KR20150125036A - Catheter assembly - Google Patents

Abstract

The present disclosure, regarding a catheter assembly, relates to a catheter assembly, which comprises: a catheter body; a plurality of electrodes arranged in a longitudinal direction of the catheter body; and wires connected to each of the electrodes, wherein the fore-end unit of the catheter body has a plurality of curves by individually moving each of the wires.

Description

Catheter assembly {CATHETER ASSEMBLY}

Disclosure relates generally to catheter assemblies, and more particularly to a catheter assembly in which the distal end of the catheter body has a plurality of curves.

Catheter ablation is a method of treating arrhythmias by inserting an ablation catheter assembly in the heart and applying heat between the electrodes at the distal end of the catheter assembly and the platelet to remove cardiac tissue. More specifically, catheter ablation is mainly performed for the treatment of pseudoaneurysms such as paroxysmal ataxia, atrial flutter, and paroxysmal ventricular tachycardia. After the diagnosis of the cause and the site of arrhythmia by cardiac electrophysiological examination The electrode attached to the ablation catheter assembly reaches the arrhythmogenic region of the heart, and the electrode is brought into contact with the myocardial tissue causing the arrhythmia. The heart is then heated for 60 seconds at 50 to 60 ° C, It is a technique to remove tissue.

Currently used ablation catheter assemblies have metal electrodes at the distal end, and they make contact with the myocardial tissue which is the cause of arrhythmia in a puncture, and move them little by little to form a removal line to remove the site of arrhythmia. A related prior art is U.S. Patent No. 7,722,605.

However, in the ablation catheter assembly having a metal electrode, it is necessary to repeatedly remove the abdominal aortic region in order to remove the site of the arrhythmia by forming a removal line, so that the operation is prolonged and burdened to the patient. In addition, a high degree of skill was required to manipulate the ablation catheter assembly to the physician, because the ablation catheter assembly required precise contact of the small metal electrode to the target site of the myocardial tissue to form the removal line.

To solve this problem, an ablation catheter assembly having a balloon attached to the distal end of an ablation catheter assembly has recently been developed. Related prior art is U.S. Patent No. 6,952,615.

1 is a view showing an example in which an ablation catheter assembly having a balloon described in U.S. Patent No. 6,952,615 is used. The terms and reference numerals have been changed for convenience of explanation.

The balloon-attached ablation catheter assembly 10 includes a catheter body 12, a balloon 11, a RF generator 20, a temperature measuring device 21, and a counter electrode 22. The ablation catheter assembly 10 shows that the removal of the atria 13 around the entrance of the pulmonary artery 14 removes the myocardial tissue that is required. The direction in which the balloon 11 is attached to the ablation catheter assembly 10 is referred to as a tip, and the direction in which the RF generator 20 is disposed is referred to as a trailing end. 1, the electrode 15 is disposed on the surface of the balloon 11, but the electrode 15 does not directly remove the myocardial tissue that requires removal of the atrium 13. The electrode 15 in the prior art serves to raise the temperature of the liquid inside the balloon 11 uniformly. The myocardial tissue requiring removal of the atrium 13 is removed by the surface of the balloon 11 whose temperature has risen due to the liquid inside the balloon 11. The electrode 15 is connected to the RF generator 20 via a wire inside the catheter body 12, though not shown.

However, in the case of the ablation catheter assembly to which the balloon is attached, since the entire balloon is heated, there is a problem that even when the balloon is brought into contact with the portion where the removal is not necessary, the corresponding portion is also removed. In addition, there is a problem that the catheter body supporting the balloon is bent due to the heating of the balloon due to the flexibility of the catheter body, and thus it can escape from the myocardial tissue site to be removed.

A catheter assembly having a plurality of electrodes at the distal end of the catheter assembly and a distal end having a plurality of curves is known as a method for solving the problem of the catheter assembly having one electrode at the tip of the catheter assembly and the ablation catheter assembly having the balloon have. Prior art is U.S. Patent No. 5,823,955.

2 is a view showing an example of a catheter assembly having a plurality of electrodes at the distal end portion of the catheter assembly disclosed in U.S. Patent No. 5,823,955 and having a plurality of curves at the distal end portion. The terms and reference numerals have been changed for convenience of explanation.

