| Prefecture |
Organization |
Institute Director |
Introduction of your Technology, Product and Study |
Technology Classification/Product Classification |
Contact |
| Enterprise |
BMG Incorporated
|
Research & Development Team
Hiroki Takahashi
|
For many years, we have manufactured varieties of ingredients (PGA, LCL) for biodegradable surgical suture, which is used most often in clinical practice. Our technology includes manufacturing of ingredients for bioabsorbable bone fixation material (PLLA), bioabsorbable material for dental tissue regeneration (GTR membrane), and denture base material made of thermoplastic resin which have significantly less residual monomers and is safer for the human body(ACRYSHOT). We have also developed medical adhesives as a substitution for fibrin adhesives and are currently preparing for clinical trials. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-BB05/Life Innovation/Regenerative Medicine/Bone & Osteochondral
|
+81-75-681-0787
|
| Enterprise |
Nitta Gelatin Inc.
|
Norimichi Soga
|
We develop, produce and sell gelatin and collagen for use in a wide range of applications such as regenerative medicine, tissue engineering, DDS, and cell culture substrate.Our product lineup consists of1) Cellmatrix (collagen for 3D cell culture etc.),2) beMatrix Gelatin (Low endotoxine gelatin),3) Collagen for medical device(Low endotoxine),4) Collagen sponge,5) Collagenase L . |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-A002/Basic Technology/Basic & Fundamental Technology/Protein Synthesis
-A003/Basic Technology/Basic & Fundamental Technology/Analysis of Protein Function
[Product Classification]
-BB04/Life Innovation/Medical Equipment/Medical Supplies
-A002/Basic Technology/Basic & Fundamental Technology/Reagents
|
+81-72-949-5381
info@nitta-gelatin.co.jp |
| Enterprise |
PHG Corporation
|
Yoshiaki Furutani
|
[Artifiical Collagen]Artificial Collagen is a polypeptide having characteristics similar to native collagen which features a triple-helical structure, and is chemically synthesized based on genomic information. Because this artificial collagen does not use raw material of the animal origin and has an extremely low possibility of pathogen infection, PHG focuses on the development of biomaterial utilizing artificial collagen. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-BB06/Life Innovation/Regenerative Medicine/Skin
-BB12/Life Innovation/Regenerative Medicine/Neuron
[Product Classification]
-BB04/Life Innovation/Medical Equipment/Medical Supplies
|
+81-75-325-6055
info@phg.co.jp |
| University |
Konan University
|
Faculty of Science and Engineering, Department of Functional Molecular Chemistry, Laboratory of Chemistry for Material Processing, Biomaterials Innovation Science
Junji Watanabe (Associate professor)
|
Designing of biointerfaces based on reflexive surface properties in terms of hydrophilic-hydrophobic switching |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-BA10/Life Innovation/Drug Discovery & Diagnosis/Diagnostic Equipment
-BA09/Life Innovation/Drug Discovery & Diagnosis/DDS
[Product Classification]
-BB04/Life Innovation/Medical Equipment/Medical Supplies
-BA01/Life Innovation/Drug Discovery & Diagnosis/Drugs (Diagnosis)
|
+81-78-431-4341
junjiknd@konan-u.ac.jp |
| University |
Nara Medical University
|
Department of Indoor Environmental Medicine
Ikada Yoshito
|
Studies on absorbable scaffolding biomaterials for tissue engineering. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
[Product Classification]
-BB04/Life Innovation/Medical Equipment/Medical Supplies
|
+81-744-22-3051
|
| University |
Osaka Institute of Technology
|
Faculty of Engineering, Department of Biomedical Engineering, Biomaterial Laboratory
Toshia Fujisato
|
We are developing an acellular scaffold for the tissue engineering of heart valve, blood vessel, skin, cornea, skeletal muscle, and adipose tissue. Also, skeletal myoblasts are seeded in the scaffold to have a tissue engineered-skeletal muscle. We have shown they are able to move an artificial object by the electrical stimulation. They may also be applicable to a model for the movement physiology and drug metabolism as a micro actuator. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-BB13/Life Innovation/Regenerative Medicine/Skeletal Muscle & Tendon
