex from diverse visual areas in the mouse

*Toshiaki Suzuki1, Timothy R Olsen1, Andrea R Hasenstaub1 (1. University of California San Francisco, CA, US)
Comment()

[1P-130]Neural basis for multisensory integration to structure cognitive information in the mouse primary sensory cortices

*Takuya Hikima1, Yoshito Saitoh1, Osamu Fukayama3, Makoto Osanai4, Hiroto Sekiguchi2, Noriaki Ohkawa1 (1. Dokkyo Med Univ, Tochigi, Japan, 2. Meijo Univ, Aichi, Japan, 3. Univ Tokyo, Tokyo, Japan, 4. Univ Osaka, Osaka, Japan)
Comment()

[1P-131]EEG Features and Decision-Making Processes During a Visuo-Tactile Object Matching Task

*Kohei Yoshioka1, Natsue Yoshimura1 (1. Institute of Science Tokyo)
Comment()

[1P-132]Cortical population dynamics underlying ground tilt and posture control

*Fumiya Imamura1, Hiroto Imamura1, Reiko Hira1, Yoshikazu Isomura1, Riichiro Hira1 (1. Graduate School of Medical and Dental Sciences, Institute of Science Tokyo)
Comment()

[1P-133]Mismatch Negativity reflets individual differences in Audiovisual sensory weighting

*HEXIN XU1, Yiyuan Teresa Huang2, Amit Yaron2, Tomoyo Isoguchi Shiramatsu1, Zenas C. Chao2, Hirokazu Takahashi1 (1. Graduate School of Information Science and Technology, The University of Tokyo, Tokyo, Japan, 2. International Research Center for Neurointelligence (IRCN), The University of Tokyo Institutes for Advanced Study, The University of Tokyo, Tokyo, Japan)
Comment()

[1P-135]Manifestation of Brain States in Ocular and Orofacial Dynamics under Noradrenergic Modulation

*Sho Sakamoto1, Yasuhiko Saito1, Takeshi Kanda2 (1. Nara Medical University, 2. Fujita Health University)
Comment()

[1P-136]Ketamine-induced disruption of oculomotor control in macaque monkeys: implications for NMDA receptor–dependent neural circuits

*Aya Takemura1, Kenichiro Miura2 (1. National Institute of Advanced Industrial Science and Technology (AIST), Human Informatics and Interaction Research Institute, 2. Institute for the Advanced Study of Human Biology (ASHBi), Kyoto University)
Comment()

[1P-137]Representation of Walking Speed in the Cerebral Cortex and Cerebellar Cortex in Mice

*Satoshi Hamada1, Koki Hoshi7, Itaru Imayoshi2,3,4, Hirokazu Tanaka7, Keisuke Isobe8, Takayuki Michikawa8,5,6 (1. Graduate School of Medicine, Nagoya University, 2. Graduate School of Biostudies, Kyoto University, Kyoto, 3. Center for Living Systems Information Science, Graduate School of Biostudies, Kyoto University, Kyoto, 4. Laboratory of Deconstruction of Stem Cells, Institute for Life and Medical Sciences, Kyoto University, Kyoto, Japan, 5. Laboratory of Optical Biomedical Science, Insititute for Life and Medical Sciences, Kyoto University, Kyoto, Japan, 6. Biotechnological Optics Research Team, RIKEN Center for Advanced Photonics, 7. Graduate School of Integrative Science and Engineering Systems Information Engineering, Tokyo City University, 8. Terahertz and Infrared Quantum Photonics Research Team, RIKEN Center for Advanced Photonics)
Comment()

[1P-138]Diverse respiration-related encoding in the nucleus of the solitary tract

*Kexuan Wu1, Takuma Kitanishi1,2 (1. Graduate School of Arts and Sciences, The University of Tokyo, Tokyo, Japan, 2. Komaba Institute for Science, The University of Tokyo, Tokyo, Japan)
Comment()

[1P-140]MIEAP and PARK2 redundantly regulate mitochondrial quality control to maintain motor performance against cumulative aging stress

*Mika Inada Shimamura1, Koichirou Hamada2, Katsuya Satoh3 (1. Nagasaki University Graduate School of Biomedical Sciences, 2. Department of General Medicine, Nagasaki University Graduate School of Biomedical Sciences, 3. Department of Health Sciences, Unit of Medical and Dental Sciences, Nagasaki University Graduate School of Biomedical Sciences)
Comment()

[1P-141]The mechanism of anti-allodynic effect of APGWamide analogue peptides on neuropathic pain in the rat model of chronic constriction injury of the sciatic nerve

*Kosei Kamada1, Itsuki Kanaori1, Tetsuya Ikeda1, Mio Tsukiji1 (1. Kyoto Tachibana University)
Comment()

[1P-142]Motor recovery and corticospinal plasticity promoted by repetitive transcranial magnetic stimulation after spinal cord injury in macaques

*Longxiang Zhang1, Masahiro Mitsuhashi1, Reona Yamaguchi1,2, Satoko Ueno2,1, Kaoru Isa1, Kohei Matsuda1, Tadashi Isa1,2,3 (1. Grad Sch Med, Kyoto Univ, Kyoto, Japan, 2. ASHBi, Kyoto Univ, Kyoto, Japan, 3. NIPS, Okazaki, Japan)
Comment()

[1P-143]Genetic loss of Sept7 in S100β-expressing cells causes myasthenia-like post-exercise fatigability

Naoki Goto1, Hirotaka Shoji2, Chikako NAKAJIMA1, Masashi NISHIKAWA1, Natsumi Ageta-Ishihara1,3, Tsuyoshi Miyakawa2, *Makoto Kinoshita1 (1. Nagoya Univ Grad Sch Sci, 2. Cent for Compr Med Sci, Fujita Health Univ, 3. Toho Univ Grad Sch Sci)
Comment()

[1P-145]Cerebellar Functional Module for Adaptive Control of Directional Licking

*Keisuke Kameda1, Masayoshi Murakami1, Kazuo Kitamura1 (1. Fac Med, Univ of Yamanashi)
Comment()

[1P-146]Molecular organization of cerebellar granule cells along parallel fiber locations supports cerebellar network formation

*Muwoong Kim1,2, Keiko Tanaka Yamamoto1, Yukio Yamamoto1,2 (1. Brain Science Institute, Korea Institute of Science and Technology (KIST), Republic of Korea, 2. Division of Bio-Medical Science and Technology, KIST School, University of Science and Technology (UST), Republic of Korea)
Comment()

[1P-149]Role of dyskinesia-related proline-rich transmembrane protein 2 in glutamate-dependent dopamine release.

*Daisuke Hatta1, Masaki Miyauchi1, Kaito Kanamoto1, Shiho Makiya1, Kaori Watanabe1, Yuki Fuchigami2, Shigeru Kawakami2, Akira Kinoshita3, Koh-Ichiro Yoshiura3, Naohiro Kurotaki3, Keiro Shirotani1, Nobuhisa Iwata1 (1. Dept Genome-based Drug Discovery, Grad Sch Biomed Sci, Nagasaki Univ, Japan, 2. Dept Pharmaceutical Informatics, Grad Sch Biomed Sci, Nagasaki Univ, Japan, 3. Dept Human Genetics, Atomic Bomb Disease Institute, Nagasaki Univ, Japan)
Comment()

[1P-151]Overcoming Muscle Co-contraction Underestimation in Optimal Feedback Control Theory

*Iori Funato1, Yasuharu Koike1 (1. Institute of Science Tokyo)
Comment()

[1P-152]Information flow of motor and apparent errors between the cerebral cortex and the red nucleus during reaching

*Masato Inoue1,2, Shigeru Kitazawa1,2,3 (1. National Institute of Information and Communications Technology, and Osaka University, 2. Graduate School of Frontier Bioscience, Osaka University, 3. Graduate School of Medicine, Osaka University)
Comment()

[1P-153]Neural Correlates of Functional Recovery: Differential Corticospinal Coupling Following Tendon Transfer

*Roland Philipp1, Yuki Hara3, Masaki Iwasaki4, Naohito Ohta2, Tetsuro Funato2, Kazuhiko Seki1 (1. National Center of Neurolgy and Psychiatry, National Institute of Neuroscience, 2. University of ElectroCommunications, Graduate School of Informatics and Engineering, Dept. of Mechanical and Intelligent Systems Engineering, Tokyo, Japan, 3. National Center of Neurology and Psychiatry, Department of Orthopaedic Surgery, Tokyo, Japan, 4. National Center of Neurology and Psychiatry, Department of Neurosurgery, Tokyo, Japan)
Comment()

[1P-156]Superior colliculus generates motor-outcome dependent signals underlying forelimb reaching adaptation

*Tianzhuo Wang1, Pierre-Arthur Suray2,4, Guillem Vicente-Ortiz2,4, Yuki Goya1, Jyh-Jang Sun3, Mattia D’Andola2,4, Aya Takeoka1 (1. RIKEN Center for Brain Science, Wako, Japan, 2. VIB-Neuroelectronics Research Flanders (NERF), 3001 Leuven, Belgium, 3. ATLAS Neuroengineering, 3001, Leuven, Belgium, 4. KU Leuven Department of Neuroscience, Leuven Brain Institute, 3000 Leuven, Belgium)
Comment()

[1P-157]Exploration of EEG activity associated with the sense of agency

*Miaka Kai1, Hiroaki Mizuhara1 (1. Nara Women’s University)
Comment()

[1P-158]Cell-type-specific analysis of visuomotor prediction error signals in the dorsal cortex

*Ryosuke F Takeuchi1, Risa Ishida1, Reiji Miyata1, Takaki Fujiki1, Kei N Ito1, Yuki Ichihara1, Fumitaka Osakada1,2 (1. Graduate School of Pharmaceutical Sciences, Nagoya University, Nagoya, Japan, 2. Laboratory of Neural Information Processing, Institute for Advanced Research, Nagoya University, Nagoya, Japan)
Comment()

[1P-162]A Systematic Comparison of EEG Decoding Performance Using a Generalized Linear Mixed Model

*Mizuki Tsujimura1, Hiroaki Mizuhara1 (1. Nara Women’s University)
Comment()

[1P-163]Skill acquisition during BCI typing is associated with compression of neural population activity

*Hiroaki Hashimoto1,2,3, Justin J. Jude2,3,7, Hadar Levi-Aharoni2,3,7, Ziv M. Willians4,5,6, John D. Simeral7,8,9, Leigh R. Hochberg2,3,7,8,9, Daniel B. Rubin2,3 (1. Dep Neurological Diagnosis and Restoration, Grad Sch Med, Univ of Osaka, Suita, Japan, 2. Ctr Neurotechnology and Neurorecovery, Dept Neurol, Massachusetts General Hospital, Boston, USA, 3. Dept Neurol, Harvard Med Sch, Boston, USA, 4. Dept Neurosurg, Massachusetts General Hospital, Boston, USA, 5. Harvard–MIT Division of Health Sciences and Technology, Cambridge, USA, 6. Program in Neuroscience, Harvard Med Sch, Boston, USA, 7. Sch Eng, Brown Univ, Providence, USA, 8. Carney Inst Brain Sci, Brown Univ, Providence, USA, 9. VA Ctr Neurorestoration and Neurotechnology, VA Providence Healthcare System, Providence, USA)
Comment()

[1P-164]Chronic alteration of neurovascular activities induced by intracortical microstimulation in the mouse visual cortex

*Naofumi Suematsu1,2, Alberto L Vazquez1,3,4,5, Takashi DY Kozai1,3,5,6,7 (1. Department of Bioengineering, University of Pittsburgh, PA, USA, 2. Department of Molecular Cell Physiology, Kyoto Prefectural University of Medicine, Kyoto, Japan, 3. Center for the Neural Basis of Cognition, University of Pittsburgh and Carnegie Mellon University, Pittsburgh, PA, USA, 4. Department of Radiology, University of Pittsburgh, Pittsburgh, PA, USA, 5. Center for Neuroscience, University of Pittsburgh, PA, USA, 6. McGowan Institute for Regenerative Medicine, University of Pittsburgh, PA, USA, 7. Neuroscience Institute, Carnegie Mellon University, PA, USA)
Comment()

[1P-165]Feasibility Study of Additional Command Input Using Motor Imagery EEG During Motor Execution

*Kengo OKITSU1, Takashi ISEZAKI1, Takuya KANDA1 (1. NTT, Inc.)
Comment()

[1P-166]Comparative Study of Theta and Alpha Waves During Color Perception vs. Imagery in Virtual Reality

*TONG ZHU1, Kiyohisa Natsume1 (1. Kyushu Institute of Technology)
Comment()

[1P-168]Ultrasound elastography measurements of skeletal muscle: effects of examiner experience and measurement depth

*Tetsuo Ota1, Hina Yoshida2, Nako Masunaga2, Mitsugu Yoneda1 (1. Faculty of Health Sciences, Kanazawa University, 2. School of Health Sciences, Kanazawa University)
Comment()

[1P-170]Central glucose-sensing regulates body temperature

*Ming-Liang Lee1,2, Ching-Pu Chang1,2, Tomomi Nemoto1,2, Ryosuke Enoki1,2 (1. National Institute for Physiological Sciences, 2. The Exploratory Research Center on Life and Living Systems)
Comment()

[1P-171]Glucose metabolic responses to psychological stress vary across developmental stages in mice

*Hikari Taniguchi1, Ryuki Kunimaru1, Atsushi Kasai2, Kaoru Seiriki3, Hitoshi Hashimoto1,4,5,6,7, Ao Tomoka1,4 (1. Lab Mol Neuropharmacol, Grad Sch Pharmaceut Sci, The Univ of Osaka, Japan, 2. Dep Sys Neuropharmacol, Res Inst Env Med, Nagoya Univ, Japan, 3. Dep Inte Stress Sci, Med Res Lab, Inst Inte Res, Inst Sci Tokyo, Japan, 4. Unit Grad Sch Child Dev, The Univ of Osaka, Japan, 5. D3 center, The Univ of Osaka, Japan, 6. Inst Open Tarnsdiscip Res Initi, The Univ of Osaka, Japan, 7. Dep Mol Pharmaceut Sci, Grad Sch Med, The Univ of Osaka, Japan)
Comment()

[1P-172]Neuronal circuit mechanisms underlying vagal input to the central amygdala

*Misha Kushiro1, Musashi Yamakawa1, Takuya Sasaki1,3, Nahoko Kuga1,2 (1. Grad Sch Pharm Sci, Tohoku Univ, Sendai, Japan, 2. Frontier Research Institute for Interdisciplinary Sciences, Tohoku University, 3. Grad Sch of Medicine, Tohoku Univ, Sendai, Japan)
Comment()

[1P-173]Relationships among subjective fatigue, menstrual-related symptoms, and interoceptive accuracy across the menstrual cycle

*Meiko Hobo1, Harua Tanaka1, Mariko Nakata2, Chihiro Itoi2 (1. College of Psychology, School of Human Sciences, University of Tsukuba, 2. Institute of Human Sciences, University of Tsukuba)
Comment()

[1P-174]Baseline Autonomic State and Age Modulate HRV Dynamics Preceding Atrial Fibrillation Onset

*Hsin-Wei Yu1, Tien-Yu Hsu1, Yi-Jun Lin1, Terry B. J. Kuo1 (1. Institute of Brain Science, College of Medicine, National Yang Ming Chiao Tung University, Taipei, Taiwan)
Comment()

[1P-176]Distinct longitudinal profile of the precuneus region in insulin resistance-related atrophy

*Yuki Tanaka1, Yusuke Adachi2, Takahiro Osada2, Akitoshi Ogawa2,3, Tomohiko Shirokoshi2,4, Hiroyasu Kodama2,4, Yasushi Oshima4, Sakae Tanaka4, Hideyoshi Kaga5,6, Yoshifumi Tamura5,6, Hirotaka Watada5,6, Ryuzo Kawamori5,6, Seiki Konishi2,6,7,8 (1. Juntendo University Faculty of Medicine, Tokyo, Japan, 2. Department of Neurophysiology, Juntendo University Graduate School of Medicine, Tokyo, Japan, 3. Faculty of Economics and Business, Sapporo Gakuin University, 4. Department of Orthopedic Surgery, The University of Tokyo School of Medicine, Tokyo, Japan, 5. Department of Metabolism and Endocrinology, Juntendo University School of Medicine, Tokyo, Japan, 6. Sportology Center, Juntendo University School of Medicine, Tokyo, Japan, 7. Research Institute for Diseases of Old Age, Juntendo University School of Medicine, Tokyo, Japan, 8. Advanced Research Institute for Health Science, Juntendo University School of Medicine, Tokyo, Japan)
Comment()

