Abstract: Catheters and other medical devices include a non-metallic member having paramagnetic ionic particles fixedly incorporated therethrough in order to provide enhanced detectability when viewed by magnetic imaging regardless of the orientation of the non-metallic member in the magnetic field. Catheters are usually formed from polymeric tubing, and the paramagnetic ionic particles are usually formed from paramagnetic ions incorporated with water or other proton-donating fluid into carrier particles, such as zeolites, molecular sieves, clays, synthetic ion exchange resins, and microcapsules. Catheters and other medical devices include a non-metallic member having small iron and/or superparamagnetic particles fixedly incorporated therethrough or thereover in order to provide enhanced detectability when viewed by magnetic imaging.
Abstract: A pullback device for axial positioning of a core of an intravascular catheter, including a pullback chassis having a catheter extension extending therefrom for attachment of the intravascular sheath with a distal passage therethrough and an interface unit extension for attachment of an interface unit with a proximal passage therethrough. An intermediate sheath receives and encloses the intravascular catheter drive cable and has a pullback loop for enclosing the drive cable. The pullback loop includes a fixed segment attached to the proximal passage through the interface unit extension and a variable segment extending towards the distal end of the intravascular sheath and having a sliding section adjoining the distal end of the intravascular sheath.
Abstract: This is a composite guidewire for use in a catheter and is used for accessing a targeted site in a lumen system of a patient's body. The guidewire core or guidewire section may be of a stainless steel or a high elasticity metal alloy, preferably a Ni--Ti alloy, also preferably having specified physical parameters. The composite guidewire assembly is especially useful for accessing peripheral or soft tissue targets. Variations include multi-section guidewire assemblies having (at least) super-elastic distal portions and super-elastic braided reinforcements along the mid or distal sections. A variation of the inventive guidewire includes the coating of the wire with a tie layer and then with a one or more lubricious polymers to enhance its suitability for use within catheters and with the interior of vascular lumen.
Type:
Grant
Filed:
January 22, 1997
Date of Patent:
June 23, 1998
Assignee:
Target Therapeutics, Inc.
Inventors:
Thomas J. Palermo, Gene Samson, Gregory E. Mirigian, U. Hiram Chee, Erik T. Engelson, Edward Snyder
Abstract: A method and system for maintaining the position of a guiding member, such as a guidewire, within a patient's vascular system, particularly within a guiding catheter disposed within the patient's vascular system, while an intravascular catheter slidably mounted on the guiding member is withdrawn and a replacement catheter is advanced over the guiding member. One presently preferred embodiment includes a guiding sheath having an inner lumen extending the length thereof with an engaging device slidably disposed with the guiding sheath. The guidewire engaging device is torqued from its proximal end which extends out of the proximal end of the guiding catheter so that the flexible distal end wraps around the guidewire tightly enough to maintain the position of the guidewire while withdrawing or advancing a catheter over the guidewire. The distal portion of the guidewire engaging device is preferably a pseudoelastic NiTi alloy which is in a stable austenite phase at body temperature (37.degree. C.
Type:
Grant
Filed:
June 7, 1995
Date of Patent:
May 12, 1998
Assignee:
Advanced Cardiovascular Systems, Inc.
Inventors:
Dennis L. Brooks, Alfredo G. Bayot, Mina W. B. Chow, Paul F. Muller