Brain Function Analysis & Digital Medicine Research Institute, Showa University

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Since brain dysfunction can occur even in the absence of obvious organic changes in the brain, there are many cases in which appropriate diagnosis and therapeutic intervention fail to be achieved. Epilepsy is a typical example. We have developed a special EEG analysis technique and have shown that it is possible to accurately locate epileptic lesions from EEG data. Research is also beginning to apply this technology to the treatment of mild dementia and depression, etc.

These achievements are the result of the digitalization of EEG information. Today, a variety of medical information is being digitized, and the potential for new findings and inventions is increasing with the use of appropriate Dx and AI. Recently, it was shown that 3D images based on human brain physiology can be output in real time from 2D images by utilizing AI. Such technological development will be useful for medical education that requires 3D interpretation. It is also expected to lead to remote robotic surgery and real-time analysis technology of drug 3D structures.

The institute will develop "innovative and clinically-directed brain function analysis and digital medical research.


NEWS

Director


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Director of Brain Function Analysis & Digital Medicine Research Institute
Yosuke Sato、MD、PhD

The Brain Function Analysis & Digital Medicine Research Institute opened in April 2023 and I am pleased to be its first director. The Institute will develop innovative and clinically-directed projects that cross the boundaries between departments and faculties, and that will involve collaboration between basic medicine, clinical medicine, and industry.
As a neurosurgeon and epilepsy surgeon, I have been keenly aware of how useful it would be if EEG data could be used to accurately visualize brain function and epilepsy lesions in daily clinical practice. Drawing on my own clinical experience, I continue to challenge myself to achieve visualization of brain function and epileptic lesions by evaluating the "state of the brain" using special EEG analysis technology. Furthermore, the application of this technology is showing the possibility of evaluating various brain and mental states.
In recent years, a great deal of medical information, like EEG data, has been digitized and accumulated, making it possible to successfully utilize AI to make new discoveries and develop new technologies. I believe that it is very important to have the appropriate literacy and skills to take on medical data science and deploy it in a human-friendly form. As an active neurosurgeon and as a person engaged in medicine and healthcare, I would like to promote research and technology development that is useful for clinical practice while directly understanding the needs of the field.

Project

Research

■In collaboration with the Department of Neurosurgery, Showa University School of Medicine, we will conduct a detailed examination of brain tissue collected during neurosurgery and compare and investigate the results of special EEG analysis and lesion examination. We will develop techniques to visualize functional and dysfunctional areas as well as lesions that cannot be evaluated by conventional methods, leading to the practice of neurosurgery with high safety and reliability.

■We will conduct research on diagnosis and disease state evaluation in neuropsychiatric disorders such as dementia and depression using special EEG analysis in collaboration with not only neurosurgery but also neurology, psychiatry, and all other departments and facilities involved in the treatment of brain dysfunction.

■We will work on research and development of technologies that can visualize human sensory and emotional information by applying special EEG analysis. For example, if pain sensation can be visualized, it will be possible to monitor patients suffering from pain for diagnosis and treatment. In addition, we will conduct research on the development of a Brain Machine Interface that connects the brain of patients who are unable to communicate through language or movement with machines. We will conduct joint research with various industrial sectors involved in medicine and healthcare.

■We aim to establish a glasses-free 3D display medical education and medical care system with real-time stereoscopic image conversion using AI. In medical education for students and doctors in medical, pharmaceutical, and dental schools, the system will promote active learning of contents that require stereoscopic interpretation (e.g. anatomy) and shorten the learning curve. In clinical practice, it facilitates diagnosis and understanding of lesions that require stereoscopic interpretation, and contributes to skill improvement and safety enhancement in surgery. This will lead to the development of glasses-free 3D monitors for remote robotic surgery and remote diagnosis using AI.

■We will study a three-dimensional recognition system for drug structures through software development and the use of AI. By developing an advanced three-dimensional recognition system, it will be possible to instantly identify and sort drugs with different pharmacological effects depending on their structures. In collaboration with the Faculty of Pharmacy and the pharmaceutical industry, this research will lead to drug structure analysis and drug discovery technologies that make full use of digital technology.

EducationSince we develop cross-disciplinary projects that cross departmental and faculty boundaries, we provide research guidance and education for researchers and graduate students from a variety of fields, emphasizing collaboration with multiple disciplines. In addition to education in research-related knowledge and skills, the program fosters next-generation human resources capable of conducting medical research directly related to clinical practice, with an emphasis on research ethics and medical literacy.
International Collaboration
We will develop projects in collaboration with researchers around the world, taking advantage of exchanges with universities and facilities in the US, North America, South America, Europe, Central Asia, and other regions. In cooperation with the Showa University International Center, we actively accept international students from abroad and promote global research projects.

Team

Director
Yosuke Sato MD, PhD

Qualifications:
Medical Specialist and Medical Advisor, Japanese Neurosurgical Association
Board Certified Epileptologist and Instructor, Japanese Society for Epilepsy
Vagus nerve stimulation (VNS) certified physician
Stereotactic intracranial electroencephalography (SEEG) certified physician
Board Certified Electroencephalographer and Board Certified Intraoperative Cerebrospinal Monitoring Specialist, Japanese Society of Clinical Neurophysiology
Clinical Training Advisor, Ministry of Health, Labour and Welfare,Japan

Career Summary:
2006 Graduated from the Faculty of Medicine, Niigata University
2012 PhD, Niigata University Graduate School
2013-2015 Postdoctoral Research Fellowship, Toronto Children's Hospital, University of Toronto
2015-2016 Clinical Fellowship in Neurosurgery, International Neurological Institute Hannover
2017 Assistant Professor, Department of Neurosurgery, Showa University School of Medicine
2021 Lecturer, Department of Neurosurgery, Showa University School of Medicine
2022 Professor Emeritus, Department of Neurosurgery, National Scientific Medical Center, Kazakhstan
2023- Current position

Specialty: Neurosurgery, Epilepsy Surgery, Functional Neurophysiology, Medical Data Science


Lecturer
Junichiro Takahashi MD, PhD

Career Summary:
2004 Graduated from Xinjiang Medical University, Faculty of Medicine
2012 PhD, Juntendo University Graduate School
2013-2022 Assistant Professor of Pediatric Surgery, Juntendo University School of Medicine
2023- Current position

Specialty: Medical Data Science, International Medical Collaboration


Assistant Professor
Kosuke Tanaka 

Career Summary:
2008 Graduated from Tokyo University of Science, Faculty of Engineering
2010-2016 Eli Lilly Japan
2016-2023 UCB Japan
2024- Current position

Specialty: Medical Data Science, Small & Medium Enterprise Management Consulting

Access

Brain Function Analysis & Digital Medicine Research Institute, Showa University
Showa University Building No.1, 3rd floor
1-5-8 Hatanodai Shinagawa-ku Tokyo 142-8555 Japan
TEL:03-3784-8639
Mail:yosukens@med.showa-u.ac.jp

Area Map
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By train
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- Shinagawa Station - Hatanodai Station approx. 12 min (via Oimachi)
- Tokyo Station - Hatanodai Station: approx. 25 min (via Oimachi)
- Shinjuku Station - Hatanodai Station approx. 27 min (via Gotanda)


Brain Function Analysis & Digital Medicine Research Institute, Showa University
Showa University Building No.1, 3rd floor
1-5-8 Hatanodai Shinagawa-ku Tokyo 142-8555 Japan
TEL:03-3784-8639
Mail:yosukens@med.showa-u.ac.jp