[1P-177]Deletion of copper transporter 1 effects neurovascular dysfunction in the mouse hippocampus

*Jeongmin Lee1, Sohee Jeong1, Hyewon Jang1, Eunyoung Lee1, Yongho Cho1, Tae-Il Jeong2, Joong Sun Kim1, Changjong Moon1 (1. College of Veterinary Medicine and BK21 FOUR Program, Chonnam National University, Gwangju, Republic of Korea, 2. Department of Animal Science, Chonnam National University, Gwangju, Republic of Korea)
Comment()

[1P-178]Continuous monitoring of PVH oxytocin neuron activity from parturition to lactation and with integrated behavioral analysis

*Julia Ishikawa1, Kazunari Miyamichi3, Hiroko Yukinaga2 (1. Department of Life Science, School of Science, University of Hyogo, 2. Graduate School of Science, University of Hyogo, 3. RIKEN Center for Biosystems Dynamics Research)
Comment()

[1P-179]Microglial Repopulation Improves Acute Hypothermia and Behavioral Deficits in Aged Septic Mice

*Naoki Mukai1, Mohammed E Choudhury2, Junya Tanaka2, Naoki Abe2, Suguru Annen4, Noriyuki Miyaue3, Satoshi Kikuchi1, Jun Takeba4, Tasuku Nishihara2, Norio Sato1 (1. Dept Emergency Medicine, Ehime Univ Grad Sch Med, Toon, Ehime, Japan, 2. Dept Anesthesia and Perioperative Medicine, Ehime Univ Grad Sch Med, Toon, Ehime, Japan, 3. Dept Clinical Pharmacology and Therapeutics, Ehime Univ Grad Sch Med, Toon, Ehime, Japan, 4. Dept Aeromedical Services for Emergency and Trauma Care, Ehime Univ Grad Sch Med, Toon, Ehime, Japan)
Comment()

[1P-181]Development of a novel c-Fos specific marker antibody

*Daishi Hiratsuka1, Sae Kagitani1, Eriko Furube2, Satoshi Onodera1, Koki Endo1 (1. FUJIFILM Wako Pure Chemical Corporation, 2. Department of Functional Anatomy and Neuroscience, Asahikawa Medical University, Asahikawa, Hokkaido, Japan.)
Comment()

[1P-182]In vivo recording of excitatory and inhibitory neuronal inputs in the paraventricular nucleus of the hypothalamus

*Rinko Nakamura1, Kenji Takikawa4,5, Kenzo Hirose5, Takuya Sasaki2,3, Hiroyuki Igarashi2 (1. Fac Pharm Sci, Tohoku Univ, Miyagi, Japan, 2. Grad Sch Pharm Sci, Tohoku Univ, Miyagi, Japan, 3. Grad Sch Med, Tohoku Univ, Miyagi, Japan, 4. Ctr Mol Med, Jichi Med Univ, Tochigi, Japan, 5. Grad Sch Med, Univ Tokyo, Tokyo, Japan)
Comment()

[1P-184]Internal Reproductive State Dynamically Regulates Male Avoidance Behavior in C. elegans

*Satoshi Suo1 (1. Saitama Medical University)
Comment()

[1P-185]Intestinal motor activity is correlated with sleep-wake-related brain states in freely moving rats

*Honoka Kuroyanagi1, Hayato Kusakabe1, Nobuyoshi Matsumoto1,2, Yuji Ikegaya1,2 (1. Grad. Sch. Pharmaceut. Sci., Univ. Tokyo, 2. Inst. AI Beyond, Univ. Tokyo)
Comment()

[1P-186]Synchronization of P-waves and rapid eye movements during REM Sleep in mice: Toward elucidating the underlying neural mechanism

*Mai Kawata1, Hinako Kawaguchi1, Tomomi Tsunematsu2 (1. Biosystem. Sci., Grad. Sch. Life Sci., Hokkaido Univ., 2. Dept. Bio. Sci., Fac. Sci., Hokkaido Univ.)
Comment()

[1P-187]P-wave differentially modulates cortical oscillations during NREM and REM sleep

*Hinako Kawaguchi1, Mai Kawata1, Tomomi Tsunematsu2 (1. Biosystem. Sci., Grad. Sch. Life Sci., Hokkaido Univ. , 2. Dept. Bio. Sci., Fac. Sci., Hokkaido Univ.)
Comment()

[1P-188]A Mechanism for circadian rest time allocation

*Yuto Fujita1, Youich Tanaka1, Masao Doi1 (1. Graduate school of Pharmaceutical Sciences, Kyoto university, Kyoto, Japan)
Comment()

[1P-189]Optimizing Sleep as a Neuroscience-based Approach: Sleep Data in Professional Baseball Players and Their Associations with Athletic Performance

*Fumiya Shinohara1, Jun Sasahara2,1 (1. Seibu Lions, inc., 2. Institute of Sports Science and Medicine, Teikyo University)
Comment()

[1P-190]Attempt to Control Sleep Dynamics via Closed-Loop Stimulation Integrating EEG and Heart Rate Signals

*Renta Kokubo1, Shinnosuke Mizuno1, Nayuta Mizuguchi1 (1. FastNeura.INC)
Comment()

[1P-191]KCTD-dependent molecular regulation of sleep-state architecture in mammals

*Syunsuke Iyama1,2,5, Kazuya Miyanishi1,2,4, Akimasa Koyama1,2,5, Tomoyuki Fujiyama1,2, Hiromasa Funato1,2,3, Masashi Yanagisawa1,2 (1. International Institute for Integrative Sleep Medicine (WPI-IIIS), Univ of Tsukuba, Japan, 2. Tsukuba Institute for Advanced Research (TIAR), Univ of Tsukuba, Japan, 3. Grad Sch Med, Univ of Toho, Tokyo, Japan, 4. RIKEN Center for Biosystems Dynamics Research, 5. School of Integrative and Global Majors (SIGMA), Ph.D. Program in Humanics, Univ of Tsukuba, Japan)
Comment()

[1P-193]A New Mouse Model for in vivo Evaluation of Anti-human TFR1 Antibody Penetration Across Blood-brain Barrier and Muscle

*Shiyu Zhang1, Meiqi Zhang1, Chong Li1, Fengxing Gu1, Jing Guo1, Xiaofei Zhou1 (1. Biocytogen Pharmaceuticals (Beijing) Co., Ltd., Beijing, China)
Comment()

[1P-194]Microtubule affinity-regulating kinase 4 deficiency protects against age-related obesity in female mice by mediating tanycyte aging and maintaining brain-based metabolic control

*Sophia Jobien Maquiling Limlingan1, Yutaka Hanada1, Taro Saito1, Adam Zachary Weitemier1, Kanae Ando1 (1. Biological Sciences Department, Graduate School of Science, Tokyo Metropolitan University)
Comment()

[1P-195]Dopamine neurons with heterogeneous reward prediction error timescales encode motivation across multiple horizons

*Hideyuki Matsumoto1, Kenji Mizuseki1 (1. Osaka Metropolitan University)
Comment()

[1P-196]Distinct Neural Pathways for Math-Specific and General Growth Mindsets during Foundational Numerical Cognition

*Xin-Yu Chen1, Chan-Tat Ng1, Ting-Ting Chang1,2 (1. Dept Psychol, National Chengchi Univ, Taipei, Taiwan, 2. Research Ctr Mind Brain & Learning, National Chengchi Univ, Taipei, Taiwan)
Comment()

[1P-199]Spindle-related thalamic reticular nucleus dynamics distinguish fear discrimination from generalization

*Yu Sato1, Mariko Miyata1 (1. Tokyo Women's Medical University)
Comment()

[1P-200]Functional analysis of PACAP-dependent neural circuits involved in the regulation of stress responses

*Chiaki Asaka1, Atsuko Hayata1,2,3, Yusuke Shintani4, Yui Yamano1, Rei Takeshita1, Taisei Oguri1, Hitoshi Hashimoto1,3,5,6,7 (1. Laboratory of Molecular Neuropharmacology, Graduate School of Pharmaceutical Sciences, Osaka University, 2. Department of Pharmacology, Graduate School of Dentistry, Osaka University, 3. Center for Child Mental Development, United Graduate School of Child Development, Osaka University, 4. Department of Physiology and Cell Biology, Kobe University School of Medicine, 5. D3 center, Osaka University, 6. Institute for Open and Transdisciplinary Research Initiatives, Osaka University, 7. Department of Molecular Pharmaceutical Science, Graduate School of Medicine, Osaka University)
Comment()

[1P-201]Post-stress self-grooming promotes stress resilience via lateral septum activation in mice.

*Yu-Hsuan Su1, Po-Wu Gean2, Ya-Hsin Hsiao2 (1. Dept of Life Sciences, National Cheng Kung University, Tainan, Taiwan, 2. Dept of Pharmacology, National Cheng Kung University, Tainan, Taiwan)
Comment()

[1P-202]Analysis of stress-induced peripheral metabolic changes and their underlying neural circuitry

*Wenran Qiu1,2, Kohei Ota1,3, Midori Nagai2, Kazuki Tainaka4, Yasuyuki Osanai2, Reiji Yamazaki2, Nobuhiko Ohno2,5, Tomoyuki Furuyashiki1,3, Hirotaka Nagai2 (1. Division of Pharmacology, Graduate School of Medicine, Kobe University, 2. Department of Anatomy, Division of Histology and Cell Biology, School of Medicine, Jichi Medical University, 3. Department of Pharmacology, Graduate School of Medical and Dental Sciences, Institute of Science Tokyo, 4. Division of Systems Neuropathology, Department of Basic Neuroscience, Brain Research Institute, Niigata University, 5. Division of Ultrastructural Research, National Institute for Physiological Sciences)
Comment()

[1P-203]Drones as multimodal threat stimuli for mice: neuronal activity in medial prefrontal cortex of freely moving mice

*Nazuna Aihara1, Reo Akasaka1, Koki Ito1, Hana Ichihara1,2, Takeru Suzuki3, Hiroyuki Okuno3, Masaki Kakeyama1,2,4 (1. Graduate School of Human Sciences, Waseda University, Tokorozawa, Japan, 2. Advanced Research Center for Human Sciences, Waseda University, Tokorozawa, Japan, 3. Graduate School of Medical and Dental Sciences, Kagoshima University, Kagoshima, Japan, 4. Faculty of Human Sciences, Waseda University, Tokorozawa, Japan)
Comment()

[1P-204]Trait Cognitive Reappraisal Reduces the Neural Costs of Math Anxiety During Arithmetic Problem Solving in Children

*Yu-En Sun1, Xin-Yu Chen1, Chan-Tat Ng1, Ting-Ting Chang1,2 (1. Department of Psychology, National Chengchi University, Taipei, Taiwan , 2. Research Center for Mind, Brain & Learning, National Chengchi University, Taipei, Taiwan)
Comment()

[1P-205]Identification of sex differences in social stress-induced behavioral microstructures using machine learning-assisted behavioral clustering

*Tomoki Nitta1, Hiroki Rokujo1, Leo Kojima1, Tomoka Ao1,2, Hitoshi Hashimoto1,2,3,4,5, Kaoru Seiriki1,6 (1. Lab Mol Neuropharmacol, Grad Sch Pharmaceut Sci, Osaka Univ, Osaka, Japan , 2. Unit Grad Sch Child Dev, Osaka Univ, Osaka, Japan, 3. D3 Center, Osaka Univ, Osaka, Japan, 4. Open Tarnsdiscip Res Initi, Osaka Univ, Osaka, Japan, 5. Dep Mol Pharmaceut Sci, Grad Sch Med, Osaka Univ, Osaka, Japan, 6. Dep Integrative Stress Science, Medical Research Laboratory, Inst Integrated Research, Inst Science Tokyo, Tokyo, Japan)
Comment()

[1P-210]Anxiety and depressive-like behaviors are present with blood-brain barrier disruption in intestinal inflammation

*Jaehyun Jeong1,2,6,7, So Yeon Park1,2,5,7, Min Joung Lee1,7, Jong Hun An1,2,6,7, Chang Hee Pyo1,2,6,7, Young Eun Kim1,2,6,7, Ryuha Jang1,7, Min-Kyung Yeo2,3,7, Woosuk Chung2,4,7, Jun Young Heo1,2,6,7 (1. Department of Biochemistry, Chungnam National University School of Medicine, Daejeon, 35015, South Korea, 2. Department of Medical Science, Chungnam National University School of Medicine, Daejeon, 35015, South Korea, 3. Department of Pathology, Chungnam National University School of Medicine, Daejeon, 35015, South Korea, 4. Department of Anesthesiology and Pain Medicine, Chungnam National University Hospital, Chungnam National University School of Medicine, Daejeon, 35015, South Korea, 5. Department of Otolaryngology-Head and Neck Surgery, Chungnam National University Hospital, Chungnam National University School of Medicine, Daejeon, 35015, South Korea, 6. Brain Korea 21 FOUR Project for Medical Science, Chungnam National University, Daejeon, 35015, South Korea, 7. System Network Inflammation Control Research Center, Chungnam National University College of Medicine, Daejeon, 35015, South Korea (MRC))
Comment()

[1P-211]Short-chain Fatty Acid Regulates Anxiety-Like Behavior Induced by Looming Visual Stimuli

*Yu-Chia YU1, Wei-Li WU2,3 (1. Department of Life Sciences, National Cheng Kung University, Tainan, Taiwan, 2. Department of Physiology, College of Medicine, National Cheng Kung University, Tainan, Taiwan, 3. Institute of Basic Medical Sciences, College of Medicine, National Cheng Kung University, Tainan, Taiwan)
Comment()

[1P-212]From Neuroticism to Depression: Examining the Parallel Mediating Mechanisms of Loneliness and Stress Reactivity Through a Four-Wave Longitudinal Design

Chen-Tung Hua1, *Yi-ting Wang2, Han-Yun Chang2 (1. Department of Psychiatry, Buddhist Tzu Chi General Hospital, Taichung Branch, Taichung, Taiwan, R.O.C, 2. Clinical Psychological center, Asia University Hospital, No. 222, Fuxin Rd., Wufeng Dist., Taichung City 413505, Taiwan..)
Comment()

[1P-213]Ketogenic diet alleviates anxiety- and depression-like behaviors accompanied by changes in gut microbiota and brain metabolism in Serotonin transporter knockout mice

*Hirotaka Shoji1, Yasuhiro Maeda2, Kazutaka Ikeda3,4, Tsuyoshi Miyakawa1 (1. Div of Systems Med Sci, Ctr for Med Sci, Fujita Health Univ, Aichi, Japan, 2. Open Facil Ctr, Fujita Health Univ, Aichi, Japan, 3. Addict Subst Proj, Tokyo Met Inst of Med Sci, Tokyo, Japan, 4. Dep of Neuropsychopharmacol, Natl Inst of Mental Health, Natl Ctr of Neurol Psychiatry, Tokyo, Japan)
Comment()

[1P-214]Energy Landscape Analysis of PTSD using task-based fMRI during Contextual Fear Conditioning and Extinction

*Kent-Zellary Anareta Enriquez1, Gregory John Quirk2, Paul Rossener Del Rosario Regonia1 (1. Dept of Computer Science, Univ of the Philippines Diliman, Quezon City, Philippines, 2. NIMBB, NIH, Univ of the Philippines Manila, Manila, Philippines)
Comment()

[1P-216]PTSD-Like Stress Enhances Both the Rewarding and Aversive Conditioned Effects of Morphine in Adult Male Rats

*YI CHUN YU1, Yu Tung Tsai1, Yung Chen Hsu1, Andrew Chih Wei Huang1 (1. Foguang university/student)
Comment()

[1P-217]Re-exposure to 5-API(5-(2-aminopropyl)indole) induces an inverted U-shaped locomotor response following repeated administration in rats

