NL9400817A - Catheter with ring electrodes and ablation device comprising these - Google Patents

Abstract

The invention relates to a catheter which comprises a hose-type base body having a distal and a proximal end. At the distal end, the catheter has a number of annular electrodes of conductive material which are each connected to a separate electric conductor which extends through the base body as far as the proximal end. The invention further relates to an ablation device comprising such a catheter. The ablation device further has a controller which is connected to the separate conductors and comprises switching elements to allow the separate conductors to be individually switched to an active or inactive state, means for generating an electric ablation voltage and means for connecting the electric ablation voltage at controlled times to the conductors switched to the active state.

Description

RING ELECTRODES CATHETER WITH THIS INCLUSIVE ABLATION IMRICHTIMG.

The invention relates to a catheter intended for the treatment of certain cardiac arrhythmias. The catheter includes an elongated electrode at the distal end. In the treatment, the electrode is maneuvered against an internal tissue surface portion of the heart. The electrode can be used to heat that tissue part so that the physical properties of the tissue will change. The cardiac arrhythmias can be remedied with this.

A catheter of this type is described in Dutch patent application 9301182. The object of the invention is to further improve a catheter of this type.

This object is achieved with the catheter as characterized in claim 1.

With the aid of the catheter according to the invention, the size and position of the tissue surface to be treated can be selected by individually activating one or more of the annular electrodes to perform the ablation.

The individual electrodes can also be used to detect the tissue surface portion to be treated. On the basis of the measured electrical activity at the location of the various electrodes, it can be determined which electrodes must be switched on to ablate the correct surface area. The construction with separate annular electrodes allows the distal end of the catheter to remain flexible at the location of the electrode, so that the electrodes can be properly placed against the heart tissue to be treated. The construction of the catheter according to the invention is relatively simple. The catheter can also be easily cleaned.

A suitable embodiment of the catheter according to the invention is characterized in claim 2.

The measure of claim 3 is preferably applied. The catheter can then be simply and quickly connected to a device cooperating therewith.

The invention also relates to and provides an ablation device comprising a catheter according to any of the claims. This ablation device is characterized in claim 4.

According to a further development of the invention, the measure as set out in claim 5 is applied. With the measuring device, the electrical activity at the area of a tissue surface section can be determined and with the aid of this the surface to be treated can be selected.

The invention will be elucidated with reference to the annexed drawing of a partly schematic embodiment of the invention.

The figure shows part of a catheter 1 according to the invention. Only the distal end portion 2 is shown in this figure. The construction of the catheter 1 is further usual. It consists of a tube-like basic body 3. The distal end 2 can be brought through the bloodstream of a patient to the tissue to be treated. In a known application, internal heart tissue is treated by ablation in order to modify the physical properties of this tissue so as to disrupt unwanted conduction pathways for pacing stimuli. This remedies cardiac arrhythmias.

The distal end portion 2 of the catheter 1 is provided with a number, in the exemplary embodiment shown 9, of annular electrodes of conductive material, such as a metal. The annular electrodes 4 are embedded in the plastic material of the base body 3.

In another embodiment, the annular electrodes can be clamped to the base body without being embedded therein. Since catheters of the present type often have an adjustable shape of the end section, it must be possible to compress or stretch the plastic at the location of the electrodes. When the electrodes are slid onto the material of the base body, they minimally hinder the desired deformations of the end portion.

Each of the annular electrodes 4 is connected to a separate electrical conductor 6 extending through the base body 3 to the proximal end (not shown). All these electrical conductors 6 are formed from the catheter and connected in a connector 7.

Pins 8 of the connector 7 correspond to plug openings 9 of a connector 11 which is connected via a cord 10 to an ablation device 15 which is shown here very schematically. Only the essential parts thereof relating to the invention are indicated here.

In particular, the ablation device 15 comprises switching means 16 for individually switching the individual conductors 6 and therefore the individual annular electrodes 4 into an active or inactive state. The ablation device 15 further comprises means (not shown) for generating an electrical ablation voltage. With an operating key 17 of the device 15, the generated ablation voltage can be connected to the conductors 6 which are brought into the active state by means of the switches 16. Thereby, the electrical ablation voltage is connected to the annular electrodes 4 selected by the switch members 16. The tissue in contact with the selected electrodes 4 is thereby ablated.

The device may further include a measuring device incorporated into or separate from ablation device 15. In the latter case, the connector 7 is connected to the measuring device if it is desired to perform a measurement. The electrical voltages at the location of each of the individual electrodes 4 can be measured and displayed with the measuring device. The treating person can thus determine the electrical activity at the location of the heart tissue with which the annular electrodes 4 are in contact and on this basis determine the position of the tissue surface to be treated. For example, if only the tissue in contact with the front pair of electrodes 4 is to be treated, then the corresponding switch members 16 are inserted into the; active state and the ablation voltage is applied by actuating the key 17 only at the location of the selected electrodes 4.

Claims (5)

A catheter comprising a tubular base body having a distai and a proximal end, with a plurality of annular electrodes of conductive material at the distal end, each connected to a separate electrical conductor extending through the base body to the proximal end. Catheter as claimed in claim 1, comprising at least five annular electrodes. Catheter as claimed in claim 1 or 2, wherein the separate conductors are guided out of the basic body near the proximal end and are connected to separate contacts of a connector. Ablation device comprising a catheter according to one of the preceding claims, a control device connected to the individual conductors, comprising switch members for individually switching the individual conductors into an active or inactive state, means for generating a electrical ablation voltage and means for time-controlled connecting the electrical ablation voltage to the conductors switched in the active state. The device of claim 4, further comprising a measuring device for measuring and displaying electrical voltages at the location of the individual electrodes.