The catheter assembly 30 having a plurality of electrodes includes a catheter body 31, a catheter handle 37, rings 32, 33 and 34 for manipulating pulley wires, and electrodes 35 and 36. Although not shown in the drawings, pulley wires disposed within the catheter body 31 are connected to the rings 32, 33, and 34, respectively. Two curves 41 and 42 can be made at the distal end 40 of the catheter assembly 30 by manipulating the rings 32,

However, in the case of making a plurality of curves by a known pulley wire method, space for arranging a plurality of pulley wires in the catheter body is required. Particularly, when the thickness of the catheter body becomes small, the space inside the catheter body becomes small. However, since the function of the catheter such as a temperature sensor, an electrocardiogram device, etc. is complicated, It is necessary to secure a space for the user.

This will be described later in the Specification for Enforcement of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

According to one aspect of the present disclosure, there is provided a catheter assembly comprising: a catheter body; A plurality of electrodes disposed along the longitudinal direction of the catheter body; And a wire connected to each of the plurality of electrodes, wherein each wire moves independently, so that the distal end of the catheter body has a plurality of curves.

This will be described later in the Specification for Enforcement of the Invention.

1 is a view showing an example in which an ablation catheter assembly with a balloon described in U.S. Patent No. 6,952,615 is used,
Figure 2 shows an example of a catheter assembly having a plurality of electrodes at the distal end of the catheter assembly described in U.S. Patent No. 5,823,955,
Figure 3 illustrates an example of an ablation catheter assembly having a plurality of electrodes disposed thereon according to the present disclosure;
Figure 4 illustrates another example of an ablation catheter assembly having a plurality of electrodes disposed thereon according to the present disclosure;
Figure 5 illustrates another example of an ablation catheter assembly having a plurality of electrodes disposed thereon according to the present disclosure;
6 illustrates an example in which an ablation catheter assembly having a plurality of electrodes disposed therein according to the present disclosure is used,
Figure 7 illustrates an example in which the tip of an ablation catheter assembly having a plurality of electrodes disposed thereon according to the present disclosure has a plurality of curves.

The present disclosure will now be described in detail with reference to the accompanying drawings. However, the form of the disclosure is not limited to the description of the drawings. For purposes of illustration, the drawings are centered on the distal end of a catheter assembly that is characteristic of this disclosure, rather than the entire catheter assembly.

Figure 3 is an illustration of an example of an ablation catheter assembly having a plurality of electrodes disposed thereon according to the present disclosure;

The ablation catheter assembly 50 in which a plurality of electrodes according to the present disclosure are disposed includes a catheter body 51 and a plurality of electrodes 53, 54, 55 disposed at the distal end 52 along the longitudinal direction of the catheter body 51 , 56, 57). The number of electrodes can be arranged as required. In the present disclosure, five electrodes are arranged. 3 (b) shows the arrangement of the wires 60, 61, 62, 63 and 64 respectively connected to the electrodes 53, 54, 55, 56 and 57 in cross section to AA '. The electric wire 60 is connected to the electrode 53, the electric wire 61 is connected to the electrode 54, the electric wire 62 is connected to the electrode 55 The electric wire 63 is connected to the electrode 56 and the electric wire 64 is connected to the electrode 57, respectively. In Fig. 3 (b), one electrode Although wires are connected, more than one wire can be connected to each electrode if needed. In Fig. 3 (b), the respective wires are arranged on the same plane, but they may be arranged on different planes if necessary. For convenience of explanation, structures other than wires are not shown. Also, the manner in which the wires and the electrodes disposed on the surface of the catheter body are connected is not described separately as is known to those skilled in the art. Fig. 3 (c) shows a section of the catheter body 51 in a cross-section to BB '. The wires 61, 62, 63, 64 connected to the electrodes 54, 55, 56, 57 disposed on the side of the catheter body 51 allow the distal end 52 of the catheter body 51 to have a plurality of curves This will be described with reference to FIG. The wires are preferably disposed in the channels 70, 71, 72, 73, 74 for movement through the catheter body 51. The smaller the frictional force between the inner surface of the channel and the outer surface of the wire, the better. To reduce frictional forces, a material that reduces friction forces can be placed between the inner surface of the channel and the outer surface of the wire. It is preferable that the electric wire 60 disposed at the center of the catheter body 51 has a resilience to maintain the shape of a straight line and the force applied to the electric wires 61, 62, 63, The distal end portion 52 of the catheter body 51 can return to the form of a straight line without a plurality of curves.