*Sujung Oh1, Min Jeong Ku2, Seohyeon Lee3, Hyung Shin Yoon3, Hee Young Kim3, Jeong-Hoon Kim1,3 (1. Department of Physiology, Graduate School of Medical Science, Brain Korea 21 Project, Yonsei University College of Medicine, Seoul 03722, Republic of Korea. , 2. CLEVERcns, Seoul National University Hospital, Seoul 03080, Republic Korea. , 3. Department of Physiology, Yonsei University College of Medicine, Seoul 03722, Republic of Korea.)
Comment()

[1P-218]Ketamine Suppresses Reinstatement of Cocaine-Associated Memory in Young-Adult but Not Middle-Aged Mice: Implications for Extracellular Matrix Remodeling and Impaired Neurogenesis

*Jun Yamada1, Schoichiro Maeda1, Kyoko Iinuma1, Shozo Jinno1 (1. Kyushu Univ, Grad Sch Med Sci, Dept Anat & Neurosci)
Comment()

[1P-219]Administration-route dependent reward and aversion effects of Tetrahydrocannabinol in mice

*YONGQING ZHANG1, Chul Kyu Lee1, Bang Yeon Hwang1, Jaesuk Yun1 (1. Chungbuk National University, Cheongju-si, Republic of Korea)
Comment()

[1P-221]In vivo measurement of cAMP dynamics in the nucleus accumbens of mice during reward learning

*Hina Kuramata1, Itaru Imayoshi1,2, Tatsushi Yokoyama2 (1. Graduate school of biostudies, Kyoto university, Kyoto, Japan, 2. Institute for Life and Medical Sciences, Kyoto University)
Comment()

[1P-222]Distinct Dopaminergic Signaling Patterns in the Ventral and Tail of Striatum During Avoidance of Aversive Situations

*Mijoo Park1,3, Jihye Yang3, HyungGoo R. Kim1,2,3 (1. Department of Intelligent Precision Healthcare Convergence, Sungkyunkwan University, Suwon, Korea, 2. Department of Biomedical Engineering, Sungkyunkwan University, Suwon, Korea, 3. Center for Neuroscience Imaging Research, Institute for Basic Science, Suwon, Korea)
Comment()

[1P-223]Molecular mechanisms of risk-return decision making via reinforcement learning

*Kihito Takashina1,3, Masanobu Ishio1,2, Ryo Sasaki1 (1. Div. of Multisensory Integration Systems, Dept. of System Neuroscience, NIPS, Aichi, Japan, 2. Grad Sch of Medicine, Kyoto Univ, Kyoto, Japan, 3. Dept. of Medicine, Sch of Medicine, Nagoya Uni, Aichi, Japan)
Comment()

[1P-226]To Examine the Role of the Perirhinal Cortex in Long-Term Memory Formation and Storage of Trace Fear Conditioning

*Yen-Chih Peng1, Chun-hui Chang1 (1. Inst of Sys Neu, Univ of Tsing Hua, Hsinchu, Taiwan)
Comment()

[1P-227]A Single Extracellular N-Linked Glycan Couples AMPA Receptor Function and Memory Persistence

*Ryosuke Midorikawa1, Yoshihiko Wakazono1, Kogo Takamiya1 (1. Faculty of Medicine)
Comment()

[1P-228]Associative learning is gated by an experience-dependent cortico-cortical top-down input

*Yoshiki Ito1,2,3, Yoshihito Saito1, Yusuke Atsumi1, Yasuhiro Oisi1, Chie Matsubara1, Shigeki Kato4, Kazuto Kobayashi4, Kenta Kobayashi2, Yumiko Yoshimura2, Masanori Murayama1 (1. RIKEN CBS, Saitama, Japan, 2. NIPS, Okazaki, Aichi, Japan, 3. Grad Sch Pharm Sci, Aichi, Japan, 4. Fukushima Med Univ, Fukushima, Japan)
Comment()

[1P-229]Identification of a novel interneuron secreting neuropeptide in the brain-gut circuit governing temperature acclimation of C. elegans

*Iku Yonezawa1,3, Seiya Kamino2,3, Toru Miura1,2,3, Akane Ohta1,2,3,4, Atsushi Kuhara1,2,3,5 (1. Facul. Sci & Engineer. Konan Univ., 2. Grad. Sch. Sci. Konan Univ. , 3. Inst. of Integral NeuroBiol. Konan Univ., 4. PRESTO JST, 5. PRIME AMED)
Comment()

[1P-230]Temperature-tolerance diversity arising from randomly accumulated mutations in C. elegans over 1,000 generations under constant-temperature conditions

*Miina Fujisawa1,2, Seiya Kamino1,2, Atsushi Toyoda3, Atsushi Doi4, Hideki Hirakawa5, Atsushi Kuhara1,2,6, Akane Ohta1,2,7 (1. Graduate school of Natural Science, Konan University, 2. Institute for Integrative neurobiology, Konan University, 3. National institute of genetics, 4. Kyusyu University, 5. Faculty of Agriculture, Kyusyu University, 6. PRIME, AMED, 7. PRESTO, JST)
Comment()

[1P-231]Understand the role of hippocampal- thalamic-cortical coordination in memory consolidation

*MUHANG LI1,2, Yoshihito Saito3, Thomas McHugh1,2 (1. RIKEN Center for Brain Sciences, 2. Graduate School of Arts and Sciences, The University of Tokyo, 3. Cornell University Department of Neurobiology and Behavior)
Comment()

[1P-232]The vagus nerve enhances cognitive functions through the default mode network

*Tateki Togashi1, Musashi Yamakawa1, Ziyan Xie1, Nahoko Kuga1,2, Takuya Sasaki1,3 (1. Dept. Pharmacol., Grad. Sch. Pharm., Tohoku Univ., Miyagi, Japan., 2. Creative Interdisciplinary Research Division, Frontier Research Institute for Interdisciplinary Sciences, Tohoku Univ., 3. Dept. Neuropharmacol., Grad. Sch. Med., Tohoku Univ., Miyagi, Japan.)
Comment()

[1P-233]Isoflavone-rich mung bean leaf extract attenuates scopolamine-induced cognitive impairment and hippocampal alterations in mice

*Yuran Lee1, Sohi Kang1 (1. College of Medicine, Gyeongsang National University, Jinju, Republic of Korea)
Comment()

[1P-234]Epicatechin enhances long-term memory by modulating synaptic plasticity in the tentacle pathway of the land slug

*Yoshimasa Komatsuzaki Komatsuzaki1, Tianle He1, Aya Nagata2, Keisuke Matsui1, Ken Lukowiak3, Minoru Saito4 (1. Grad Sch of Sci & Tech, Nihon Univ, Tokyo, Japan, 2. CST, Nihon Univ, Tokyo, Japan, 3. Cumming Sch of Med, Univ of Calgary, Calgary, Canada, 4. Grad Sch of Int Basic Sci, Nihon Univ, Tokyo, Japan)
Comment()

[1P-235]Dissociating experience- and valence-dependent modulation of hippocampal spatial representations during defensive behavior

*Suteera Vibulyaseck1, Kazumasa Z. Tanaka1 (1. Memory Research Unit, OIST, Okinawa, Japan)
Comment()

[1P-236]Postnatal Loss of Dab1 Induces Psychiatric-Relevant Behavioral Deficits in Mice

*Nur Rasyiqin Rasli1, Yu Katsuyama1 (1. Shiga University of Medical Science)
Comment()

[1P-237]The effect of nicotine on olfactory dysfunction-induced impairment of object recognition memory in mice

*Keisuke Nishikawa1, Ibuki Kawasaki2, Eito Oowada1, Kimika Hirano2, Naoya Nishitani1,2, Satoshi Deyama1,2, Katsuyuki Kaneda1,2 (1. Lab. Mol. Pharmacol., Inst. Med., Pharmaceut., Health Sci., Kanazawa Univ., 2. Lab. Mol. Pharmacol., Sch. Pharmaceut. Sci., Kanazawa Univ.)
Comment()

[1P-238]Impact of gamma music on auditory evoked potentials in the rat auditory cortex

*Taiki Yaginuma1, Shinichi Kumagai1,2, Riko Iizuka1, Tomoyo Isoguchi Shiramatsu1, Yusuke Yokota3, Shinya Fujii3, Yasushi Naruse3, Kensuke Kawai2, Hirokazu Takahashi1 (1. Graduate School of Information Science and Technology, The University of Tokyo, Tokyo, Japan, 2. Department of Neurosurgery, Jichi Medical University, Tochigi, Japan, 3. Vie Style)
Comment()

[1P-239]Reconsolidation of food memory by memory retrieval without feeding

*Momoko Shishido1, Shotaro Hiranaka1, Satoshi Kida1 (1. The University of Tokyo)
Comment()

[1P-240]Peripheral modulation of brain plasticity: Vagus nerve stimulation drives divergent vascular dynamics and facilitates learning

*Junyu Chen1, Yoko Ikoma1, Ko Matsui1 (1. Tohoku University)
Comment()

[1P-241]Transformation of population geometry for memory utilization in the primate hippocampus

*Yudong Fu1, Cen Yang2, Heping Cheng2,3, Yuji Naya4,5,6 (1. School of Life Sciences, Peking University, Beijing, China, 2. National Biomedical Imaging Center, College of Future Technology, Peking University, Beijing, China, 3. Peking-Tsinghua Center for Life Sciences, Peking University, Beijing, China, 4. School of Psychological and Cognitive Sciences, Peking University, Beijing, China, 5. IDG/McGovern Institute for Brain Research, Peking University, Beijing, China, 6. Beijing Key Laboratory of Behavior and Mental Health, Peking University, Beijing, China)
Comment()

[1P-242]Behavioral characterization and neural mechanisms of sensory-specific satiety in mice

*Kanoko Suga1, Ayumu Yoshida1, Xi Cheng1, Satoshi Kida1 (1. The University of Tokyo)
Comment()

[1P-243]Roles of S-palmitoylation in the hippocampus in the consolidation of fear memory

*Reiji Mashima1, Jin Xu1, Satoshi Kida1 (1. The University of Tokyo)
Comment()

[1P-244]Top-down control of associative fear memory by prefrontal cortex inputs to the higher-order auditory cortex

*Satoru Sasaki1, Haruki Yamamoto1, Naoki Matsuo1,2 (1. Grad Sch Syst Life Sci, Kyushu Univ, Fukuoka, Japan, 2. Faculty of Science, Kyushu University, Fukuoka, Japan)
Comment()

[1P-245]Protein kinase Cα signalling in striatal cholinergic interneurons is engaged in early action–outcome updating during reversal learning

*Yuting Chen1, Bernard Balleine1 (1. University of New South Wales)
Comment()

[1P-255]Long-range GABAergic projection from the subiculum to medial entorhinal cortex in rodents

*Takumi Shibuya1, Takahiro Aimi1, Haruka Umeno2, Keiko Karasawa1, Ken-Ichiro Tsutsui2, Shinya Ohara2,3, Takuma Kitanishi1,4 (1. Department of Life Sciences, Graduate School of Arts and Sciences, The University of Tokyo, 2. Laboratory of Systems Neuroscience, Tohoku University Graduate School of Life Sciences, 3. Division for the Establishment of Frontier Sciences of the Organization for Advanced Studies, Tohoku University, 4. Komaba Institute for Science, The University of Tokyo)
Comment()

[1P-256]Acute Sleep Deprivation Disrupts Spatial Coding and Functional Network Organization in the Medial Entorhinal Cortex

*Yuanjing Liu1,2, Menghan Zhao1,3, Hong Jin1,2, Ruojin Liu1,4, Siyi Zhao1,2, Chenglin Miao1,2,3,4 (1. PKU-IDG/McGovern Institute for Brain Research, Peking University, Beijing, China, 2. School of Life Sciences, Peking University, Beijing, China, 3. Peking University-Tsinghua University-National Institute of Biological Sciences Joint Graduate Program, Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China, 4. Peking-Tsinghua Center for Life Sciences, Beijing, China)
Comment()

[1P-258]Interplay Between Event-Related Potentials and Peripheral Auditory Responses During Inhibition of Return

*Madoka Matsuge1, Sho Otsuka1,2, Seiji Nakagawa1,2,3 (1. Chiba Univ, Chiba, Japan, 2. Center for Frontier Medical Engineering, Chiba Univ, Chiba, Japan, 3. Med-Tech Link Center, Chiba Univ Hospital, Chiba, Japan)
Comment()

[1P-259]Neural Dynamics of Meta-Awareness in Mind-Wandering: A Simultaneous fMRI-EEG Study

*Issaku Kawashima1,2, Tomosumi Haitani1, Tomohiko Kishi1, Mizuki Tsutsumi1, Takeshi Ogawa1, Toshikazu Kuroda1, Saori C Tanaka1,2 (1. Advanced Telecommunications Research Institute International (ATR), 2. Nara Institute of Science and Technology)
Comment()

[1P-260]Effects of spatial attention on wind-elicited escape behavior of crickets

*Jungseok Oh1, Hikaru Chida1, Matasaburo Fukutomi2, Hiroto Ogawa2 (1. Biosys. Sci. Crs., Grad. Sch. Life Sci, Hokkaido Univ. , 2. Dept. Bio. Sci., Fac. Sci., Hokkaido Univ.)
Comment()

[1P-262]Unraveling species-specific auditory traits in female mosquitoes through comparative analysis

*Wan-Tze tze Chen1,2, Alberto J Thornton1, Yifeng Xu1,2, Matthew Paul Su1,2,3, Azusa Kamikouchi1,2 (1. Grad Sch Sci, Nagoya Univ, Nagoya, Japan, 2. ITbM, Nagoya Univ, Nagoya, Japan, 3. IAR, Nagoya Univ, Nagoya, Japan)
Comment()

[1P-263]Sensory History-based Modulation of Early Sensory Processing Underlying Perceptual Inference

*Hao Mei1, Patrick S. Hosford1, Hosana Tagomori1, Cillian Hayde1, Miho Nakajima1, Lukas Ian Schmitt1 (1. RIKEN Center for Brain Science)
Comment()

[1P-265]Multiplex encoding of emotion and performance by the primate dorsal raphe neurons

*Kae Nakamura1, Masaharu Yasuda1 (1. Kansai Medical University)
Comment()

[1P-266]Autonomic responses to errors during skilled typewriting

*Yasuhisa Maruyama1,2, Atsushi Yokoi1,2, Norberto Eiji Nawa1,2 (1. Center for Information and Neural Networks, National Institute of Information and Communications Technology, Suita, Osaka, Japan, 2. Graduate School of Frontier Biosciences, The University of Osaka, Suita, Osaka, Japan)
Comment()

[1P-268]Neural Dynamics of Working Memory Representations for Natural Scenes

*siyuan xiang1,2, Jiaxin Wang1, Satoshi Nishida1,2,3,4 (1. 1Center for Information and Neural Networks (CiNet), Advanced ICT Research Institute, National Institute of Information and Communications Technology (NICT), 2. 2Graduate School of Frontier Biosciences, Osaka University , 3. Center for Human Nature, Artificial Intelligence, and Neuroscience (CHAIN), Hokkaido University, 4. Ministry of Internal Affairs and Communications)
Comment()

[1P-269]Attractor stability shapes independent and coherent timing modes in frontoparietal networks

*Hiroto Imamura1, Fumiya Imamura1, Reiko Hira1, Yoshikazu Isomura1, Riichiro Hira1 (1. Graduate School of Medical and Dental Sciences, Institute of Science Tokyo, Tokyo, Japan)
Comment()

[1P-270]Differential Sensitivity of Auditory Cognitive and Perceptual Functions to Early Aging

*Shotaro Wakamaki1, Sho Otsuka2,3,1, Seiji Nakagawa2,3,4 (1. Med Eng, Dept Integrated Eng, Chiba Univ, Chiba, Japan, 2. Frontier Med Eng Center, Chiba Univ, Chiba, Japan, 3. Grad Sch of Eng, Chiba Univ, Chiba, Japan, 4. MedTech Link Center, Chiba Univ Hospital, Chiba, Japan)
Comment()

[1P-271]Examination of working memory and brain structure in Lrfn2/SALM1 heterozygous mice.

