Patent application number | Description | Published |
20080300369 | Eye Lens Material and Method of Manufacturing Thereof - The present invention is a method of manufacturing an eye lens material having a process in which a phosphorylcholine group-containing chemical compound represented by the following formula (1) is reacted and covalently bonded to the surface of an eye lens material having hydroxyl groups wherein the chemical compound represented by the following formula (2) is reacted and covalently bonded through ester-bonding to the eye lens material in an organic solvent. | 12-04-2008 |
20080300375 | Ocular Lens Material and Method for Producing Same - The present invention is an eye lens material wherein phosphorylcholine groups of a specific structure are covalently bonded onto the material surface by means of an after-treatment in which a phosphorylcholine-containing chemical compound is reacted with an eye lens material. | 12-04-2008 |
20090306781 | High Wear-Resistant Bearing Material and Artificial Joint Replacement Using the Same - The present invention provides a bearing material that is excellent in durability and is capable of maintaining wear resistance over a long period of time. The bearing material of the present invention is a high wear-resistance bearing material | 12-10-2009 |
20100210458 | BIOMICROMOLECULE-SEPARATING, MONOLITHIC SILICA COLUMN AND ITS PRODUCTION PROCESS, AND SEPARATION METHOD OF BIOMICROMOLECULES - A biomicromolecule-separating, monolithic silica column having a silica matrix and pores formed in the silica matrix, the silica matrix and pores have been modified at surfaces thereof with a polymer, which is obtainable by polymerization of a monomer composition including a phosphorylcholine-analogous-group-containing monomer represented by the following formula (1): | 08-19-2010 |
20100222226 | Biochip - To provide an electronic component mounting system and an electronic component mounting method which can prevent a mounting failure due to positional error in a height direction of a substrate and ensure mounting quality. The electronic component mounting system includes a plurality of electronic component mounting devices connected to one another and mounts an electronic component on a substrate to manufacture a mounting substrate. A print test device for testing the substrate after solder printing measures a height position of a height measurement point set on the upper surface of the substrate | 09-02-2010 |
20100262237 | Biomaterial, Joint Prosthesis Using the Biomaterial and Method of Producing the Same - The object of the present invention is to provide a joint prosthesis, bearing material and a production method thereof, which suppresses wear in a sliding section and suppresses the production of abrasive powder even during repeated daily operation. To achieve the object, there is provided a biomaterial comprising: a substrate made of metal, alloy or ceramic; and a biocompatible material layer laminated on the substrate, wherein hydroxyl groups are formed on the substrate by surface-treating, while the biocompatible material layer comprises a polymer containing phosphorylcholine groups, the substrate and the biocompatible material layer are bound via a binder layer which is combined with the hydroxyl groups of the substrate and with the biocompatible material layer. | 10-14-2010 |
20110027757 | MEDICAL DEVICE AND METHOD FOR PRODUCING THE SAME - An object is to provide a medical device having excellent antithrombotic and sliding characteristics, which can exert a cell adhesion inhibitory effect. A medical device comprising: a substrate capable of forming hydroxyl groups; and a biocompatible material layer laminated on the substrate at an appropriate position, wherein the hydroxyl groups are formed on a surface of the substrate at least at a required position by a surface treatment, while the biocompatible material layer is formed from a polymer containing phosphorylcholine groups, and wherein the substrate and the biocompatible material layer are joined via a binder layer formed from silica being covalently bonded with the hydroxyl groups and the biocompatible material, respectively. | 02-03-2011 |
