Patent application number | Description | Published |
20080208211 | Stone Catching Basket Instrument and Method For Producing The Same - A stone catching instrument for use, for example, as a stone catching basket and a wire filter unit for medical instruments, and method for producing the same, are provided. The stone catching basket instrument has a multiwire basket unit with several wire sections connected with one another as a cohesive wire complex, the wire complex cut in one piece out of a planar material in a rosette-shape and bent to form the wire basket unit. The wire sections extend essentially radially and are cohesive with one another at their inner radial ends at a wire linkage area. The wire basket unit when in a widened condition is arranged to catch particles caught through spaces between the wire sections, and when moved to a drawn-together condition, holds particles in the wire basket unit. | 08-28-2008 |
20080311318 | Multiwire Unit and Method for Producing the Same - A multiwire unit having a plurality of wire sections which are formed in one piece from a tubular piece whose tubular jacket is subdivided in at least an axial subsection by a plurality of axial slots. The wire pieces remain interlinked at a front end section at a distance to a front tube face, and assume a bent functional state downstream of the wire linking area in a defined functional state of the multiwire unit. The front wire linking area, in the functional state of the multiwire unit, is shaped to an essentially tipless front end closure. For this purpose, the axial slots end at an appropriate small axial distance to the front tube face. The multiwire unit may be formed as, for example, a wire basket unit or a wire filter unit for medical instruments. | 12-18-2008 |
20080312597 | Guide Wire For A Medical Instrument - The invention relates to a guide wire for a medical instrument, which has a guide wire core ( | 12-18-2008 |
20090187163 | Controlled Stiffness Guidewire Unit - A guide wire unit includes a section which can be stiffened in a manner controlled by a pressure medium. The section has a pressure channel for the controlled production of a stiffening pressure by introducing a pressure medium, and flexible stiffening elements that are forced one against the other in a manner increasing the stiffening effect when subjected to a pressure load by the effect of the stiffening pressure. The flexible stiffening elements have an inner stiffening tube part and a radially less flexible outer stiffening tube part surrounding the same. Under the effect of the stiffening pressure, the inner stiffening tube part is forced against the interior of the outer stiffening tube part, thereby increasing the stiffening effect. A distal end section can be mounted distally and/or a stiff section can be mounted proximally in front of the controlled stiffness section. A center guide wire core may extend in the controlled stiffness section. The guide wires are usable as guide wires for positioning medical catheters. | 07-23-2009 |
20100069794 | Guide Wire with Core and Distal Sheathing - A guide wire includes a core which extends from a proximal to a distal end of the guide wire. The core is designed as a single part or from multiple longitudinal sections adjoining one another, and includes a distal cladding which surrounds the core in a distal section and is made from a polyurethane material or another soft-flexible plastic material. The core, in a section adjoining the distal section which is surrounded by the soft-flexible distal cladding, is unclad or is surrounded by a connection cladding which is stiffer than the distal cladding and is in the form of a helical spring or in the form of a tube, made of polytetrafluoroethylene or another plastic material with a similar stiffness, which contacts and surrounds the core, with the tube having an enlargement at its distal end, by which it surrounds a diameter-reduced proximal end region of the distal cladding and terminates, substantially flush in terms of the external diameter, on an annular shoulder of the distal cladding. By way of example, it is used for medical catheter instruments. | 03-18-2010 |
20100168758 | Multi-Wire Instrument, In Particular for Endoscopes - A multi-wire instrument has a distal functional section, in which a plurality of individual wires form a wire basket, wherein they are combined at a distal end and connected to one another by being joined directly to one another or to a distal terminating body while forming a respective predetermined breaking connection. A shaft section extends between the distal functional section and a proximal end region of the multi-wire instrument. The individual wires extend in one piece from their distal end to the proximal end region of the multi-wire instrument and the shaft section is formed by the individual wires, which are combined there and held together. The individual wires are twisted together in the entire shaft section up to the basket-forming functional section, wherein they merge from the twisted distal end of the shaft section with radial widening, and/or the individual wires are twisted together in a distal end region which adjoins the basket-forming functional section in a distal manner and in this case abut one another along this twisting. | 07-01-2010 |
