JAPAN STENT TECHNOLOGY CO., LTD. Patent applications |
Patent application number | Title | Published |
20130018455 | METHOD OF INHIBITING VASCULAR INTIMAL HYPERPLASIA USING STENT - A method of inhibiting vascular intimal hyperplasia including: placing a stent within a blood vessel, the stent having a stent body of a cylindrical configuration having outer and inner surfaces with a diamond-like thin film coated on the surfaces, a first coated layer coating at least the outer surface of the stent body, the first coated layer being prepared of a first composition comprising a biodegradable polymer and a vascular intimal hyperplasia inhibitor of a kind, comprising argatroban, which does not inhibit proliferation of endothelial cells, the weight composition ratio of the polymer to the vascular intimal hyperplasia inhibitor being within the range of 8:2 to 7:3, and a second coated layer; and causing argatroban to be released from the stent to thereby inhibit the vascular intimal hyperplasia without inhibiting proliferation of endothelial cells. | 01-17-2013 |
20120310329 | SUSTAINED DRUG-RELEASING STENT - A stent includes a stent body of a cylindrical configuration having outer and inner surfaces, a first coated layer coating at least the outer surface, and a second coated layer coating substantially completely over the first coated layer. The first coated layer is prepared of a first composition comprising a polymer and a vascular intimal hyperplasia inhibitor (preferably argatroban) of a kind, which does not inhibit proliferation of endothelial cells, the weight compositional ratio of the polymer to the inhibitor being within the range of 8:2 to 3:7. On the other hand, the second coated layer is prepared of a polymer alone or a second composition comprising a polymer and a drug, the weight compositional ratio of the drug to 80% by weight of the polymer being less than 20% by weight. | 12-06-2012 |
20110313514 | Drug-eluting stent - A drug-eluting stent comprises a coated layer prepared of a composition comprising a polymer and a drug, the coated layer being a single coated layer with the composition, or comprises a first coated layer prepared of the above composition and a second coated layer with a polymer alone, the first coated layer being coated by the second coated layer. The drug is a vascular intimal hyperplasia inhibitor which does not inhibit proliferation of endothelial cells, and the composition substantially excludes a lipid-soluble low-molecular compound. The polymer in the first layer is a copolymer of lactic acid (monomer A) and a terminal hydroxy straight alkyl carboxylic acid having 3 to 8 carbon atoms, and, if the second coated layer is formed, the polymer in the second coated layer is a poly(lactic acid), a poly(glycolic acid), or a poly(lactic acid-co-glycolic acid). | 12-22-2011 |
20100249914 | Sustained drug-releasing stent - A stent includes a stent body of a cylindrical configuration having outer and inner surfaces, a first coated layer coating at least the outer surface, and a second coated layer coating substantially completely over the first coated layer. The first coated layer is prepared of a first composition comprising a polymer and a vascular intimal hyperplasia inhibitor (preferably argatroban) of a kind, which does not inhibit proliferation of endothelial cells, the weight compositional ratio of the polymer to the inhibitor being within the range of 8:2 to 3:7. On the other hand, the second coated layer is prepared of a polymer alone or a second composition comprising a polymer and a drug, the weight compositional ratio of the drug to 80% by weight of the polymer being less than 20% by weight. | 09-30-2010 |
20100198344 | SUSTAINED DRUG-RELEASING STENT - A stent includes a stent body of a cylindrical configuration having outer and inner surfaces, a first coated layer coating at least the outer surface, and a second coated layer coating substantially completely over the first coated layer. The first coated layer is prepared of a first composition comprising a polymer and a vascular intimal hyperplasia inhibitor (preferably argatroban) of a kind, which does not inhibit proliferation of endothelial cells, the weight compositional ratio of the polymer to the inhibitor being within the range of 8:2 to 3:7. On the other hand, the second coated layer is prepared of a polymer alone or a second composition comprising a polymer and a drug, the weight compositional ratio of the drug to 80% by weight of the polymer being less than 20% by weight. | 08-05-2010 |
20090131271 | METHOD FOR DELIVERING NUCLEIC ACID AND DEVICE FOR DELIVERING NUCLEIC ACID - In a method for delivering a nucleic acid of the invention, a nucleic acid is introduced into a cell by pressing the nucleic acid supported on a surface of a solid substrate against the cell. According to the method, the nucleic acid can be delivered into the cell simply at a low cost without placing a heavy burden on the cell at a high nucleic acid delivery efficiency. By allowing the surface of the solid substrate to support the nucleic acid in the form of a complex with a polyamine or a cationic lipid and pressing it against the cell, the introduction efficiency into the cell can be further improved. In the invention, by using a nucleic acid useful for gene therapy as the nucleic acid, a high-efficiency device for gene therapy can be obtained. | 05-21-2009 |
20090048667 | Controlled Drug-Release Composition and Drug-Releasable Medical Device - A drug-releasable medical device contains a controlled drug-release composition comprising 100 parts by weight of an organic polymeric material which is soluble in an organic solvent and insoluble in water, 5 to 60 parts by weight of a lipid-soluble, low molecular weight release auxiliary agent and 1 to 70 parts by weight of a drug. When the composition is applied on a stent, a catheter, an organ replacement medical device, an artificial organ or the like in the form of coating or the like, the medical device is provided with a drug release function. Argatroban or sarpogrelate hydrochloride or both of them are gradually released from the surface of a stent for treating coronary artery stenosis, for example. In order to exhibit a sustained-release function for a desired period of time, the drug to be gradually released is carried in a polymeric material coated on a surface of a metal forming the stent or in a porous stent substrate. | 02-19-2009 |