| Prefecture |
Organization |
Institute Director |
Introduction of your Technology, Product and Study |
Technology Classification/Product Classification |
Contact |
| Enterprise |
CLIMB Medical Systems Inc.
|
Head office
"Noboru Yamamoto"
|
Development of medical image network system (PACS) based on DICOM3.0 standard. Products/DICOM Server/Radiology Work Station/Cardiology Work Station /Mammography Work Station/DICOM based Web Server/CD/DVD PublisherResearch/Imege processing |
[Technology Classification]
-BC16/Life Innovation/Medical Equipment/Informatics
[Product Classification]
-BB01/Life Innovation/Medical Equipment/Diagnostic Equipment
-A004/Basic Technology/Basic & Fundamental Technology/Bio Informatics
|
+81-6-6835-8055
yamamoto@climb-ms.com |
| Enterprise |
SkillInfomations Campany
|
Medical Consulting Section
hiroshi Sugimoto
|
The data base of an analysis and an analytical type that specializes in cancerous clinical research that the data base and the data analysis (general statistics, viability analysis, and multivariate analysis) integrate is developing sold. The development sales of the package software of incident accident total/analysis of congressional and the development sales of the educational training support system in the hospital are done as a medical treatment safety measures. Medical equipment is built in and the entrusted development of software is done. |
[Technology Classification]
-A009/Basic Technology/Basic & Fundamental Technology/Data Base
-BC16/Life Innovation/Medical Equipment/Informatics
[Product Classification]
-BB05/Life Innovation/Medical Equipment/Hospital Facilities
-A004/Basic Technology/Basic & Fundamental Technology/Bio Informatics
|
+81-6-6320-4199
mc-info@sic-net.co.jp |
| University |
Kwansei Gakuin University
|
School of Science and Technology, Department of Bioscience
Hidetoshi Sato
|
Our laboratory's main objective is to develop new optical measurement apparatuses and observe vital phenomena in living organisms in real time. A new apparatus could enable us to see what used to be invisible and open a new research field. For example, we have developed an ultrafine Raman probe which can be inserted in the body by passing through the vein or centesis of the needle with the probe placed therein, which enables the direct measurement of the molecular composition of the tissues. Using this probe, we have pursued development of the technology for making definitive diagnosis of cancers located in such deep sites which endoscopes cannot reach and for real time observation of the therapeutic effects of medicines. In aiming to expand the integrated field of life science and engineering, we have conducted and will continue to conduct research and development ranging from practical apparatus for the clinical application in hospitals to a frontier nonlinear optical microscope for observation of nanometer world. |
[Technology Classification]
-BA10/Life Innovation/Drug Discovery & Diagnosis/Diagnostic Equipment
-BC16/Life Innovation/Medical Equipment/Informatics
|
+81-79-565-9052
ip.renkei@kwansei.ac.jp |
| University |
Nara Medical University
|
Department of Obstetrics and Gynecology
Hiroshi Kobayashi
|
The objective of our research is to develop an IT-based compact personal information network system for home care environments in elderly and equipment or device that allows the consulting physician to access patient record data from outside the hospital, using a computer-assisted surveillance device connected to this network system. We have developed compound devices for detecting changes of an expression of face and motion which are aimed for use at home. Furthermore, the equipment is able to differentiate patients'conditions by monitoring environmental sounds. A computer-built-in TV camera was used to detect changes of face experience in a bedridden elderly person. A prototype has been built. The device includes the microprocessor, circuits, battery, and a wireless transceiver for communicating data with a data terminal. Special attention is paid to a medical information system which allows their family to access customized information service that will enable them to fully understand what their problem is, what their vital condition is, and what lifestyle they should follow. |
[Technology Classification]
-BC16/Life Innovation/Medical Equipment/Informatics
|
+81-744-29-8877
hirokoba@naramed-u.ac.jp |
| University |
Osaka Institute of Technology, Graduate School of Engineering
|
Medical Robotics Lab.
Toshikazu Kawai
|
The purpose of this study is to develop a new Local Operated Detachable End-effector Manipulator with force sensing (LODEM). It supports endoscopic surgery operated by two doctors beside the patient. We propose an accurate surgery concept for handling internal organs in which a manipulator with detachable existent grasping forceps is locally operated by a surgeon or endoscopy assistant. The viscoelasticity of internal organs is estimated from the step-out phenomenon of a stepper motor. The research is in collaboration with Frontier Medical Sciences, Kyoto University. |
[Technology Classification]
-BC08/Life Innovation/Medical Equipment/Manipulator
-BC16/Life Innovation/Medical Equipment/Informatics
|
+81-6-6954-4457
kawai@bme.oit.ac.jp |
| University |
Osaka University, Graduate School of Dentistry
|
Department of Prosthodontics and Oral Rehabilitation
Yoshinobu Maeda
|
We have found the normal pattern of tongue pressure production in young and elderly by using an original ultra-thin sensor sheet system, and are investigating the pathological change of deglutitive tongue movement in dysphagic patients with cerebrovascular diseases, neuromuscular diseases and oral cancers, as well as the influence of food texture, head posture and prosthetic devices on tongue pressure production during swallowing. In the near future, results of these investigations can be expected to provide useful information about the patho-physiology of tongue motor deficits, verification of treatment in rehabilitation, and food design for dysphagic patients. |
[Technology Classification]
-BC16/Life Innovation/Medical Equipment/Informatics
[Product Classification]
-BB01/Life Innovation/Medical Equipment/Diagnostic Equipment
|
+81-6-6879-2954
|
| University |
University of Fukui, Graduate School of Engineering
|
Department of Human and Artificial Intelligent Systems, Computer-Assisted Diagnosis Laboratory
Kouki Nagamune
|
In our laboratory, development of computer-assisted diagnosis system has been researched. The current target of computer-assistance is medicine, especially in the field of orthopaedics. We analyse parameters of shape, force, and motion, and relate them in the field. Specifically, we develop image diagnosis support systems of MDCT, force measurement systems in clinical manual tests, and artificial joint and knee measurement systems in clinical situations. |
[Technology Classification]
-BC02/Life Innovation/Medical Equipment/CT
-BC12/Life Innovation/Medical Equipment/Inplant
-BC16/Life Innovation/Medical Equipment/Informatics
|
+81-776-27-8037
nagamune@u-fukui.ac.jp |
| Others |
Japan Association of Diabetes Informatics
|
Department of Engineering
Hiroyoshi Morikawa
Yasunori Kanazawa
|
We develop educational resources such as an e-learning in diabetes and home treatment support systems, and support these developed systems through our Web site. The system development we proposed was adopted as a national large cooperation project of industry-university-government of the Ministry of Economy, Trade and Industry. We are looking for universities and enterprises interested in becoming a research developent partner in the field of the diabetes e-health and the regional health care cooperation. |
[Technology Classification]
-A009/Basic Technology/Basic & Fundamental Technology/Data Base
-BC16/Life Innovation/Medical Equipment/Informatics
[Product Classification]
-A004/Basic Technology/Basic & Fundamental Technology/Bio Informatics
-BB01/Life Innovation/Medical Equipment/Diagnostic Equipment
|
+81-776-27-8793
info@jadi.jp |
