Patent application number | Description | Published |
20140066789 | SENSOR GUIDEWIRE - A sensor guidewire includes a sensor and a tubular body that covers the sensor. The tubular body includes a proximal blocking wall that is formed on a proximal side of a measurement portion of the sensor, a distal blocking wall that is formed on a distal side of the measurement portion of the sensor, and a hole that extends through the tubular body and through which blood flows into or flows out of the tubular body past the measurement portion of the sensor. The sensor is disposed on a proximal side of the hole. The proximal blocking wall and the distal blocking wall form a measurement chamber in the tubular body, and the sensor does not impede blood flow through the hole. | 03-06-2014 |
20140214006 | CATHETER - A catheter includes an inner layer, and a braid provided on an outer periphery of the inner layer. The braid includes a first wire and a second wire that are woven together. The catheter further includes a tip provided on a distal end of the inner layer and a distal end of the braid. A residual portion having a sharp shape formed at a distal end of the first wire when the first wire is cut is not left untreated, but is formed into a bulging portion. | 07-31-2014 |
20140324148 | PUSHER GUIDE WIRE - In a pusher guide wire, a protective film is suspended with respect to a core shaft with a distal end thereof being fitted in a distal-end holder and a proximal end thereof being fitted in a proximal-end holder. Hence, the frictional resistance generated between the protective film and a stent when the core shaft is rotated is reduced. Thus, the protective film is prevented from coming off the core shaft, the stent is prevented from being damaged, and the transmissibility of rotation of the pusher guide wire is improved. Consequently, the position where the stent is to be released is easily adjustable. | 10-30-2014 |
20140364865 | PUSHER GUIDEWIRE - In a pusher guidewire, a front end coil has a free rear end that is not fixed to a first front end portion of a core shaft. By pulling the core shaft toward the rear end, the free rear end catches a gap of a partially-deployed stent. By rotating the core shaft in this state, a front end portion of the stent deployed from a front end opening of a catheter is wrapped around the outer circumference of the front end coil. Further pulling the core shaft toward the rear end with the wrapped stent retrieves the partially-deployed stent into the catheter, thereby preventing the stent from damaging the inner wall of a normal blood vessel. | 12-11-2014 |
20150238727 | CATHETER - A catheter that can efficiently transmit a pressing force applied to the distal end of the catheter without breaking at a midpoint of the catheter. The catheter includes a metal tube having a first wall and a second wall disposed in an outer tube, and a reinforcing member that is joined at its proximal end to an outer peripheral surface of the first wall. A distal end of the first wall extends distally beyond a distal end of the second wall and is bent toward the second wall. Thus, the second wall is not provided at a connected portion between the first wall and the proximal end of the reinforcing member, and the reinforcing member having a diameter increased at least by an amount corresponding to a thickness of the second wall can be disposed in the catheter without increasing the diameter of the outer tube. | 08-27-2015 |
20160030704 | CATHETER - A catheter can efficiently transmit an operator's pushing force to a distal end of the catheter with a reduced risk of getting caught at a curved region of a lumen (e.g., a blood vessel, bile duct, pancreatic duct or the like). The catheter includes a first core wire and a second core wire disposed between an inner tube and an outer tube. The second core wire can move to an optimal position depending on external forces exerted at a curved region of the lumen when the catheter is inserted into the curved region. Therefore, there is a reduced risk that the first core wire and the second core wire will interfere with each other, which would prevent the catheter from bending along the lumen and potentially break one or both of the first core wire and the second core wire. | 02-04-2016 |
20160100965 | PUSHER GUIDE WIRE - A pusher guide wire for delivering a stent to a target site includes a core shaft, a coil body that covers a distal end portion of the core shaft, a pusher portion that is fixed to the core shaft at a position proximal to the coil body, and a stent holding portion that is fixed to the core shaft at a position between the coil body and the pusher portion. In the pusher guide wire, frictional resistance between the stent and the stent holding portion is larger at a proximal end portion of the stent holding portion than at a distal end portion of the stent holding portion. | 04-14-2016 |
20160113793 | GUIDE WIRE - A guide wire may include a core shaft and an external coil body covering a distal portion of the core shaft. The external coil body includes a first coil portion and a second coil portion that is distal to the first coil portion. An outside diameter of the second coil portion is smaller than an outside diameter of the first coil portion. Similarly, the guide wire may include a core shaft, a first external coil body, and a second external coil body. An outside diameter of the second external coil body is smaller than an outside diameter of the first external coil body. The external coil body or first and second external coil bodies enable the performance of a pushing-out operation and a drawing-in operation of the stent; yet, the flexibility of the guide wire is maintained. | 04-28-2016 |