Abstract: A probe for cardiac diagnosis and/or treatment has a catheter tube. The distal end of the catheter tube carries first and second electrode elements. The probe includes a mechanism for steering the first electrode element relative to the second electrode element in multiple directions.

Abstract: An improved probe for cardiac diagnosis and/or treatment includes a control handle and a catheter for insertion into the heart. The catheter has a distal end, a proximal end and at least one lumen connecting said distal and proximal ends. It also includes a flexible inner tube and an outer sheath enveloping said tube. At least one measuring electrode or ablation device is attached to the distal end of the tube. The outer sheath and the inner tube are rotatable relative to each other so that the electrode or device can be rotated within the heart without rotating the outer sheath. The sheath is also axially movable relative to the tube to selectively enclose or expose the electrode or device for use.

Abstract: Tachycardial arrhythmias are located and ablated by a combination of first and second catheters which are mutually attracted by magnetized regions at their distal ends. One of the catheters contains mapping electrodes and is initially used to ascertain the locus of the arrhythmia by conventional mapping. Once this is accomplished, the catheter is allowed to remain in position while the second catheter is inserted in such a manner that mutual magnetic attraction between the two occurs across cardiac tissue. One or the other of the two catheters also contains an ablation component at its tip, such that when the two catheter tips are held in position by virtue of their mutual magnetic attraction, ablation can be performed.

Abstract: A system and method for cardiac diagnosis and treatment inserts the distal end of a catheter into a heart chamber. The distal end of the catheter supports at least one electrode. The catheter has a fluid flow conduit extending through it. The conduit has a valve that prevents fluid flow from the heart chamber into the conduit in response to in vivo pressure generated during heart systole and diastole. The valve permits fluid flow from the conduit into the heart at a pressure above the in vivo pressure. In use, the catheter locates the electrode in contact with a portion of the endocardium, and fluid is conducted from an external source through the conduit at a pressure above the in vivo pressure to flush the area surrounding the electrode.

Abstract: An electrode assembly for use in interventricular cardiac mapping includes one or more elongated splines each of which carries a plurality of spaced apart electrodes thereon. The body of each spline is formed of a plurality of alternating electrically conductive layers and the electrically non-conductive layers. A separate electrically conductive pathway is provided to connect each of the electrodes to a different one of the conductive layers. Each of the layers is electrically connected to an electrical signal processing device so that signals provided by each of the electrodes can be processed.

Abstract: A filter device positionable within a blood vessel for trapping blood clots in that vessel, the filter device comprising a head with a plurality of divergent legs each secured at its proximal end, to the head, each leg having a hook arranged at its distal end.Each leg has a radially outwardly directed radius of curvature to create a conical configuration to the filter assembly, while distributing the stress concentration along the length of the bend, so that the elastic limit of the material, stainless steel in this embodiment, is not exceeded, and which permits compact delivery of the filter, and adequate radially directed force to permit slight hook penetration of a vessel wall.

Abstract: A filter device positionable within a blood vessel for trapping blood clots in that vessel, the filter device comprising a head with a plurality of divergent legs each secured at its proximal end, to the head, each leg having a hook arranged at its distal end. The distal end includes a reversely bent portion of the leg which itself is bent radially outwardly, ending in the shape of a sharp point. The reversely bent portion of the leg comprises a pad to minimize the depth of penetration of the hook.A further embodiment of the leg shows a radially outwardly directed radius of curvature to create a conical configuration to the filter assembly, while distributing the stress concentration along the length of the bend, so that the elastic limit of the material, stainless steel in this embodiment, is not exceeded, and which permits compact delivery of the filter, and adequate radially directed force to permit slight hook penetration of a vessel wall.

Abstract: An electrical connector is disclosed for making electrical connections to a large area visual display in the form of a substrate having a plurality of spaced-apart contact pads arranged in parallel rows along the edges on one surface. The connector includes a base in the form of a rectangular frame for supporting the edges of the substrate, and having spaced-apart parallel rows of cavities formed in each side of the base. A plurality of contact assemblies each containing a row of electrical contacts are provided which are designed to fit within a respective one of the cavities. A cover is also provided which fits over one side of the substrate and fastens to the base in a manner which applies pressure to the substrate edges to maintain connection between the contact pads and the contacts. The connector includes alignment elements for positioning the substrate so that the contact pads are aligned with the contacts.