*Yukiha Furuta1, Nur Azrah Fazera Mohd Ariffin1, Naoko Morimura1, Seiji Hitoshi1 (1. Shiga University of Medical Science)
Comment()

[1P-273]Dynamic brain states underlying confidence revealed through simultaneous EEG-fMRI

*Takeshi Ogawa1, Toshikazu Kuroda1, Mizuki Tsutsumi1, Tomohiko Kishi1, Motoaki Kawanabe1 (1. CMC, ATR, Kyoto, Japan)
Comment()

[1P-274]Rule Generalization in a Two-Stage Visual Discrimination Task in Mice

*HUAYI GAO1,2, Taku Hirota1,2, Akihiro Funamizu1,2 (1. Graduate School of Arts and Sciences, Univ of Tokyo, Tokyo, Japan, 2. Institute for Quantitative Biosciences, Univ of Tokyo, Tokyo, Japan)
Comment()

[1P-275]Noradrenergic inputs to the prefrontal cortex regulate deliberation and hippocampal neural activity during decision making

*Seiichiro Amemiya1, Thomas McHugh1 (1. RIKEN Center for Brain Science)
Comment()

[1P-276]Distinct cortical circuits for subjective value and cue-reward association during classical conditioning in mice

*Ryo Aoki Aoki1, Momoko Daiku1, Yasuhiro R Tanaka1 (1. Tamagawa University)
Comment()

[1P-277]Analysis of locomotor control based on reward information acquired during ongoing goal-directed behavior in head-fixed mice

*Noritaka Imai1, Tsuyoshi Setogawa1,2, Jumpei Matsumoto1,2, Hiroshi Nishimaru1,2 (1. System Emotional Science, Faculty of Medicine, University of Toyama, Toyama, Japan, 2. System Emotional Science, Faculty of Medicine, University of Toyama, Toyama)
Comment()

[1P-278]Decision-making by combining different predictions of others' choices

*Mayank Aggarwal1, Norihiro Harasawa1, Kenichi Ueno2, Ning Ma3,1, Hiroyuki Nakahara1 (1. Laboratory for Integrated Theoretical Neuroscience, RIKEN Center for Brain Science, Wako, Japan , 2. Support Unit for Functional Magnetic Resonance Imaging, RIKEN Center for Brain Science, Wako, Japan , 3. Hangzhou Institute of Medicine, Chinese Academy of Sciences, Hangzhou, China)
Comment()

[1P-279]Anterior Insula Cortex Causally Encodes Context-dependent Inequity in Social Valuation

*QIANG ZHANG1, Masahiko Haruno2,1 (1. University of Osaka, 2. Center for Information and Neural Networks)
Comment()

[1P-280]Investigating a Basal Forebrain–Lateral Habenula Circuit for Rapid Behavioral Stopping

*Kuan-Yun Ting1, Shih-Chieh Lin1,2 (1. Inst of Neurosci, Natl Yang Ming Chiao Tung Univ, Taipei, Taiwan, 2. Brain Res Cent, Natl Yang Ming Chiao Tung Univ, Taipei, Taiwan)
Comment()

[1P-281]Knowing when to chase or search:
Automated segmentation reveals flexible behavioral control in rat predation

*Shoko Yuki1, Koki Mimura1, Hirofumi Morishita1 (1. National Center of Neurology and Psychiatry National Institute of Neuroscience)
Comment()

[1P-282]Task-general scaling of learning strategies with system size

*Masahiro Nakamura1, Tomoki Kurikawa1 (1. Future University Hakodate)
Comment()

[1P-285]Asymmetric neural dynamics of past and future perspective-taking revealed by EEG and effective connectivity analysis

*Shingo Tokimoto1, Naoko Tokimoto2 (1. Mejiro University, 2. Shobi University)
Comment()

[1P-286]Early-life environmental impact on marmoset vocal development

*Jay Patrick Nakamura1, Bin Wu2, Natsuki Arai1, Satoshi Nakamura2,3, Tomomi Shimogori1 (1. Center for Brain Science, RIKEN, Saitama, Japan, 2. Center for Advanced Intelligence Project, RIKEN, Tokyo, Japan, 3. School of Artificial Intelligence, Chinese University of Hong Kong, Shenzhen, China)
Comment()

[1P-287]Dark chocolate modulates brain activation during second language acquisition depending on proficiency

*Mina Shimizu1, Aoi Fujieda2, Kentaro Nakamura2, Midori Natsume2, Kuniyoshi L Sakai1 (1. Graduate School of Arts and Sciences, Univ of Tokyo, 2. Health Science Research Unit, R&D Division, Meiji Co., Ltd.)
Comment()

[1P-288]Multivariate activity patterns in the right insular cortex predict trial-by-trial speech responses in adults who stutter

*Seifu Murata1, Daichi Iimura3, Aya Ihara2, Masahiko Haruno2,4 (1. Faculty of Medicine, Kyoto University, Kyoto, Japan, 2. Center for Information and Neural Networks, National Institute of Information and Communications Technology, Osaka, Japan, 3. Institute of Human Sciences, University of Tsukuba, Ibaraki, Japan, 4. Graduate School of Frontier Biosciences, Osaka University, Osaka, Japan)
Comment()

[1P-291]Brain Oscillatory Activity Underlying "Unwilling Acceptance" Behavior

*Takayuki Horinouchi1,2, Saori Tanaka1,2 (1. Nara Institute of Science and Technology, 2. Advanced Telecommunications Research Institute International)
Comment()

[1P-292]Neuronal transcriptome analysis for social dominant-specific gene expression patterns in several brain regions

*Hinase Moridono1,2, Yusuke Kishi1,2 (1. Institute for Quantitative Bioscience, 2. Faculty of Pharmaceutical Sciences, The University of Tokyo)
Comment()

[1P-293]Oscillatory neural mechanisms supporting dyadic collective intelligence during communicative decision making

*Saya Kawaguchi1, Hiroaki Mizuhara1 (1. Nara Women's University)
Comment()

[1P-294]Neural Dynamics of Perspective Taking in a Basketball Tactical Task

*Sakura Hirano1, Hiroaki Mizuhara1 (1. Nara Women's University)
Comment()

[1P-295]Neural mechanism underlying the characteristics of grouping behavior in Drosophila

*Tomoka Nozaki1, Hayato M. Yamanouchi1, Azusa Kamikouchi1, Ryoya Tanaka1 (1. Nagoya University)
Comment()

[1P-296]Inhibitory Neuron Diversity: A Key to Understanding Social Behavior and Autism Spectrum Disorder

*Takayuki Kuroiwa1, Yoshinobu Nakamura1, Winda Ariyani1, Hikaru Kubota1, Kanto Ozaki1, Aito Narita1, Goichi Miyoshi1 (1. Grad Sch Med, Gunma Univ, Gunma, Japan)
Comment()

[1P-297]Social experience modulates responses the neurons in locus coeruleus and physiological reaction to social behavior in zebra finch pairs

*Mst Ruksana Yesmin1, Yoko Yazaki-Sugiyama1 (1. Neuronal Mechanism for Critical Period Unit, Okinawa Institute of Science and Technology (OIST) Graduate University, Okinawa, Japan)
Comment()

[1P-298]Modulation of rat behavior via contingent motions of a rat-sized robot

*Yukihiko Shinobu1, Karin Oshima1, Tomoyo Isoguchi Shiramatsu1, Hirokazu Takahashi1,2 (1. Graduate School of Information Science and Technology, The University of Tokyo, Tokyo, Japan, 2. International Research Center for Neurointelligence (WPI-IRCN), The University of Tokyo, Tokyo, Japan)
Comment()

[1P-299]Neural mechanisms underlying the memory-enhancing effect of tryptophan

*Sakura Ono1, Kanami Sugiyama1, Toshiyuki Tanimizu1, Rie Ishikawa1, Satoshi Kida1 (1. University of Tokyo)
Comment()

[1P-300]Development of a Social Interaction Assessment System in Common Marmosets

*Keisuke Kunitomo1, Mana Takahara1, Risako Morishita1, Yumiko Yamazaki2, Kazuhito Ikeda3,4, Hirotaka Onoe1,5 (1. Laboratory of Neuropsychopharmacology, Faculty of Pharmaceutical Sciences, Kobe Gakuin University, Kobe, Japan, 2. Department of Psychological Sciences, Niigata University of Health and Welfare, Niigata, Japan, 3. Higher Brain Function Research, R&D Division, Sumitomo Pharma Co., Ltd., 4. Drug Discovery and Translational Medicine Laboratory, Shiga University of Medical Science, Otsu, Japan, 5. Human Brain Research Center, Kyoto University Graduate School of Medicine)
Comment()

[1P-301]The influence of contrarian individuals on collective behavior in medaka

*Koki Sakai1, Shinichi Nakagawa1, Saori Yokoi1 (1. Hokkaido University)
Comment()

[1P-302]Circuit mechanisms for updating negative social valence in familiar individuals

*Narutoshi Suto1,2, Mu-yun Wang1, Shota Morikawa4, Kentaro Tao1, Myung Chung1, Ziyan Huang2,1, Yuji Ikegaya5, Haruki Takeuchi4, Shinichiro Kira3, Teruhiro Okuyama1,2 (1. IQB, Univ of Tokyo, Tokyo, Japan, 2. Grad Sch Med, Univ of Tokyo, Tokyo, Japan, 3. Dept Psychol, Florida State Univ, Tallahassee, FL, USA, 4. Grad Sch Sci, Univ of Tokyo, Tokyo, Japan, 5. Grad Sch Pharm. Sci., Univ of Tokyo, Tokyo, Japan)
Comment()

[1P-303]Neural Mechanisms Underlying Recognition of Death in Conspecifics

*Hiroh Ito1,2, Takumi Itakura3, Kentaro Tao1, Reiko Uenoyama5, Shota Morikawa4, Shintaro Mise1, Suto Narutoshi1,2, Akiyuki Watarai1, Ziyan Huang1,2, Myung Chung, Murata Ken6, Kazushige Touhara6, Masao Miyazaki5, Haruki Takeuchi4, Teruhiro Okuyama1 (1. Institute for Quantitative Biosciences (IQB), 2. Grad Sch Med, Univ of Tokyo, Tokyo, Japan, 3. Caltech, Pasadena, California, 4. Grad Sch Sci, Univ of Tokyo, Tokyo, Japan, 5. Dept Bioresour Sci, United Grad Sch Agric Sci, Iwate, Japan, 6. Grad Sch Agric Life Sci, Univ of Tokyo, Tokyo, Japan)
Comment()

[1P-304]Influence of the dominance hierarchy on collaborative behavior in male mice: development of the Tsunahiki task

*Rino Iwabuchi1,2, Tomoaki Murakawa1, Shinnosuke Dezawa3,4, Kotarou Hattori1, Yui Kohno1, Setogawa Tsuyoshi5,6, Mariko Nakata1,3,7 (1. Lab Behav Neuroendocrinol, Univ Tsukuba, Ibaraki, Japan, 2. Grad Sch Compr Hum Sci, Univ Tsukuba, Tsukuba, Ibaraki, Japan, 3. AIST, Ibaraki, Japan, 4. Fac Rehabil, R Prof Univ Rehabil, Ibaraki, Japan, 5. Fac Med, Univ Toyama, Toyama, Japan, 6. Res Ctr Idling Brain Sci, Univ Toyama, Toyama, Japan, 7. Inst Hum Sci, Univ Tsukuba, Ibaraki, Japan)
Comment()

[1P-305]Neural mechanisms of social behavior sensitive to deprivation of social experience with conspecifics.

*Minori Yoshida1,2, Daria Sharapova2, Shintaro Mise1, Kenotaro Tao1, Karin Suwazono1,2, Yu Nakanishi3, Yusuke Hirabayashi3, Kazushige Touhara4, Akiyuki Watarai1, Akiko Harauma5,6, Toru Moriguchi5,6, Sho Yagishita2, Teruhiro Okuyama1 (1. IQB, Univ of Tokyo, Tokyo, Japan, 2. Grad Sch Med, Univ of Tokyo, Tokyo, Japan, 3. Grad Sch Eng, Univ of Tokyo, Tokyo, Japan, 4. Grad Sch Agric & Life Sci, Univ of Tokyo, Tokyo, Japan, 5. Sch Vet Med, Azabu Univ, Kanagawa, Japan, 6. Venture company of Azabu University, Food Functional Research Institute BABILON Co., Ltd. Kanagawa, Japan)
Comment()

[1P-306]Gq-coupled receptor signaling in Avpr1a-positive excitatory neurons is essential for consolation-like behavior in mice.

*Miyuki Morinaga1, Ryo Saito1, Yuichi Hiraoka1, Atsu Aiba1 (1. Grad Sch Med, Univ of Tokyo, Tokyo, Japan)
Comment()

[1P-307]A role of NPW/NPBWR1 in social novelty preference

*Shingo Soya Soya1,2, Allona Eunice Apache Florece2, Takeshi Sakurai1,2 (1. Tsukuba university, faculty of medicine, Japan, 2. International Institute of Integrative Sleep Medicine)
Comment()

[1P-308]Hierarchy shapes effort distribution in female mice: Analysis using the Tsunahiki task, a newly-developed group-based operant task

*Joseph Carson1,2, Mariko Nakata1,3 (1. Lab of Behavioural Neuroendocrinology, Univ of Tsukuba, 2. Grad Sch of Comprehensive Human Sciences, Univ of Tsukuba, 3. Inst of Human Sciences, Univ of Tsukuba)
Comment()

[1P-309]Evaluation of an RFID-Enhanced Platform for Continuous Quantification of Individual Recognition in Group-Housed Mice

*Hana Ichihara1,2, Taisei Sengoku2, Masaki Kakeyama1,2,3 (1. Graduate School of Human Sciences, Waseda University, Tokorozawa, Japan, 2. Advanced Research Center for Human Sciences, Waseda University, Tokorozawa, Japan, 3. Faculty of Human Sciences, Waseda University, Tokorozawa, Japan)
Comment()

[1P-310]Early oxytocin treatment leads to a long-term amelioration of social abnormalities caused by maternal separation.

*Ryota Yasuda1, Nishibori Ryo1, Naoki Matsumoto1, Yume Kinoshita1, Kohta I Kobayashi1 (1. Doshisha University)
Comment()

[1P-311]Posterior Cerebellum Infarction Induced by Photothrombotic Stroke Impairs Social Recognition in Mice

*Alaa Abodai1, Meiko Asaka2, Dai Yanagihara1,2 (1. Department of Life Sciences, Graduate School of Arts and Sciences, The University of Tokyo, 2. Cognition and Behavior Joint Research Laboratory, RIKEN Center for Brain Science)
Comment()

[1P-317]Widespread co-translational mRNA decay is a hallmark of the ageing brain

*Nayan Suryawanshi1,2, Kai Sato1, Noriko Takashima1, Yi Kai1, Noriyuki Kishi3, Jimmy He3, Hideyuki Okano3, Motomasa Tanaka1,2 (1. Laboratory for Protein Conformation Diseases, RIKEN Center for Brain Science, Wako, Saitama, Japan, 2. Department of Life Science and Technology, Graduate School of Medical and Dental Sciences, Tokyo Institute of Science, Japan, 3. Laboratory for Marmoset Neural Architecture, RIKEN Center for Brain Science, Wako, Saitama, Japan)
Comment()

[1P-318]Preterm Birth Differentially Shapes Cortical Development in Infancy

*Lin Cai1,2, Saori C Tanaka1,2 (1. Graduate School of Science and Technology, Nara Institute of Science and Technology, 2. Brain Information Communication Research Laboratory Group, Advanced Telecommunications Research Institute International)
Comment()

[1P-319]Senescence-related changes in genomic changes and cellular phenotypes in forebrain microglia -the preparation study for the establishment of genome toxicity evaluation system

*kanako TAKAHASHI1, Yukari Shigemoto-Mogami1, Shuichi Yanai2, Kaoru Sato1 (1. Division of Pharmacology, National Institute of Health Sciences, Kanagawa, Japan, 2. Tokyo Metropolitan Institute for Geriatrics and Gerontology, Tokyo, Japan)
Comment()

[1P-320]Immunohistochemical study and single cell RNA sequencing of senescent forebrain neurons-the preparation study for the establishment of genome toxicity evaluation system

*Yukari Shigemoto-Mogami1, Kanako Takahashi1, Shuichi Yanai2, Kaoru Sato1 (1. Div. Pharmacol., NIHS , 2. Animal Facility, TMIG)
Comment()

[1P-321]Pharmacokinetics, Analgesic Efficacy, and Safety Evaluation of a BPR1M492 Salt Microneedle Patch

