Special symbols
Technology involving patent rights held by Keio University. For further information, please inquire at the KLL Desk.
Research Project at Keio Innovation Foundry (KIF) as one of Keio University Faculty of Science and Technology 75th Anniversary Commemorative Project.
Biomedical
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Biomedical Electronics Biological and energy application of nanofiber
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| Professor SHIRATORI, Seimei Department of Applied Physics and Physico-informatics |
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1. Immediate, reusable and sensitive cell detection with quartz crystal microbalance. 2. Oil-water separation using nanofiber.3. Flexible, laminated lithium-ion battery and Lithium-air battery. 4. Transparent conductive fiber film is presented. |
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Biomedical Information and Communication New Applications of Micro/Nano Technology
- From Healthcare to Advanced Medical Devices - From ICT to Arts   |
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| Professor MIKI, Norihisa Department of Mechanical Engineering |
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Our laboratory’s focus covers from salt-intake reduction, stress monitoring, artificial kidney, information communication technologies to brain wave music. Please visit our booth to experience them.
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Biomedical Materials Biomedical and information devices Integrated with micro/nano-scale functional materials
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| Associate Professor ONOE, Hiroaki Department of Mechanical Engineering |
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By using microfabrication and microfluidic technologies, we are developing novel functional microdevices integrated with nanoscale materials such as hydrogels, colloidal crystals, CNT and graphene. Our functional devices could be applied to in vitro tissue reconstruction for regenerative medicine, biochemical sensors for healthcare and environment monitoring, hydrogel microactuators, and reflective displays.
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Biomedical Mechanics Cell Culture Technology mediated by
Ultrasonic Vibration  |
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| Associate Professor TAKEMURA, Kenjiro Research Associate KURASHINA, Yuta Department of Mechanical Engineering |
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Regenerative medicine requires a novel cell culture technology. Our research group aims to develop such cell culture technology using ultrasonic vibration. We will introduce an effective cell collection method using resonance vibration, and enzyme free cell detachment method etc.
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Biomedical The Innovative Arrhythmia Therapy: PD ABLATION®
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| Professor ARAI, Tsunenori Department of Applied Physics and Physico-informatics |
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We have proposed PD ABLATION® as an application of Photodynamic Therapy to an innovative arrhythmia treatment and developed a clinical device. The great interest has been focused in the heart rhythm societies in worldwide. We will show you the state-of-the-art technologies on PD ABLATION®.
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Biomedical Innovative laser probe technology for deep lesion
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| Professor ARAI, Tsunenori Department of Applied Physics and Physico-informatics |
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To treat deep tumor lesion, we have focused on development of an ultra-thin laser diffusion probe less than 1.5 mm in diameter. We specially designed the probe to treat distal lung tumor and brain stem tumor. New technologies equipped on the probe will be shown.
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Biomedical Cure arteriosclerotic blood vessel surely: Vascular hyperthermia
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| Professor ARAI, Tsunenori Department of Applied Physics and Physico-informatics |
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We have developed innovative angioplasty by means of laser-mediated-heat generation to treat arteriosclerotic blood vessel. A dilatation function as well as drug delivery characteristics was drastically improved. We have already experienced clinical cases. We will present the clinically available heating catheter.
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Biomedical Information and Communication Visualization of Memories by EEG
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| Associate Professor MITSUKURA, Yasue Department of System Design Engineering |
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We will have two exhibits. The first one uses EEG to visualize memory. I have studied to know in advance whether or not it is a CM that remains in memory. The second one is a VR image that changes with the brain wave, and I have made a device to check the release degree of the stress of those who saw it. By using this we can research the images that can release stress without fail, it became a device that leads to stress release just by looking at it.
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