20110059176 | MATERIAL FOR PREVENTING TISSUE ADHESION AND MATERIAL FOR PREVENTING JOINT CONTRACTURE - The present invention provides a tissue adhesion prevention material preparable at an affected area at the time of surgical procedure by producing a three-dimensional polymeric structure having a flexible structure and high solute permeability in a medium comprising water as the main component under mild conditions appropriate for body tissue components (i.e., at ordinary temperature and pressure) without conducting a chemical reaction or employing a physical procedure such as heating or light or radiation irradiation. This makes it possible to provide a tissue adhesion prevention material and a joint contracture prevention materials, which can effectively prevent postoperative adhesion of a tissue in the affected area to the surrounding tissue and contracture of the movable part of a joint. | 03-10-2011 |
20110178594 | BIOABSORBABLE BLEND FOR TEMPORARY SCAFFOLDING OF THE BLOOD VESSEL WALL - A bioabsorbable blend comprising poly(L-lactide) (PLLA) and a phosphorylcholine group-containing copolymer (PPCP) capable of enduring the mechanical strength of blood vessel walls and applicable for fabricating cardiovascular devices was developed. The blend acts as a scaffold to support blood vessel walls during vascular healing and undergoes biodegradation in vivo after vascular healing is complete. Furthermore, the blend can prevent the formation and adsorption of thrombi. | 07-21-2011 |
20110274940 | GRAFT POLYMERIZATION METHOD AND PRODUCT OBTAINED THEREBY - Disclosed is a graft polymerization method which has solved problems involved in use of a solvent, a radical initiator and high-energy radiation when a monomer is graft-polymerized on the surface of a polymer base. The graft polymerization method is characterized in that a polymerization product is obtained by immersing a polymer base (i) having a ketone group on the surface into a reaction system containing a monomer (ii) and then irradiating the polymer base (i) with light so that polymerization of the monomer starts from the surface of the polymer base (i). | 11-10-2011 |
20120022665 | POLYMER SLIDING MATERIAL, ARTIFICIAL JOINT MEMBER, MEDICAL APPLIANCE, AND MANUFACTURING METHOD THEREFOR - Disclosed is a sliding member with excellent durability and capable of maintaining wear resistance over a long period of time. Further disclosed is an artificial joint member for which the film thickness of the polymer base material is reduced. Further disclosed is an artificial joint which is capable of demonstrating high lubricity, biocompatibility, and resistance to dislocation after introduction into the body. Further disclosed are a medical appliance material and a medical appliance which demonstrate excellent biocompatibility. The sliding material or the medical appliance material is formed by a polymer layer or a biocompatible material layer (B) being provided by coating at least a portion of the surface of a polymer base material (A), the surface of which has a ketone group, and the polymer layer or biocompatible layer (B) is characterized by being formed by surface graft polymerization, wherein the polymer base material (A) is immersed in a reaction system which contains a monomer (C), the polymer base material (A) is exposed to light, and polymerization of the monomer is initiated from the surface of the polymer base material (A). Using the sliding material or medical appliance material, an artificial joint member, an artificial joint, a medical appliance material, and a medical appliance are manufactured. | 01-26-2012 |
20120164210 | PHOTODYNAMIC THERAPEUTIC AGENT HAVING CELL-SPECIFIC ACTIVE ACCUMULATION PROPERTIES - The present invention relates to a cancer-cell-specific polymer compound containing a photosensitizer for photodynamic therapy and having a surface to which an antibody against a cancer-cell-specific antigen binds. An object of the present invention is to provide a photodynamic therapeutic agent that can reach the cancer tissue at a low concentration via active targeting and makes complications (e.g., sunlight hypersensitivity) associated with photodynamic therapy unlikely to occur. | 06-28-2012 |
20120197407 | HIGHLY LUBRICATING SLIDING MEMBER AND ARTIFICAL JOINT USING SAME - Disclosed are: a sliding member which is capable of maintaining wear resistance over a long period of time; an artificial joint member in which the polymer base is reduced in thickness; and an artificial joint which exhibits high lubricating properties in the body, biocompatibility and resistance to dislocation. Specifically disclosed is a polymer sliding material which has a coating layer (B) that is composed of a graft polymer containing a phosphorylcholine group and having a density of at least 1.4 g/cm | 08-02-2012 |