-BB02/Life Innovation/Regenerative Medicine/Cell Culture System
[Product Classification]
-BB04/Life Innovation/Medical Equipment/Medical Supplies
-BB02/Life Innovation/Medical Equipment/Treatment Equipment
|
+81-6-6954-4643
http://www.oit.ac.jp/bio/ |
| University |
Osaka Prefecture University, Research organization for 21st century
|
Nanoscience and Nanotechnology Research Center, Chie Kojima Laboratory
Chie Kojima
|
We prepare drug carriers, stimuli-responsive materials, and artificial proteins using synthetic macromolecules. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
[Product Classification]
-BB04/Life Innovation/Medical Equipment/Medical Supplies
-BA02/Life Innovation/Drug Discovery & Diagnosis/Therapeutic Agent
|
+81-72-254-8279
|
| University |
Ryukoku University
|
Department of Materials Chemistry
Takahiko Nakaoki
|
We investigate the biosynthesis of polyester from microorganism and its physical properties. Biomass such as glucose, fatty acids, plant oil, and so on can be used as carbon sources to produce the biopolyester. This biopolyester is a biodegradable, and can be used as biocompatible material. In addition, we are investigating the physical properties of polymer alloy between this biopolyester and other biodegradable materilals such as polylactide. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-BC10/Life Innovation/Medical Equipment/Catheterization
-CA01/Green Innovation/Environment & Energy/Bio Fuel
|
+81-77-543-7661
nakaoki@rins.ryukoku.ac.jp |
| University |
Ryukoku University
|
Department of Materials Chemistry
Kin-ya Tomizaki (Associate Professor)
|
We have been working on the research areas of de novo design of peptides with secondary structures such as alpha-helix and beta-sheet. Our research interests include chemical evolution of peptides with enzyme-like catalytic activities, enzyme substrates and inhibitors, and protein microarrays. Our current research topic is alignment and usage in nano-electric devices of metal particles templated by peptide nano-structures. |
[Technology Classification]
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-BA11/Life Innovation/Drug Discovery & Diagnosis/Bio-tips
|
+81-77-543-7469
tomizaki@rins.ryukoku.ac.jp |
| University |
The University of Shiga Prefecture
|
School of Engineering, Department of Mechanical Systems
Heisaburo Nakagawa (Professor)
|
We investigate to manufacture a high precision mold for microTAS chips and to construct high precision injection molding.We study the method of machine processing and machine processing conditions of several artificial joints. |
[Technology Classification]
-BA11/Life Innovation/Drug Discovery & Diagnosis/Bio-tips
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
|
+81-749-28-8390
nakagawa@mech.usp.ac.jp |
| Institute |
National Cerebral and Cardiovascular Center
|
Research and Development Initiative Center, Department of Intellectual Asset Management
Eiki Akagawa
|
In our office, we are in charge of strategic patent acquisition and commercialization of the result of the circulatory disease research at this research center. We also support cooperation with enterprises to develop medical devices, pharmaceutical agents, medical services etc, and to search unmet clinical needs. |
[Technology Classification]
-BC14/Life Innovation/Medical Equipment/Artificial Cardiac Pacemaker
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
-A009/Basic Technology/Basic & Fundamental Technology/Data Base
|
+81-6-6833-5012
|
| Institute |
Osaka Municipal Technical Research Institute
|
Biomaterials and Commodity Chemicals Research Division, Microbiological Control Laboratory
Osamu Kobayashi
|
Sterilization of unheated fresh food.Food biopreservation by use of lactic acid bacteria. |
[Technology Classification]
-A011/Basic Technology/Basic & Fundamental Technology/Improvement & Search of Functional Organism (Microbe,Plant)
-BB01/Life Innovation/Regenerative Medicine/ Scaffold & Biomaterial
[Product Classification]
-CB01/Green Innovation/Agriculture & Food/Food
-BB04/Life Innovation/Medical Equipment/Medical Supplies
|
+81-6-6963-8061
osamkoba@omtri.or.jp |