*Yung Chiao Chang1, Shau-Hua Ueng1, Shiu-Hwa Yeh1 (1. National Health Research Institutes, Miaoli County, Taiwan)
Comment()

[1P-322]Identifying sensory neurons involved in a persistent behavioral response to electric shock in C. elegans

*Kotono Sekizawa1, Ryoga Suzuki2, Naoki Honda3, Kimura Kotaro2 (1. Sch Biol Itegr Sci, Nagoya City Univ, Nagoya, Japan, 2. Grad Sch Sci, Nagoya City Univ, Nagoya, Japan, 3. Grad Sch Med, Nagoya Univ, Nagoya, Japan)
Comment()

[1P-323]Projection patterns of substantia nigra pars reticulata neurons innervated by distinct caudal striatum subregions

*Linsen Lu1, Jingqi Wang2, Fuyuki Karube1, Fumino Fujiyama1 (1. Laboratory of Histology and Cytology, Faculty of Medicine, Hokkaido University, 2. Department of Neuropharmacology, Graduate School of Medicine, ,Hokkaido University)
Comment()

[1P-324]Adipocyte deficiency induces anxiety-like behavior and impaired spatial memory

*Rina Akizuki1, Takumi Yokokawa1, Tsuyoshi Goto1, Kazuo Inoue1 (1. Grad Sch Agr, Kyoto Univ, Kyoto, Japan)
Comment()

[1P-326]Association of GLP-1 Receptor Agonists and Risks of Diabetic Peripheral Neuropathy and Inpatient Healthcare Utilization: A Target Trial Emulation

*Yuan-Tsung Tseng1,2, Chung-Yi Li1 (1. Department of Public Health, College of Medicine, National Cheng Kung University, Taiwan., 2. Department of Medical Research, Tainan Municipal Hospital(Managed By Show Chwan Medical Care Corporation), Taiwan)
Comment()

[1P-327]Optogenetic inhibition of ventrolateral orbitofrontal cortex astrocytes facilitates ventrolateral periaqueductal gray glutamatergic activity to reduce hypersensitivity in infraorbital nerve injury rat model

*Humaira Abbas1, Jaisan Islam1, Muhammad Ali1, Mahdi Hasan1, Young Seok Park1 (1. Chungbuk National University Hospital, College of Medicine, Department of Neuroscience, South Korea)
Comment()

[1P-328]Single-cell RNA-seq reveals Divergent Brain and Spinal Microglial states Underlying Chronic Pain after Nerve Injury

*JINKYUNG LEE1, Seonjin Kim1, Min-Hee Yi1,2 (1. Biomed Sci Grad Program (BMSGP), Chonnam Natl Univ, Hwasun, Korea, 2. Dept Microbiol & Immunol, Chonnam Natl Univ Med Sch, Hwasun, Korea)
Comment()

[1P-329]Development of Dopamine D2 Receptor Knockdown Mice for Understanding of Motor Symptoms in Parkinson’s Disease

*Toshikuni Sasaoka1, Kanako Oda1, Nanaho Fukuda1, Satomi Chiken2, Nae Saito1, Kenji Sakimura1, Manabu Abe1, Atsushi Nambu2 (1. Brain Research Institute, Niigata University, 2. National Institute of Physiological Sciences)
Comment()

[1P-330]Behavioral Impairments and Neuromuscular Junction Dysfunction in an SLC5A7 Knock-In Model of dHMN-7

*Takashi Yoshimura1, Yohei Iguchi1, Takahiro Furuta 1, Ryo Chikuchi1, Yoshinobu Amakusa1, Satoshi Yokoi1, Masahisa Katsuno1 (1. Nagoya University Graduate School of Medicine)
Comment()

[1P-332]Inhibitory neuron–targeted gene therapy for epilepsy using a compact cmGAD67 promoter

*Yuuki Fukai1,2, Ayumu Konno1,2, Karin Miyakawa2, Nobutake Hosoi2, Hirokazu Hirai1,2 (1. Viral Vector Core, Gunma University Initiative for Advanced Research (GIAR) , 2. Department of Neurophysiology and Neural Repair, Gunma University Graduate School of Medicine)
Comment()

[1P-333]Propagation of hippocampal spreading depolarization within the mouse hippocampal formation

*Takashi Handa1, Shangyu Yang1, Xin Liu1, Dan Wang1, Deepa Kamath Kasaragod1, Miho Matsumata1, Hidenori Aizawa1 (1. Grad Sch Biomed and Health Sci, Hiroshima University, Hiroshima, Japan)
Comment()

[1P-334]Electro-behavioral Features of Thalamo-hippocampal Slow Gamma Synchrony in Animals with Seizure

*YU-CHIEH HUANG1, MIAO-ER CHIEN1, YU-TUNG SUN2, CHUAN-PIN WANG2, SHENG-FU LIANG2, YI-JEN WU1,3 (1. Institute of Clinical Medicine, College of Medicine, National Cheng Kung University, Tainan, Taiwan, 2. Department of Computer Science and Information, National Cheng Kung University, Tainan, Taiwan, 3. Department of Neurology, National Cheng Kung University Hospital, College of Medicine, National Cheng Kung University, Tainan, Taiwan)
Comment()

[1P-338]Longitudinal In Vivo Analysis of BBB Disorder and Immune Dynamics in an LPS-Induced Mouse Model

*Junyoung Park1, Sungwoon Yoon1 (1. IVIM Technology.Inc)
Comment()

[1P-339]Machine-Learning–Based Analysis of Modulation of Mouse Cortical Activity Induced by Focal Brain Injury

*Qanita Hana Amira1, Rempei Kunimoto1, Takahito Komori1, Mitsuhiro Morita1 (1. Grad Sch Sci, Kobe Univ, Kobe, Japan)
Comment()

[1P-340]Visualization and quantification Analysis of Cerebral Microbleeds using Micro-computed tomography

*YANG RONGRONG1, HORI OSAMU1, TAKARADA MIKA1 (1. kanazawa university)
Comment()

[1P-341]Interhemispheric functional connectivity between homotopic perisylvian regions correlates with functional status after stroke

*Takamichi Tohyama1,2, Masaki Fukunaga2,3,4, Yohei Otaka1 (1. Dept of Rehabil Med, Sch of Med, Fujita Health Univ, Toyoake, Japan, 2. Sec of Brain Func Info, Natl Inst for Physiol Sci, Okazaki, Japan, 3. Core for Spin Life Sci, Okazaki Collab Plat, Natl Inst of Nat Sci, Okazaki, Japan, 4. Physiol Sci Prgm, Grad Inst for Adv Stud, SOKENDAI, Hayama, Japan)
Comment()

[1P-342]Microglia-dependent induction of astrocytic CXCL10 exacerbates secondary brain injury after intracerebral hemorrhage

*Masanori Hijioka1, Takashi Saito1 (1. Grad Sch Med, Univ of Tokyo, Tokyo, Japan)
Comment()

[1P-343]The progesterone receptor agonist nestorone improves cognitive impairment by reinforcing contralateral hippocampal synaptic function after neonatal hypoxic-ischemic brain injury in male and female rats.

*Motoki Tanaka1, Masahiro Sokabe2, Keiko Nakanishi3, Masato Asai1 (1. Institute for Developmental Research, Aichi Developmental Disability Center, 2. Human Information Systems Laboratory, Kanazawa Institute of Technology, 3. Central Hospital, Aichi Developmental Disability Center)
Comment()

[1P-344]Purine salvage pathway regulates cerebrovascular structure and microglial motility

*Rinichiro Teruya1, Kentaro Ueda2, Fuminori Tsuruta1,2 (1. Inst Life Environ Sci, Univ of Tsukuba, 2. phD prog in Human biol, University of Tsukuba)
Comment()

[1P-345]Microglial homeostasis ratio as an objective tool for quality assessment of FFPE post-mortem brains

*Erika Seki1, Keisuke Ishizawa2,5, Haruka Okada3, Araki Kimura1,4, Hiromichi Iwashita5, Rika Kojima1, kenji Ikeda1,4 (1. Dept. of Mol. Pathol. and Histology., Tokyo Metro. Inst. of Med. Science, Tokyo, Japan, 2. Dept. of Lab. Med. and Pathol., Tokyo Metro. Neuro. Hosp., Tokyo, Japan, 3. Dept. of Pathol., Tokyo Metro. Tama Med. Center, Tokyo, Japan, 4. Dept. of Psy., Tokyo Metro. Matsuzawa Hosp., Tokyo, Japan, 5. Dept. of Pathol., Saitama Med. Univ., Saitama, Japan)
Comment()

[1P-346]Very early exercise induces Csf2-mediated neuroinflammation following intracerebral hemorrhage

*Keigo Tamakoshi1, Keishun Kimishima1, Ryota Tokunaga1, Toshiharu Yasaka1 (1. Niigata University of Health and Welfare)
Comment()

[1P-347]Analysis of damage in non-ischemic white matter regions following focal cerebral ischemia

*Motoharu Yasui1, Mei Oku1, Momoka Okada1, Hitomi Takahashi1, Jin Nakatani1, Toshinori Sawano1, Hidekazu Tanaka1 (1. Pharmacology Lab, Department of Biomedical Science, College of Life Science, Ritsumeikan University)
Comment()

[1P-350]Identifying factors driving the emergence of Alzheimer's disease-associated microglia using a data-driven mathematical model

*Keita Nakao1, Naoki Honda1, Yuichiro Yada1, Yohei Kondo2 (1. Grad Sch Med, Univ of Nagoya, Nagoya, Japan, 2. Center for One Medicine Innovative Translational Rsearch)
Comment()

[1P-351]Comparative Analysis of Retinal Imaging Modalities Assisted by Artificial Intelligence for Early Alzheimer’s Disease Detection: A Systematic Review

*Rachit Agarwala1, Saif Hamada Sayed Nasr2, Yuki Agarwala3 (1. K. International School Tokyo, Tokyo, Japan, 2. Bani-Sweif STEM School, Beni Suef, Egypt, 3. Imperial College London, London, United Kingdom)
Comment()

[1P-352]CAPON dynamically regulates neuronal activity by organizing NO–cGMP signaling

*Shoko Hashimoto1, Yukio Matsuba1 (1. Shiga University of Medical Science)
Comment()

[1P-353]Heparin-binding EGF-like growth factor improves cognitive decline in Alzheimer's disease mice by controlling astrocytic activation

*Akira Sobue1,2, Okiru Komine1, Fumito Endo1, Yuko Saito3, Shigeo Murayama3,4, Takashi Saito1,5, Taku Nagai2, Koji Yamanaka1 (1. Department of Neuroscience and Pathobiology, Research Institute of Environmental Medicine, Nagoya University, 2. Division of Behavioral Neuropharmacology, International Center for Brain Science (ICBS), Fujita Health University, 3. Brain Bank for Aging Research (Neuropathology), Tokyo Metropolitan Geriatric Hospital and Institute of Gerontology, 4. Brain Bank for Neurodevelopmental, Neurological and Psychiatric Disorders, United Graduate School of Child Development, Osaka University, 5. Department of Neurocognitive Science, Institute of Brain Science, Nagoya City University Graduate School of Medical Sciences)
Comment()

[1P-354]The investigation of the role of the lysophospholipid metabolic enzyme in Alzheimer's disease.

*Noe Kawade1, Kato Miku2, Saito Takashi1,3, Yamanaka Koji1 (1. Department of Neuroscience and Pathobiology, Research Institute of Environmental Medicine, Nagoya University., 2. School of Medicine, Nagoya University, 3. Department of Neurocognitive Science, Institute of Brain Science, Nagoya City University Graduate School of Medical Sciences.)
Comment()

[1P-355]Chlorogenic Acid Attenuates Aβ-Induced Oxidative Stress by Enhancing Nrf2-Mediated Antioxidant Defense in SHSY-5Y Neuroblastoma Cells

*HAGERA DILNASHIN1, SHUBHAM SONWANI1, KOMAL BANA1, SACHIN SURESH TIWARI1 (1. Department of BSBE, Indian Institute of Technology-Roorkee, Uttarakhand, India)
Comment()

[1P-356]Sleep Quality and Multidimensional Well-Being in Older Adults: A Serial Mediation Model of Subjective Memory Complaints and Depression

*Jung-lin Chen1, Chin-Sheng Chen2,3,4,5, Li-Wei Chou6,7,8, Han-Yun Chang1,9,10 (1. Department of Psychology, Asia University, Taichung, Taiwan., 2. Division of Chinese Medicine, Asia University Hospital, Asia University, Taichung, Taiwan, 3. Department of Food Nutrition and Health Technology, Asia University, Taichung, Taiwan, 4. Department of Chinese Medicine, China Medical University Hospital, Taichung, Taiwan, 5. School of Post-Baccalaureate Chinese Medicine, China Medical University, Taichung, Taiwan, 6. Department of Physical Medicine and Rehabilitation, Taichung, Asia University Hospital, Asia University, Taiwan, 7. Department of Physical Medicine and Rehabilitation, China Medical University Hospital, Taichung, Taiwan., 8. Department of Physical Therapy and Graduate Institute of Rehabilitation Science, China Medical University, Taichung, Taiwan, 9. Clinical Psychology Center, Asia University Hospital, Taichung, Taiwan, 10. Corresponding author: Han-Yun Chang (Ta8001017@asia.edu.tw))
Comment()

[1P-357]Therapeutic Potential of JAK1/2 Inhibition by Baricitinib for Cancer-Related Cognitive Impairment via Protection of Oligodendrocyte-Lineage Cells

*Yuto Oshima1, Jun Yamada1, Kyoko M Iinuma1, Shozo Jinno1 (1. Kyushu University)
Comment()

[1P-358]Alzheimer’s Disease and Parkinson’s Disease Spectrum Classified with Multi-modal Neuroimaging Markers and Progression Modelling

*Yinbo Shen1, Kenji Yoshinaga1, Takashi Hanakawa1 (1. Grad Sch Med, Univ of Kyoto, Kyoto, Japan)
Comment()

[1P-359]Improving Mitochondrial Bioenergetics Modulates Retinal Gliosis in Alzheimer’s Disease

*Christine Quach1, Kristine Tran1, Max Nabi1, Harry Rossiter2, Bianca Barriga1, Luis Pérez de Sevilla1 (1. Biocient, Inc., Torrance, California, USA, 2. The Lundquist Institute for Biomedical Innovation at Harbor-UCLA Medical Center, Torrance, California, USA)
Comment()

[1P-360]In vivo recording of noradrenaline release and neuronal responses in the infralimbic cortex during vagus nerve stimulation

*Tomo Ozawa1, Qi Yuan2, Takuya Sasaki3, Hiroyuki Igarashi3 (1. Fac Pharm Sci, Tohoku Univ, Miyagi, Japan, 2. Div Biomed Sci, Fac Med, Memorial Univ, Newfoundland, St john’s, NL, Canada, 3. Grad Sch Pharm Sci, Tohoku Univ, Miyagi, Japan)
Comment()

[1P-361]Riluzole shifts glial responses to protect synapses and memory
in Aβ oligomer–treated rats

*MIN KAUNG WINT MON1, Kida H1, Kimura R2, Mitsushima D1,3 (1. Graduate School of Medicine Yamaguchi University, 2. Center for Liberal Arts and Sciences, Sanyo-Onoda City University, 3. The Research Institute for Time Studies, Yamaguchi University)
Comment()

[1P-362]The effect of cannabinoid type II receptor (CB2) agonist on tau pathologies in rTg4510 mice

*Kasumi Maekawa1, Akira Sobue1,2, Okiru Komine1, Naruhiko Sahara3, Koji Yamanaka1 (1. Dept of Neurosci & Pathobiol, RIEM, Nagoya Univ, Aichi, Japan, 2. Div of Behavioral Neuropharmacology, ICBS, Fujita Health University, Aichi, Japan, 3. Center for Integrated Human Brain Science, Brain Research Inst, Niigata Univ, Niigata, Japan)
Comment()

[1P-363]LOTUS (Crtac1B) improves synaptic dysfunction and cognitive impairment in Alzheimer’s disease model mice.