20110021951 | Guide Wire with Marking Pattern - A guide wire for a medical instrument, such as an endoscope, has a marking pattern, which extends at least across part of the axial length of the guide wire and includes markings of different marking types that can be sensed. On the guide wire, markings of first and second marking types are formed by marking surfaces, of which the marking surfaces of at least the first marking type each extend across only part of the circumferential surface of the guide wire and across only part of the axial length of the marking pattern, and in the axial direction of the guide wire follow each other at a distance by at least one interposed marking surface of the second marking type. At least one longitudinal marking strip is formed as a marking of a third marking type, which extends continuously across the axial length of the marking pattern. | 01-27-2011 |
20110040282 | Controllably Stiffenable Tube - A tube that can be stiffened in a controlled manner has a pressure channel for controllable production of a stiffening overpressure by introduction of a pressure medium. The tube has several flexible stiffening elements, of which at least one is stable with respect to tensile force and which are pressed onto one another when acted upon by the stiffening overpressure with the result that the tube is changed from a more flexible state to a more flexurally stiff state. A channel is separate from the pressure channel and, in the stiffened state of the tube, forms a working channel whose course corresponds to the tube shape. | 02-17-2011 |
20110098742 | SHAPE MEMORY FILAMENT FOR SUTURE MANAGEMENT - A member of a rigid flexible elastic material, the member including a body portion and an aperture portion with the member adapted for delivery through an axial longitudinal channel of a percutaneous delivery subsystem, the aperture portion including an expanded mode having a lateral dimension greater than an inner diameter of the channel when the aperture portion extends outside the channel and a collapsed mode wherein the lateral dimension is not greater than the inner diameter of the channel when the aperture portion is within the channel, the channel including a first axial opening and a second axial opening with the aperture portion transitioning from the expanded mode to the collapsed mode when inserted into the openings and the aperture transitioning from the collapsed mode to the expanded mode when exiting from the openings. | 04-28-2011 |
20110112547 | Wire Basket Unit Having Fixing Disk Element - The invention relates to a wire basket unit with a balloon-shaped wire basket composed of several wire strands ( | 05-12-2011 |
20120088972 | Change-Out Handle System and Medical Instrument - A change-out handle system is provided for releasably coupling two elongated, axially relatively displaceable functional parts to a medical instrument unit. The change-out handle system includes a first and a second handle part disposed axially relatively displaceably, a first coupler for releasably axially rigidly immovably coupling a first of the two functional parts to the first handle part and a second coupler for releasably, axially rigidly immovably coupling the second of the two functional parts to the second handle part. The second handle part has a pass-through opening for passing at least the first of the two functional parts. The change-out handle system can be used, for example, for medical solids trapping instruments. | 04-12-2012 |
20130035695 | Manually Actuated Function Hose Instrument and Operating Device Therefor - A manually actuated function hose instrument has a hose-shaped function part and a wire-shaped function part extending in the latter, wherein the two function parts are axially movable relative to each other in order to exert a useful function at a distal section remote from a proximal end section. An associated operating device, which has two operating parts, is arranged at the proximal end section of the function parts. A fixing part is provided which serves for the external fixing of the operating device and with which the second operating part is coupled in an axially relatively movable manner, and/or the second operating part is connected non-releasably to the proximal end section of the hose-shaped function part and contains an operating ring with a circumferential finger recess as operating area. | 02-07-2013 |
20140074112 | MEDICAL DEVICE CONFIGURED TO RETRIEVE CALCIFIED STONES FROM THE HUMAN BODY - A medical device configured to retrieve calcified stones from the human body includes wire segments and a fixing disc element coupled with the wire segments. The wire segments form a wire basket. The fixing disc element is coupled with the wire segments at a front end of the wire basket. Multiple adjacent wire strands are formed from a first of the wire segments that is directed along a path extending from the rear end of the wire basket forward through a first through-opening of the fixing disc element, and looped through a second through-opening of the fixing disc element, and directed along a path extending from the fixing disc element rearward to the rear end of the wire basket to thus form a first U-shaped deflection disposed on a distal side of the fixing disc element at the front end of the wire basket. | 03-13-2014 |