20120197413 | BIOCOMPATIBLE AND LOW-ABRASION MEMBER, AND ARTIFICIAL JOINT USING THE SAME AND METHOD OF PRODUCING THE SAME - The object of the present invention is to provide a sliding member, a prosthesis and a method of producing the sliding member, which can suppress production of abrasive wear debris by suppressing friction of the sliding section, and also can maintain satisfactory mechanical characteristics in vivo. A sliding member comprising: a substrate | 08-02-2012 |
20130344590 | OLIGOPEPTIDE SEQUENCE SPECIFICALLY BONDING TO PHENYLBORONIC ACID GROUP - An object of the present invention is to provide, as a method for immobilizing a protein molecule, protein immobilization method and means in which orientation of a molecule to be immobilized can be controlled, the molecule can be stably immobilized without a complicated process and a chemical group used for immobilization does not affect the activity and the function of the protein. Specifically, the present invention relates to a method for immobilizing a molecule including the steps of forming a labeled molecule by attaching a label peptide sequence comprising a hydroxyl group-containing amino acid to a molecule; and bringing a molecule having a phenylboronic acid group into contact with the labeled molecule, to capture the labeled molecule by the molecule having a phenylboronic acid group. | 12-26-2013 |
20140011957 | BIOABSORBABLE BLEND FOR TEMPORARY SCAFFOLDING OF THE BLOOD VESSEL WALL - A bioabsorbable blend comprising poly(L-lactide) (PLLA) and a phosphorylcholine group-containing copolymer (PPCP) capable of enduring the mechanical strength of blood vessel walls and applicable for fabricating cardiovascular devices was developed. The blend acts as a scaffold to support blood vessel walls during vascular healing and undergoes biodegradation in vivo after vascular healing is complete. Furthermore, the blend can prevent the formation and adsorption of thrombi. | 01-09-2014 |
20140011960 | CELL-ADHESIVE PHOTOCONTROLLABLE BASE MATERIAL - In analyzing, fractionating, and culturing cells alive, operations can be more simply made in real time and culture can be performed while removing unnecessary cells from cultured cells for purification. Desired cells are also analyzed and fractionated from the cultured cells to increase the purity, recovery rate, and viability of the cells. A cell-adhesive photocontrollable base material is used in which light irradiation causes the bond dissociation of a photolabile group comprising an O-nitrobenzyl skeleton to irreversibly change the surface of the irradiated portion thereof from that of the cell-adhesive material to that of a non-cell-adhesive material. Cell images are detected and analyzed to obtain the positional information of desired cells. Based on this information, areas among cells and a cell-adhesive photocontrollable material are cut by second light irradiation. On the other hand, the surface of the base material is changed from a cell-adhesive one to a non-cell-adhesive one by first light irradiation to produce the detachment between cells and the base material. This enables cells to be analyzed and fractionated alive. | 01-09-2014 |
20140170331 | BIOMATERIAL, JOINT PROSTHESIS USING THE BIOMATERIAL AND METHOD OF PRODUCING THE SAME - The object of the present invention is to provide a joint prosthesis, bearing material and a production method thereof, which suppresses wear in a sliding section and suppresses the production of abrasive powder even during repeated daily operation. To achieve the object, there is provided a biomaterial comprising: a substrate made of metal, alloy or ceramic; and a biocompatible material layer laminated on the substrate, wherein hydroxyl groups are formed on the substrate by surface-treating, while the biocompatible material layer comprises a polymer containing phosphorylcholine groups, the substrate and the biocompatible material layer are bound via a binder layer which is combined with the hydroxyl groups of the substrate and with the biocompatible material layer. | 06-19-2014 |
20140371395 | BIOABSORBABLE BLEND FOR TEMPORARY SCAFFOLDING OF THE BLOOD VESSEL WALL - A bioabsorbable blend comprising poly(L-lactide) (PLLA) and a phosphorylcholine group-containing copolymer (PPCP) capable of enduring the mechanical strength of blood vessel walls and applicable for fabricating cardiovascular devices was developed. The blend acts as a scaffold to support blood vessel walls during vascular healing and undergoes biodegradation in vivo after vascular healing is complete. Furthermore, the blend can prevent the formation and adsorption of thrombi. | 12-18-2014 |