*Yuki Kawaguchi1, Masanori Hijioka2, Takashi Saito2, Kohtaro Takei1 (1. Department of Neurology and Stroke Medicine, Yokohama City University Graduate School of Medicine, 2. Department of Neurocognitive Science, Institute of Brain Science, Nagoya City University Graduate School of Medical Sciences)
Comment()

[1P-364]An EEG-Based Virtual Switch for Hands-Free Cognitive Assessment: Detecting Performance Decline in Older Adults with Suspected MCI

*Ryohei P. Hasegawa1,2,3,4, Shinya Watanabe5, Kenji Muraishi6 (1. AIST, 2. Univ. of Fukui, 3. Nagoya Univ., 4. Tokyo Univ. of Sci, 5. Univ. of Tsukuba, 6. Tohoku Therapeutic Care Center)
Comment()

[1P-369]Interleukin-17A Drives Disease Progression in Huntington’s disease through Autophagy–Lysosomal Pathway Dysfunction

*Tz-Chuen Ju1, Kai-Po Chen1 (1. Institute of Molecular Biology, National Chung Hsing University)
Comment()

[1P-370]Modeling ALS-Relevant Transcriptomic Responses to Traumatic Injury in Human iPSC-Derived Brain Organoids

Erin Chen1, *Qian Wang1 (1. iLab Research Institute)
Comment()

[1P-371]Diet dependent Modulation of the Gut- Microbiome- Brain Axis in a Chronic MPTP Model of Parkinson’s Disease

*ANKITA DAS1,2, Vani Vivek1,2, Arjoyeeta Das1,2, Palok Aich1,2 (1. National Institute of Science Education and Research (NISER), 2. Homi Bhabha National Institute (HBNI))
Comment()

[1P-372]Effects of CSF-1R Inhibition on Behavioral and Biochemical Alterations in the Parkinson’s disease Mouse Model

*ChuanYao Wang1, Chih Chien Chen1, Wahyu Dewi Tamayanti1, Yi Cheng3, Chia Chun Hsu2, Jin Wu Tsai1 (1. Institute of Brain science, NYCU, Taipei, Taiwan, 2. School of Medicine, NYCU, Taipei, Taiwan, 3. Department of Pharmacy, NYCU, Taipei, Taiwan)
Comment()

[1P-373]Relationship between mutant SOD1 aggregation with neurodegeneration using a Drosophila model of ALS.

*Kyoka Yano1, Yuzo Fujino2, Yoshitaka Nagai2, Noriko Fujiwara1 (1. Department of Biochemistry, School of Medicine, Hyogo Medical University, 2. Department of Neurology, Faculty of Medicine, Kindai University)
Comment()

[1P-374]Intrinsically accelerated cellular degradation is amplified by TDP-43 loss in ALS-vulnerable motor neurons in a zebrafish model

*Kazuhide Asakawa1,2, Takuya Tomita3, Shinobu Shioya1, Hiroshi Handa4, Yasushi Saeki3, Koichi Kawakami1 (1. National Institute of Genetics, 2. SOKENDAI, 3. Univ of Tokyo, 4. Tokyo Medical University)
Comment()

[1P-375]Molecular chaperone PPIA tunes phase separation and aggregation of ALS-associated proteins

*Ryeowang Ko1, Yoshikazu Hattori2, Motonori Matsusaki2, Munehiro Kumashiro2, Masaki Okumura3, Tomohide Saio1,2 (1. Grad Sch Med, Tokushima University, 2. IAMS, Tokushima university, 3. FRIS, Tohoku university)
Comment()

[1P-376]LAG-3 exhibits stage-dependent regulation of microglial inflammation and phagocytosis in ALS

*Yuta Morisaki1, Nanaka Nomura1, Motoki Ohshima1, Okiru Komine2, Koji Yamanaka2, Hidemi Misawa1 (1. Div. Pharmacol., Fac. Pharmacy, Keio Univ., 2. Dept. Neurosci. & Pathobiol., Res. Inst. Environ. Med., Nagoya Univ.)
Comment()

[1P-377]Central Neuronal Vulnerability and Behavioral Deficits in a KIF-mutant Model of Charcot-Marie-Tooth Disease

*Sara Takaishi1,2, Momo Morikawa2, Suguru Iwata2, Tetsuya Sasaki2, Yosuke Takei2 (1. College of Medicine, School of Medicine and Health Sciences, University of Tsukuba, 2. Department of Anatomy and Neuroscience, Faculty of Medicine, University of Tsukuba)
Comment()

[1P-378]Elucidating Failure of the SSBP1–HSF1 Axis and Mitochondrial Proteostasis Disruption in Kii ALS/PDC by Multi-omics and Histological Analyses

*Moe Kobayashi1,2, Chris Kato2,3, Satoru Morimoto2,3,4, Yuhko Kobayashi5, Masako Ichishi4, Yoshifumi Hirokawa4, Issei Kobayashi5, Terunori Sano6, Maho Morishima6,7, Masaki Takao6, Yuko Saito7, Mari Yoshida8, Shigeo Murayama7, Hideyuki Okano2, Yasumasa Kokubo9 (1. Faculty of Pharmacy, Keio University, Tokyo, Japan, 2. Keio Regenerative Medicine Research Center, Keio University, Japan, 3. Division of Neurodegenerative Disease Research, Tokyo Metropolitan Institute for Geriatrics and Gerontology, Japan, 4. Department of Oncologic Pathology, Mie University Graduate School of Medicine, Japan, 5. Center for Molecular Biology and Genetics, Mie University, Japan, 6. Department of Clinical Laboratory and Internal Medicine, National Center of Neurology and Psychiatry (NCNP), National Center Hospital, Japan, 7. Department of Neuropathology (the Brain Bank for Aging Reseach, Tokyo Metropolitan Institute for Geriatrics and Gerontology, Japan, 8. Institute for Medical Science of Aging, Aichi Medical University, Japan, 9. Kii ALS/PDC Research Centre, Mie University Graduate School of Regional Innovation Studies, Japan)
Comment()

[1P-379]Deficiency of P2Y1 receptors in Müller cells leads to oxidative stress–dependent normal-tension glaucoma–like pathology

*Hinako Mori1, Youichi Shinozaki1,2,3, Kenji Kashiwagi4, Schuichi Koizumi1,3 (1. Dept Neuropharmacol, Interdiscip Grad Sch Med, Univ Yamanashi, Yamanashi, Japan, 2. Vis. Res. Project, Tokyo Metro. Inst. Med. Sci., Tokyo, JAPAN, 3. GLIA Center, Univ. Yamanashi, Yamanashi, JAPAN, 4. Dept. Ophthalmol, Interdiscip. Grad. Sch. Med. Univ. Yamanashi, Yamanashi, JAPAN)
Comment()

[1P-380]Exploring Novel Therapeutic Candidates for Multiple system atrophy (MSA) Using Graph Neural Networks and Real-World Data

*Akiko Goto1, Yusuke Nakayama1, Koji Yamamoto2, Shingo Tsuji3, Koichi Hosomi4 (1. GEXVAL Inc., 2. Independent Researcher, 3. Research Center for Advanced Science and Technology (RCAST), The University of Tokyo, 4. Faculty of Pharmacy, Kindai University)
Comment()

[1P-381]DHICA Alleviates NaIO3-Induced ER stress through Calcium-mediated excessive mitophagy leading to RPE apoptosis

*Yuan Yen Chang1, Hui Wen Lin2 (1. Professor, School of Medicine, Chung Shan Medical University, Taichung, Taiwan;, 2. Associate professor, Chung-Shan Medical University, Taichung, Taiwan)
Comment()

[1P-382]Biomarker of early diagnosis of amyotrophic lateral sclerosis using high-density surface electromyography

*Takato Terabe1, Yuichi Nishikawa2 (1. Grad Sch Nat Sci Technol, Kanazawa Univ, Kanazawa, Japan, 2. Inst Sci Eng, Kanazawa Univ, Kanazawa, Japan)
Comment()

[1P-383]Modeling Motor Neuron Diseases Using Human iPSC-Based Neuromuscular Co-culture

*Yu-shen Cheng1, Rina Okada1, Yukiko Kitashiba1, Kazunari Onodera1, Daisuke Shimojo1,2, Masahisa Katsuno3, Gen Sobue4, Hideyuki Okano5, Yohei Okada1 (1. Dept Neural iPSC Res, Inst Med Sci Aging, Aichi Med Univ, Aichi, Japan, 2. Dept Physiol, Sch Med, Keio Univ, Tokyo, Japan, 3. Dept Neurol, Grad Sch Med, Nagoya Univ, Aichi, Japan, 4. Aichi Med Univ, Aichi, Japan, 5. Regenerative Med Res Ctr, Keio Univ, Tokyo, Japan)
Comment()

[1P-384]Soluble TREM2 regulates the TREM2–DAP12 complex in microglia

*Atsuma Yamada1, Fuminori Tsuruta1,2 (1. PhD Prog Hum Biol, Grad Sch Comp Hum Sci, Univ of Tsukuba, 2. Inst Life and Env Sci, Univ of Tsukuba)
Comment()

[1P-385]Rescue Parkinsonian symptoms in mice with wireless deep brain stimulation by magnetomechanical approach

*You-Lun Luo1, Po-Han Chinag1 (1. Department of Intelligent Biomedical Engineering, National Yang Ming Chiao Tung University, Hsinchu, Taiwan)
Comment()

[1P-386]Engineered human 5R tau variants with tandem R2 repeats exhibit enhanced aggregation

*Munkh-Erdene Ankhbayar1, Naoki Watanabe1, Shinsuke Ishigaki1 (1. Mol. Neurosci. Res. Ctr., Shiga Univ. of Med. Sci.)
Comment()

[1P-387]The role of CRMP4 in 6-OHDA-induced Parkinson’s disease mouse model

*Ryo Asahina1, Leo Shimizu2, Yujiro Matsumoto2, Toshio Ohshima1 (1. Waseda Univ, Sch Advanced Science and Engineering, 2. Waseda Univ, Grad Sch Advanced Science and Engineering)
Comment()

[1P-388]The role of astrocyte-derived extracellular vesicles in neurodegenerative diseases

*Chun Li1, Takahiro Ochiya1 (1. Tokyo medical university)
Comment()

[1P-394]Neurotransmitter levels in the brain in a rat model of neurodevelopmental disorders associated with low birth weight

*Konomi Akai1, Masahiro Tsuji1, Rie Nozoe1, Nana Minamoto1, Ritsuko Fujii2 (1. Dept of Food&Nutrition, Kyoto Women’s University , 2. School of Science, Osaka Metropolitan University)
Comment()

[1P-395]A chromosome 3p deletion mouse model exhibits reduced exploration and circuit alterations in the cortex and hippocampus

*Mako Saruta1, Asuka Shindo1, Karin Hosoya1, Moka Tsuchiya1, Kenshin Shibuki1, Asami Oguro-Ando2, Kanzo Suzuki1, Eri Segi-Nishida1 (1. Department of Biological Science and Technology, Faculty of Advanced Engineering, Tokyo University of Science, 2. Department of Neuroscience and Mental health, University of Exeter Medical School, University of Exeter)
Comment()

[1P-396]Analysis of GABAergic Neurons in the Prefrontal Cortex of the Embryonic Ischemic Mouse Model

*Wendi Wang1,2, Ken-ichiro Kubo1,3 (1. Dept of Anat, The Jikei Univ Sch Med, Tokyo, Japan, 2. Dept of Arts & Sciences, International Christian Univ, Tokyo, Japan, 3. Dept of Anat, Keio Univ Sch Med, Tokyo, Japan)
Comment()

[1P-397]Analysis of Sex Differences in Group Behavior Using a Neurodevelopmental Disorder Mouse Model

*Masashi Azuma1, Shohei Ochi2, Iori Hara1, Hitoshi Inada3, Noriko Osumi2 (1. Sch Med, Tohoku Univ, Sendai, Japan, 2. Grad Sch Med, Tohoku Univ, Sendai, Japan, 3. National Institutes of Natural Sciences, Tokyo, Japan)
Comment()

[1P-400]Trehalose Reverses Autism Spectrum Disorders Like Phenotypes in Rats by Modulating Progranulin and Gut-Brain Axis Mediators

*AKASH KUMAR KHARWAR1, Deepali Kumari1, Abhishek Kamble1, Hara Prasad Padhy1, Manoj P Dandekar1 (1. NIPER HYDERBAD)
Comment()

[1P-401]β-Caryophyllene as a Potential Treatment for Social Deficits in Mouse Models of Autism Spectrum Disorder

*MINJUE XIE1,2,3, Hiroshi Kuniishi1,2,3, Nobuhiro Zaima4,5, Hideo Matsuzaki1,2,3 (1. Res Center for Child Mental Development (RCCMD),Univ of Fukui, Fukui,Japn, 2. Life Science lnnovation Center (LSIC),,Univ of Fukui, Fukui,Japn, 3. United Grad Sch of Child Development (UGSCD), Univ of Osaka, Kanazawa Univ, Hamamatsu Univ Sch of Med, Chiba Univ and Univ of Fukui, Osaka,Japan, 4. Depat of Applied Biological Chemistry, Grad Sch of Agriculture, Kindai Univ, Nara, Japan , 5. Agricultural Technology and Innovation Research Institute, Kindai Univ,Nara, Japan)
Comment()

[1P-402]Organelle Mechanisms Gating Autism Onset in a Critical Period

*Yoshinobu Nakamura1, Takayuki Kuroiwa1, Hayato Kudo1, Kazuyuki Fujihara1, Jun Shirakawa2, Shinsuke Shibata3, Goichi Miyoshi1 (1. Gunma University Graduate School of Medicine, 2. Institute for Molecular and Cellular Regulation, Gunma University, 3. Graduate School of Medical and Dental Sciences, Niigata University)
Comment()

[1P-403]A comparison of attention deficits in children with Autism and ADHD

*HomYi Jonathan Lee1 (1. Professor, Chung Shan Medical University, Taichung, Taiwan)
Comment()

[1P-405]Impact of Autism-Associated Genes on Behavior in a C. elegans Model

*Toshitaka Saito1, Hironori Takahashi2, Toshiyuki Oda2 (1. Faculty of Med, Univ of Yamanashi, Yamanashi, Japan, 2. Grad Sch Med, Univ of Yamanashi, Yamanashi, Japan)
Comment()

[1P-406]Characterization of orbitofrontal subregions determining multiple ASD-like behavioral phenotypes in mice

*Toko Narita1, Wataru Ota1, Yuki Katsuno1, Takuya Takahashi1 (1. Yokohama City University School of Medicine)
Comment()

[1P-409]Intrinsic prefrontal–thalamic dynamics underlying auditory hallucinations: a computational model integrating hippocampal and basal ganglia circuits

*Manabu Sasaki1 (1. Yamagata Prefectural University of Health Sciences)
Comment()

[1P-410]Altered weighting of visual salience in schizophrenia identified by a novel computational model applied to eye movement analysis

*Yoshihisa Fujita1 (1. Kyoto University Hospital, Kyoto, Japan)
Comment()

[1P-411]Analyses of behaviors and brain development in Clusterin (Clu) deletion mouse

*Jotaro Hagiwara1,2, Kota Oshima3, Satoshi Yoshinaga1,3, Ken-ichiro Kubo1,3 (1. Dept of Anat, The Jikei Univ Sch Med, Tokyo, Japan, 2. Dept of Arts and Sciences, International Christian Univ, Tokyo, Japan, 3. Dept of Anat, Keio Univ Sch Med, Tokyo, Japan)
Comment()

[1P-412]Graph-Theoretical Characterization of Altered Large-Scale Network Organization in Schizophrenia Using Source-Level Resting-State EEG

*Hong-Hsiang Liu1,2, Yi-Ting Lin2, Yi-Li Tseng3, Chih-Min Liu2, Ming-Hsien Hsieh2 (1. Department of Clinical Psychology, Fu Jen Catholic University, New Taipei City, Taiwan, 2. Department of Psychiatry, National Taiwan University Hospital, Taipei, Taiwan, 3. Department of Electrical Engineering, National Sun Yat-sen University, Kaohsiung, Taiwan)
Comment()

[1P-413]Versican and nNOS-positive neurogliaform cell axis in the hippocampus as a novel pathogenic mechanism of schizophrenia: an MK-801 mouse model study

*Mika Soma1, Jun Yamada1, Shoichiro Maeda1, Kyoko Iinuma1, Shozo Jinno1 (1. Department of Anatomy and Neuroscience, Graduate School of Medical Sciences, Kyushu University)
Comment()

[1P-414]Plasma extracellular vesicles proteomics-based characterization of schizophrenia and treatment-resistant subgroups

*Aiki Nakanishi1, Naotaka Izuo1, Mantaro Kawaguchi1, Manabu Makinodan2,3, Junya Matsumoto4, Ryota Hashimoto4, Ayuko Hoshino1 (1. The University of Tokyo, 2. Faculty of Life Science, Kumamoto University, 3. Internatinal Center for Brain Science, FUJITA HEALTH UNIVERSITY, 4. National Institute of Mental Health, National Center of Neurology and Psychiatry)
Comment()

[1P-419]Resting state functional connectivity related to the cornu ammonis (CA1) and subiculum of the hippocampus in major psychiatric disorders

*Namrata Tamang1, Issei Ueda1, Shiori Honda2,3, Lin Cai1, Norihide Maikusa1, Shuhei Shibukawa1,4, Shinichiro Nakajima2, Yuko Nakamura1,5, Shinsuke Koike1,5,6,7 (1. Center for Evolutionary Cognitive Sciences, Graduate School of Arts and Sciences, The University of Tokyo, 2. Department of Neuropsychiatry, Keio University School of Medicine, 3. Department of Psychiatry and Behavioral Health, Renaissance School of Medicine, Stony Brook University, 4. Faculty of Health Science, Department of Radiological Technology, Juntendo University, 5. University of Tokyo Institute for Diversity & Adaptation of Human Mind (UTIDAHM), 6. The International Research Center for Neurointelligence (WPI-IRCN), 7. The University of Tokyo Institutes for Advanced Study (UTIAS))
Comment()

[1P-420]Alteration of proprotein convertase in the lateral habenula of a novel perinatal depression model.

*Hikaru Ito1,2, Masumi Ito1,2, Hidenori Aizawa3 (1. Dept. of Basic Life Science, Faculty of medicine, Kagawa University, Kagawa, Japan, 2. Research Facility Center for Science and Technology, Kagawa University, Kagawa, Japan, 3. Dept. of Neurobiology, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima, Japan)
Comment()

[1P-421]The Association Between Physical Activity and Depression Among College Students: Serial Mediating Effects of Body Image and Self-Esteem and Gender Differences

*NaiChen Yeh1, Cheng-Chieh Li1, Chia-Han Lin2, Han-Yun Chang1,3 (1. Department of Cinical Psy,Asia University,Taichung,Taiwan, 2. Department of Information Communication, Asia University, Taichung, Taiwan, 3. *Corresponding author: Han-Yun Chang (Ta8001017@asia.edu.tw))
Comment()

[1P-422]Antidepressant effects of electroconvulsive stimulation (ECS) and its underlying molecular mechanisms in a chronic social defeat stress model

*Kotone Fujimoto1, Kanako Arai1, Takehisa Tsutsui1, Kohei Urase1, Yui Kamiegawa1, Hengbo Zhang1, Kanzo Suzuki1, Eri Segi-Nishida1 (1. Tokyo University of Science)
Comment()

[1P-423]L-Theanine Intake Attenuates Aggressive Behavior and Modulates Stress Susceptibility in Mice

*Chizuru Hayashi1, Kyosuke Uno1, Mayu Yamagiwa1, Yutaro Higashiura1, Koichi Kawada1, Nobuyuki Kuramoto1 (1. Lab of Mol. Pharmacol., Fac. of Pharm. Sci., Setsunan Univ.)
Comment()

[1P-424]Role of the transcription factor SRF in ECS-induced neurogenesis changes in the hippocampal dentate gyrus

*Haruka Komoriya1, Yua Yonekura1, Mio Horikawa1, Kanzo Suzuki1, Eri Segi-Nishida1 (1. Tokyo university of Science)
Comment()

[1P-425]Data-Driven Analysis of Trauma-Attributable Psychiatric Burden During a Critical Neurodevelopmental Window: A Socio-Demographic Index–Stratified Global Study of Childhood Sexual Violence with Projections to 2030 and 2050

*Najwa Aisya Putri1, Zavia Putri Salsabila2, Nur Annisa Humaira3, Oldheva Genisa Sabilau4 (1. International Open University , 2. Islamic University of Indonesia, 3. Lambung Mangkurat University , 4. State University of Malang)
Comment()

[1P-426]Impact of psychological stress on periventricular cerebrospinal fluid dynamics

*Hana Konno1, Takumi Taketomi2, Fuminori Tsuruta2,3 (1. MS Prog Biol, Deg Prog in Life and Earth Sci, Grad Sch Sci and Tech, Univ of Tsukuba, Ibaraki, Japan, 2. PhD Prog Hum Biol, Deg Prog in Comp Hum Sci, Grad Sch Comp Hum Sci, Univ of Tsukuba, Ibaraki, Japan, 3. Inst of Life and Env Sci, Univ of Tsukuba, Ibaraki, Japan)
Comment()

[1P-430]Integrated transcriptome analysis of preclinical model and patient cohorts for identification of biomarkers in Multiple Sclerosis

*Hwa-Hyeong Lee1, Young-Hoon Jeong1, Young-Jun Kim1, Hye-Rim Lee1, Sang-Bae Han1, Key-Hwan Lim1 (1. College of Pharmacy, Chungbuk National University, Cheongju, Republic of Korea)
Comment()

[1P-432]Impact of Methylphenidate Administration on Gut Microbiota and Dopaminergic Neural Circuits in Mice

*Chia Chen Ko1,2, Wei-Li Wu1,2 (1. Department of Physiology, College of Medicine, National Cheng Kung University, 1 University Rd., Tainan 70101, Taiwan, 2. Institute of Basic Medical Sciences, College of Medicine, National Cheng Kung University, 1 University Rd., Tainan 70101, Taiwan)
Comment()

[1P-433]A Moderated Mediation Model of Technostress Influencing Workaholism in the Context of Digital Transformation: Examining the Roles of Job Insecurity and Technological Self-Efficacy

*Yi Chieh Yang1, Cheng Chieh Li1, Han Yun Chang1,2,3 (1. Department of Psychology, Asia University, Taichung, Taiwan, 2. Asia University Hospital, Clinical Psychology Center, Taichung, Taiwan , 3. Corresponding author: Han-Yun Chang (Ta8001017@asia.edu.tw))
Comment()

[1P-434]Analysis of brain border immunity in human immune-mediated hypertrophic meningitis and neuromyelitis optica spectrum disorder

*Akihiro Nakajima1, Mariko Hokari1, Fumihiro Yanagimura2, Kaori Yanagawa1, Etsuji Saji1,3, Hiroshi Shimizu4, Yasuko Toyoshima4,5, Akiyoshi Kakita4, Osamu Onodera3, Izumi Kawachi1,6 (1. Department of Neurology, BRI, Niigata University, 2. Department of Neurology, NHO Niigata National Hospital, Kashiwazaki, Japan, 3. Department of Neurology, Niigata City General Hospital , 4. Department of Pathology, BRI, Niigata University, 5. Department of Neurology, Brain Disease Center, Agano Hospital, 6. Medical Education Center, Graduate School of Medical and Dental Sciences, Niigata University)
Comment()

[1P-435]Theanine-induced proliferation suppression in astrocytes stably expressing hSlc38a1

*Shinataro Yamamoto1, Tomoya Tanaka1, Koichi Kawada1, Kyousuke Uno1, Nobuyuki Kuramoto1 (1. Setsunan University, Faculty of Pharmaceutical Sciences, Laboratory of Molecular Pharmacology)
Comment()

[1P-436]L-theanine uptake and effects in neuronal cells.

*Tomoya Tanaka1, Koichi Kawada1, Kyosuke Uno1, Shinnosuke Yamaura2, Koji Komori2, Kou Kawada2, Nobuyuki Kuramoto1 (1. Lab of Mol. Pharmacol., Fac. of Pharm. Sci., Setsunan Univ., 2. Lab of Clini. Pharmacol., Fac. of Pharm. Sci., Setsunan Univ.)
Comment()

[1P-437]Histological analysis of abnormal astrocytes in the aged mouse brain

*Kanako Nozaki1, Hiroyuki Konishi1 (1. Yamaguchi university)
Comment()

[1P-439]Learning Interpretable Latent Representations for Single-Cell RNA-seq using Mutual Information–Guided VAEs

*Tomohito Yamamura1, Yutaka Yamaguti2 (1. Graduate School of Engineering, Fukuoka Institute of Technology, Fukuoka, Japan, 2. Faculty of Information Engineering, Fukuoka Institute of Technology, Fukuoka, Japan)
Comment()

[1P-440]Computational Effects of Anterior Cingulate Cortex Silencing on Flexible Learning Dynamics during Task Switching: A Hidden Markov and Bayesian Reinforcement Learning Analysis

*Daigo Takeuchi1 (1. Teikyo University School of Medicine)
Comment()

[1P-442]Intrinsic connector-hub properties of the thalamus in large-scale brain networks: white matter connectivity as the anatomical substrate

*ATSUSHI YAMAGUCHI1, Keiko Kitajo1, Tohru Mutoh1, Masaki Yoshioika1,2 (1. Grad sch Med, Chiba University, 2. Institute for Quantum Life Science, National Institutes for Quantum Science and Technology)
Comment()

[1P-443]Emergent Place-Like and Episodic-Like Representations in a Recurrent Neural Network Navigation Model

*Shin Tamura1, Yutaka Yamaguti2 (1. Graduate School of Engineering, Fukuoka Institute of Technology, Fukuoka, Japan, 2. Faculty of Information Engineering, Fukuoka Institute of Technology, Fukuoka, Japan)
Comment()

[1P-444]Decoding Visual Experience via Recognition and Generative Latent Representations

*Motokazu Umehara1, Yoshihiro Nagano1,2, Misato Tanaka1,2, Yukiyasu Kamitani1,2 (1. Kyoto University Graduate School of Informatics, 2. ATR Computational Neuroscience Laboratories)
Comment()

[1P-445]Simulation of neural networks composed of piecewise quadratic neurons for reservoir computing

*Tatsuya Kuroki1, Takumi Yamada1, Takashi Tanii1, Yuya Sato2 (1. Waseda University, 2. Tohoku University)
Comment()

[1P-446]An adaptive deep Koopman operator unifies motor control, motor adaptation, and neural population dynamics

*Ken Takiyama1, Reishi Koubara1, Yuku Waki1 (1. Tokyo University of Agriculture and Technology)
Comment()

[1P-447]Identifying effective connectivity alterations in major depressive disorder using virtual brain models

*Hayato Kato1, Satoshi Maesawa2,3, Epifanio Bagarinao1,2 (1. Dept Integr Health Sci, Nagoya Univ Grad Sch Med, Nagoya, Japan, 2. Brain and Mind Res Ctr, Nagoya Univ, Nagoya, Japan, 3. Dept Neurosurg, Nagoya Med Ctr, Nagoya, Japan)
Comment()

[1P-448]Modelling Thalamocortical Control of Representations for Perceptual Inference

*Cillian Hayde1 (1. Riken)
Comment()

[1P-449]A Predictive Coding Agent Solves Multi-Armed Bandit Tasks Using Social Information

*Taro Masuno1, Sotaro Kodama2, Hiroyoshi Ogishima2, Saori C Tanaka2 (1. Nippon Medical School, 2. Nara Institute of Science and Technology)
Comment()

[1P-450]Predicting Delay Discounting from Edge-Level Functional Connectivity Using Machine Learning

*Indika Yasan Don Hettiarachchige1, Dohyeong Kwon1, Seunghwan Han1, Dohyeon Kim1, Ji-won Park4, Youngwoo Bryan Yoon22,3, Wi Hoon Jung4, Joon Yul Choi1 (1. Dept Biomed Eng, Yonsei Univ, Wonju, Republic of Korea, 2. Dept Psychiatry, Columbia Univ Irving Med Ctr, New York, USA, 3. New York State Psychiatric Inst, New York, USA, 4. Dept Psychology, Gachon Univ, Seongnam, Republic of Korea)
Comment()

[1P-451]Measuring and Modeling Insight and Motivation: From Human fMRI to Chaotic RNNs and Fluctuation-Driven Neuromorphic Computing

*Kazufumi Hosoda1,3,4, Misako Kimura1,2, Wataru Miyamori1,3, Ayako Kawasaki1,4, Atsuya Kawamoto1,3, Komaki Kunishige1, Tsutomu Murata1, Yuuki Matsushita5, Masayo Inoue6, Shigeto Seno7, Izumi Ohzawa1, Kunihiko Kaneko1,8, Toshio Yanagida1 (1. CiNet, NICT, Osaka, Japan, 2. Grad Sch Sci, Univ of Hyogo, Hyogo, Japan, 3. Grad Sch FBS, Univ of Osaka, Osaka, Japan, 4. Grad Sch HS, Kobe Univ, Hyogo, Japan, 5. Simons Centre, NCBS, Bangalore, India, 6. Grad Sch Eng, Kyushu Inst of Tech, Fukuoka, Japan, 7. Grad Sch IST, Univ of Osaka, Osaka, Japan, 8. Niels Bohr Inst, Univ of Copenhagen, Copenhagen, Denmark)
Comment()

[1P-452]Modeling the synaptic pathology underlying cognitive deficits in schizophrenia using canonical neural networks

*Sarina Tsuchiya1, Norimitsu Suzuki2, Akiko Hayashi2,3, Takuya Isomura2 (1. Hoshinomori High school, 2. RIKEN Center for Brain Science, 3. Keio University School of Medicine)
Comment()

[1P-453]Threshold Dynamics of Activity-Dependent ATP Collapse in Neural Microdomains

*Jiayi Sun1 (1. Ube Frontier University)
Comment()

[1P-454]Enhancing the Adaptability of Personalized EEG-based Emotion Classification under Psychophysiological Modulations

*Yuan-Pin Lin1, Zi-Ping Huang1 (1. Inst. of Medical Science and Technology, National Sun Yat-sen Univ., Kaohsiung, Taiwan)
Comment()

[1P-455]Exploring the neural representation of sound during monaural hearing

*XIAOXUAN LIU1, Jong-Yun Park2, Misato Tanaka1,2, Yukiyasu Kamitani1,2 (1. Grad Sch Info, Kyoto University, Kyoto, Japan, 2. ATR)
Comment()

[1P-456]Hippocampal replay as Hamiltonian Monte Carlo sampling

*Tatsuya Haga1,2 (1. CiNet, National Institute of Information and Communications Technology, Osaka, Japan, 2. Grad Sch Info Sci Tech, Univ of Osaka, Osaka, Japan)
Comment()

[1P-457]Self-organization and spontaneous activity affect reinforcement learning performance in cultured neuronal network models

*Shuma Tanaka1, Hideyuki Kato2, Hideaki Yamamoto3, Yuichi Katori1 (1. Grad Sch of Systems Information Science, Future Univ Hakodate, Hakodate, Japan, 2. Faculty of Science and Technology, Oita Univ, Oita, Japan, 3. Research Institute of Electrical Communication, Tohoku Univ, Sendai, Japan)
Comment()

[1P-458]A Matrix-Power Ansatz for Lagged Autocovariances in Echo State Networks

*Taiki Yamada1, Robert Simon Fong2, Kantaro Fujiwara1 (1. Grad Sch Inf, Univ of Tokyo, Tokyo, Japan, 2. IRCN, Univ of Tokyo, Tokyo, Japan)
Comment()

[1P-459]Toward Sensorimotor Integration in Songbird Vocal Learning : A Sensory Learning Model Based on Reservoir Computing and Predictive Coding

*Hiromu Kusaka1, Yuichi Katori1 (1. School of Systems Information Science, Future University Hakodate)
Comment()

[1P-460]Recurrent neural network modeling of human action strategies and psychiatric measures

*Honoka Fukutani1, Jun-nosuke Teramae1 (1. Kyoto University)
Comment()

[1P-461]A Trade-off between Memory Capacity and Trajectory Amplification in Transient Dynamics: A Random Matrix Theory Analysis

*Arata Tomoto1, Jun-nosuke Teramae1 (1. Graduate School of Informatics, Kyoto University)
Comment()

[1P-468]Detecting mixed selectivity behind neural dynamics for multisensory integration in Drosophila

*Xiyang Sun1, Chao Li2, Zhe Sun3, Fumiyasu Komaki1,4 (1. RIKEN, Center for Brain Science, 2. RIKEN, Center for Advanced Intelligence Project, 3. Juntendo University, Graduate School of Health Data Science, 4. The University of Tokyo, Graduate School of Information Science and Technology)
Comment()

[1P-469]Mapping thalamocortical connectivity of the common marmoset

*Akiya Watakabe1,2, Henrik Skibbe3,4, Hiroshi Abe2,5, Tani Toshiki2,6, Noritaka Ichinohe7, Tetsuo Yamamori2,8, Tomomi Shimogori1 (1. RIKEN CBS, Lab for Mol Mech Brain Dev, 2. RIKEN CBS, Lab for Molecular Analysis of Higher Brain Function, 3. RIKEN CBS, Brain Image Analysis Unit, 4. Matsuyama Univ, Faculty of Informatics, 5. RIKEN CBS, Lab for Haptic Perception and Cognitive Physiology, 6. RIKEN CBS, Support Unit for Animal Resources Development, 7. NCNP, Dept of Ultrastructural Research, 8. CIEM, Dept of Biological functions and regulations)
Comment()

[1P-470]Introduction of a multichannel EEG model and connectivity estimation using oscillator populations

*Ryo Fujihira1, Toshio Aoyagi2, Keiichi Kitajo1,3 (1. National Institute for Physiological Sciences, 2. Grad Sch Informatics, Kyoto University, 3. SOKENDAI)
Comment()

[1P-471]Modeling whole brain network dynamics of individuals with autism spectrum disorder using neuroimaging data: A feasibility study

*Noaoto Matsubara1 (1. Nagoya University)
Comment()

[1P-472]Neural–Body Simulation in Caenorhabditis elegans

*Yutaro Ueoka1, Yuichi Iino1, Hideharu Mikami2, Yu Toyoshima1 (1. Grad Sch Sci, Univ of Tokyo, Tokyo, Japan, 2. Research Institute for Electronic science, Hokkaido University, Hokkaido, Japan)
Comment()

[1P-476]Targeting the NMDA-Receptor in Schizophrenia: Machine Learning–Based QSAR Modeling and Molecular Docking for Lead Compound Identification

*Sugapriya Dhanasekaran1, Sohith Reddy Korlagunta2, Iniyan Muthamil Selvan3 (1. Department of Microbiology, Manipal University College Malaysia, Malaysia, 2. Saveetha School of Engineering, SIMATS University, TN, India, 3. The Blue Mountain School, Ooty, TN, India)
Comment()

[1P-477]A Pilot Study of a Wearable EEG-Guided VR Neurotraining System for Working Memory Enhancement

*Ming-Chuan Chen1, Yuan-Pin Lin1 (1. Inst Med Sci Technol, Natl Sun Yat-sen Univ, Kaohsiung, Taiwan)
Comment()

[1P-478]Enhanced Haptic Interface for Laparoscopic Simulators using High-Fidelity Vibrotactile Actuators

*Keisuke Takahashi1 (1. Tokyo Polytechnic University)
Comment()

[1P-479]In-Air Activity Measurement of Cultured Neuronal Networks Grown on Collagen Gel Matrices

*Yuya Sato1, Hideaki Yamamoto2, Takashi Tanii1 (1. Waseda Univ., 2. Tohoku Univ.)
Comment()

[1P-480]Neuronal culture on a polydimethylsiloxane film for non-contact-type microelectrode array recording

*Yu Kuwabara1, Yuya Sato3, Kota Oishi1, Takashi Tanii2 (1. Grad Sch FSE, Waseda Univ, Tokyo, Japan, 2. Faculty of Science and Engineering, Waseda Univ, Tokyo, Japan, 3. Research Organization for Nano & Life Innovation, Waseda Univ, Tokyo, Japan)
Comment()

[1P-481]Damage resistance and self-repair capacity in hierarchically modular neuronal networks examined by laser microdissection

*Keita Watanabe1,2, Hideaki Yamamoto1,2,3, Takuma Sumi4, Hakuba Murota1,2, Hironobu Osaki5, Kenshiro Kawamoto5, Teppei Matsui5, Yoshito Masamizu5, Shigeo Sato1,2, Ayumi Hirano-Iwata1,2,3 (1. Research Institute of Electrical Communication (RIEC), Univ of Tohoku, Japan, 2. Grad. Sch. Eng, Univ of Tohoku, Tohoku, Japan, 3. Advanced Institute for Materials Research (WPI-AIMR), Univ of Tohoku, Tohoku, Japan, 4. Hotchkiss Brain Institute (HBI), Univ of Calgary, Calgary, Canada, 5. Grad. Sch. Brain Sci., Univ of Doshisha , Kyoto, Japan)
Comment()

[1P-483]Physicochemical Analysis of Hidden Nanomaterials in Classical Acetylcholinesterase Histochemistry

*Rabiatul Adawiyah Razali1, Faris Hazwan Nazar1, Uswah Hasanah Mohd Hafizal1, Kato Tomoko1, Ikuo Tooyama1, Jean-Pierre Bellier1 (1. Medical Innovative Research Center, Shiga University of Medical Science, Otsu Shiga Japan)
Comment()

[1P-484]Single-cell–resolved metabolite mapping in brain sections by combining fluorescence labeling and mass spectrometry imaging

*Hirotaka Nagai1, Midori Nagai1, Hiromi Saito2, Wenran Qiu1,3, Reiji Yamazaki1, Yasuyuki Osanai1, Tomoyuki Furuyashiki4,3, Nobuhiko Ohno1,5, Shuichi Shimma2 (1. Jichi Medical University, 2. Osaka University, 3. Kobe University, 4. Science Tokyo, 5. NIPS)
Comment()

[1P-485]Automated Segmentation of the Pineal Gland from T1-weighted MRI : A Pilot Study with Limited Data

*Seunghwan Han1, Dohyeong Kwon1, Wonjin Kim1, Yechan Kim1, Wanhyung Lee2, Joon Yul Choi1 (1. Dept Biomed Eng, Yonsei Univ, Wonju, Republic of Korea, 2. Dept Prev Med, Coll Med, Chung-Ang Univ, Seoul, Republic of Korea)
Comment()

[1P-486]Development of a genetically-encoded blue fluorescent L-lactate biosensor for triple-colour imaging

*Ching-Yao Wang1, Jamsad Mannuthodikayil1, Yusuke Nasu1,2,3 (1. Institute of Biological Chemistry, Academia Sinica, Taipei City, Taiwan, 2. Department of Chemistry, School of Science, The University of Tokyo, Bunkyo-ku, Tokyo, Japan, 3. Institute of Biochemical Sciences, National Taiwan University, Taipei, Taiwan)
Comment()

[1P-487]In vivo voltage imaging in the zebrafish cerebellum at single-cell and population levels

*MEI KAI1, Hayashi Ayane1, Tsuada Sachiko1, Kikukawa Junpei1 (1. Grad Sch of Sci and Eng, Saitama Univ, Saitama, Japan)
Comment()

[1P-488]High-speed Z-axis correction with electrically tunable lens for accurate two-photon neural imaging in mice

*Hironobu Osaki1, Keita Watanabe2,3, Sachiko Iwai1, Hideaki Yamamoto2,3,4, Ayumi Hirano-Iwata2,3,4 (1. Grad Sch Brain Sci, Doshisha Univ, Kyoto, Japan, 2. RIEC, Tohoku Univ, Miyagi, Japan, 3. Grad. Sch. Eng., Tohoku Univ, Miyagi, Japan, 4. AIMR, Tohoku Univ, Miyagi, Japan)
Comment()

[1P-489]Stepwise Cross-species Alignment of Primate Cortical Myelin Maps from Marmoset to Human

*Yuji Kamegaya1, Teppei Matsui2, Koji Jimura3 (1. Dept. of Informatics, Gunma Univ., Japan, 2. Grad Sch Brain Sci, Doshisha Univ., Japan, 3. Grad Sch Infomatics, Gunma Univ., Japan)
Comment()

[1P-490]Improving spatiotemporal resolution of wide-field two-photon microscopy through multi-resolution data fusion

*Yeman Thike1, Kosuke Okubo2, Ikumi Oomoto3, Yoshihito Saito3, Kotaro Ishizu3, Masanori Murayama3, Toru Aonishi1 (1. The University of Tokyo, Tokyo, Japan, 2. Institute of Science Tokyo, Tokyo, Japan, 3. RIKEN Center for Brain Science, Wako, Japan)
Comment()

[1P-491]Assessing leaky expression in Cre-dependent DNA constructs in the mouse genome using sensitive bioluminescent reporters

*Toshiaki Nakashiba1, Takashi Sugiyama2, Satoshi Iwano3,4, Atsushi Yoshiki1, Mizuho Iwama1, Atsushi Miyawaki3, Kuniya Abe1 (1. RIKEN, 2. Evident Corporation, 3. RIKEN CBS, 4. University of Miyazaki)
Comment()

[1P-492]Spatial transcriptomic analysis of gene expression in the chronic phase of spinal cord injury

*Kenta Uchida1,2, Yoshino Yonezu1, Satoshi Miyashita3, Mikio Hoshino3, Hidemi Misawa4, Rieko Muramatsu1 (1. Department of Molecular Pharmacology, National Institute of Neuroscience, National Center of Neurology and Psychiatry, Tokyo, Japan, 2. Department of Biotechnology and Life Science, Graduate School of Engineering, Tokyo University of Agriculture and Technology, Tokyo, Japan, 3. Department of Biochemistry & Cellular Biology, National Institute of Neuroscience, National Center of Neurology and Psychiatry, Tokyo, Japan, 4. Department of Pharmacology, Graduate School of Pharmaceutical Sciences, Keio University, Tokyo, Japan)
Comment()

[1P-493]A CMOS imaging device integrated with a multi-faceted optical probe for depth-resolved observation

*Ryusei yago1, Gen Matsushita1, Hiyori Nakamura1, Ryoma Okada2, Hironari Takehara2, Kiyotaka Sasagawa2, Jun Ohta2, Yuki Kurauchi3, Makito Haruta1,2 (1. Chitose Institute of Science and Technology, 2. Nara Institute of Science and Technology, 3. Kumamoto University)
Comment()

[1P-500]Mechanistic Characterization of Nasal Spray Dynamics to Support Reproducible Intranasal Delivery for Neurological Therapeutics

*Ranju Kim1, Jihyun Kang2, Dongwook Kim3, Chunwoong Park1 (1. College of Pharmacy, Chungbuk National University, Republic of Korea, 2. College of Pharmacy, Jeonbuk National University, Republic of Korea, 3. College of Pharmacy, Wonkwang University, Republic of Korea)
Comment()

[1P-501]Native receptor–targeted chemogenetics elucidates the role of cerebellar mGlu1 in freely moving mice

*Keigo Morikawa1, Tomohiro Doura1, Takumi Kondo1, Tomoteru Yamasaki2, Masayuki Fujinaga2, Ming-Rong Zhang2, Wataru Kakegawa3, Shigeki Kiyonaka1,4 (1. Graduate School of Engineering, Nagoya University, 2. National Institutes for Quantum and Chemical Innovation, 3. Faculty of Science, Gakushuin University, 4. Research Institute for Quantum and Chemical Innovation, Nagoya University)
Comment()

[1P-502]Using bulk and spatial transcriptomics to define the regional and cellular transcriptome landscape of the adult human brain

*NICHOLAS MITSIOS1, EMMA GERRITS1, PER OKSVOLD2, KALLE VON FEILITZEN2, EVELINA SJOSTEDT2, MIKLOS PALKOVITS3, TOMAS HOKFELT1, MATHIAS UHLEN2, JAN MULDER1 (1. Department of Neuroscience, Karolinska Institutet, Solna, Sweden , 2. Department of Protein Science, KTH-Royal Institute of Technology, SciLifeLab Stockholm, Sweden , 3. Department of Anatomy, Semmelweis University, Budapest, Hungary)
Comment()

[1P-504]How Does Emotion Regulation Drive Personal Growth? Exploring the Mediating Pathways of Resilience Among Taiwanese University Students

*Chen ya-chi1, Li Cheng-Chieh1, Lin Chia-Han 3, Chang Han-Yun 1,2 (1. Dept of Psychology, Asia University, Taichung, Taiwan, 2. Clinical Psychology Center, Asia University Hospital, Taichung, Taiwan, 3. Dept of Information Communication, Asia University, Taichung, Taiwan)
Comment()

[1P-505]Ibogalogs alleviate acute and chronic migraine-like phenotypes in Sprague-Dawley rats via 5-HT2A/2C and 5-HT1B/1D receptor activation

*Shuo-Fu Chen1,2, Hugo R. Arias3, Erika Liktor-Busa2,4, Tally Largent-Milnes1,2,4 (1. Department of Neuroscience, University of Arizona, Tucson, AZ, USA, 2. Comprehensive Center for Pain & Addiction (CCPA), University of Arizona Health Sciences, Tucson, AZ, USA, 3. Department of Pharmacology and Physiology, Oklahoma State University College of Osteopathic Medicine, Tahlequah, OK, USA, 4. Department of Pharmacology, University of Arizona, Tucson, AZ, USA)
Comment()

[1P-506]Elevation of Brain Histamine via HNMT Inhibition as a Therapeutic Strategy for Hypersomnia

*Takeo Yoshikawa1, Kyosuke Hirano1, Fumito Naganuma1 (1. Grad Sch Med, Hokkaido Univ, Sapporo, Japan)
Comment()

[1P-507]A decoder independent framework for quantifying neural information content captured by electrocorticography electrodes in brain machine interface

*Yuto Fukui1,2, Taro Kaiju3,2, Takafumi Suzuki2,1 (1. Grad Sch Frontier Bioscience, Univ of Osaka, Osaka, Japan , 2. Center for Information and Neural Networks(CiNet), National Institute of Information and Communications Technology, and Osaka University, Osaka, Japan, 3. Human Informatics and Interaction Research Institute, National Institute of Advanced Industrial Science and Technology, Ibaraki, Japan)
Comment()

[1P-510]Shared breath of joy enhances empathy through breathing synchronization

*Yuri Masaoka1, Motoyasu Honma1, Momoka Nakayama2, Misako Matsui1, Akira Yoshikawa3, Shota Kosuge4, Miku Kosuge5, Daiki Shoji4, Shunsuke Sakakura1, Masahiko Izumizaki1 (1. Department of Physiology, Showa Medical School School of Medicine, 2. Dentsu Lab Tokyo, 3. Division of Health Science Education, Showa Medical University School of Nursing and Rehabilitation Sciences, 4. Division of Neurology, Showa Medical University Hospital, 5. Department of Respiratory Medicine, Showa Medical University Fujigaoka Hospital)
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[1P-511]Artificial life simulation of spontaneous behavior based on brain dynamics

*Miharu Okuda1, Masato S Abe2,3,4 (1. Doshisha University, 2. Doshisha University Complex systems science laboratory , 3. RIKEN Center for Advanced Intelligence Project, 4. RIKEN Center for Brain Science -Toyota Collaboration Center)
Comment()

[1P-512]Vascular Remodeling and Inflammatory Changes in Circumventricular Organs During Early Diabetes

*Eriko Furube1, Masahiro Ohgidani1, Yusuke Tanaka1, Shigetaka Yoshida1 (1. Asahikawa Medical University)
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[1P-513]Frequency-dependent modulation of spontaneous EEG by inaudible high-frequency acoustics: Implications for the hypersonic effect

*Kosa Fujimori1,2, Norie Kawai2, Yusei Watanabe2, Koto Jogasaki1,2, Manabu Honda2,1 (1. Tokyo University of Aguriculture and Technology, 2. National Center of Neurology and Psychiatry)
Comment()

[1P-514]Observation of heterogeneous distribution of Extracellular Vesicles released from cancer cells in brain slice culture

*Moe Saito1, Yoshiki Hatashita1, Takafumi Inoue1, Nao Nishida -Aoki2 (1. Dept Life Sci & Med Biosci, Graduate School of Advanced Science and Engineering, Faculty of Science and Engineering, Waseda University, 2. Waseda Institute for Advanced Study)
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[1P-517]From Functional Dissociation to Effective Connectivity: A Synthesis of Amygdala and NAc Roles in Humor and Monetary Rewards

*Yu-Chen Chan1 (1. Institute of Learning Sciences and Technologies, National Tsing Hua University, Hsinchu, Taiwan)
Comment()
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