4 is a view showing another example of an ablation catheter assembly in which a plurality of electrodes according to the present disclosure are disposed.

The ablation catheter assembly 80 having a plurality of electrodes according to the present disclosure includes a catheter body 84, a hole 81, a temperature sensor 82, and an electrode 83. Temperature control is important when removing the myocardial tissue that needs to be removed using the electrode 83. If the temperature is lower than the temperature required for removal, sufficient removal is not possible. Especially, when the temperature is high, unnecessary bubbles may be generated by heating the blood, and it may become a problem when the bubbles can not be discharged from the body. The temperature suitable for the operation of removing the myocardial tissue using the electrode 83 is about 50 to 60 占 폚. It is preferable to arrange the temperature sensor 82 to maintain a proper temperature. It is preferable to arrange it around the electrode 82 for accurate temperature measurement. The temperature sensor 62 may be a thermocouple, a thermistor, or the like known to those skilled in the art. When the temperature around the electrode 83 measured through the temperature sensor 82 is high, the temperature of the electrode 83 can be adjusted by adjusting the current flowing into the electrode 83. Alternatively, the temperature can be adjusted by sending a substance to suppress the temperature rise around the electrode 83. It is known to those skilled in the art how to send a saline solution around the electrode 83 in order to suppress the temperature rise in the latter method. In the present disclosure, saline is discharged through a hole around the electrode 83. Fig. 4 (b) shows an example of discharging the saline solution through the hole 81. Fig. 4 (b) is a cross-sectional view taken along line CC 'in Fig. 4 (a). The hole 81 is connected to the channel 85. The physiological saline solution is discharged through the hole 81 through the channel 85. For convenience of explanation, only the channel 85 and the hole 81 through which the saline solution passes are shown inside the catheter body 84, and other structures are not shown.

FIG. 5 is a view showing another example of an ablation catheter assembly in which a plurality of electrodes according to the present disclosure are disposed. FIG.

The ablation catheter assembly 90 having a plurality of electrodes according to the present disclosure includes a plurality of electrodes 91 on the side surface and a catheter body 92. The plurality of electrodes 91 surround the catheter body 92 annularly. 5 (b) is a cross-sectional view of DD '. A portion of the electrode 91 surrounding the catheter body 92 is coated with insulation. The insulated coated portion 93 does not transfer heat to the surroundings. The electrode 91 applies heat to the contacted tissue to remove the tissue. At this time, when heat is generated in a portion where the tissue is not in contact, a thrombus can be generated. In order to prevent this, an insulating coating may be applied to a part of the electrode 91 which does not contact the tissue, thereby preventing thrombosis.

6 is an illustration showing an example in which an ablation catheter assembly having a plurality of electrodes disposed therein according to the present disclosure is used.

The distal end portion 101 of the ablation catheter assembly 100 in which the plurality of electrodes are disposed is located at the entrance of the pulmonary artery 110. The distal end portion 101 forms a plurality of curves and the plurality of electrodes 102 are brought into contact with the myocardial tissue 112 which is to be removed in the atrium 111 on the entrance side of the pulmonary artery 110. And heat is applied to the myocardial tissue 112 that needs to be removed through the plurality of electrodes 102 to be removed. It is possible to selectively send an electric current to only the electrode 102 that is in contact with the myocardial tissue 112 that needs to be removed through the impedance measuring device 103 of the plurality of electrodes 102. Although the impedance measuring device 103 and the RF generator 103 are illustrated in FIG. 6 as being together, they may be configured separately. The method of connecting the impedance measuring device to the plurality of electrodes 102 is not described separately because it is a technique known to those skilled in the art. In addition, the ablation catheter assembly used in the heart can be equipped with a device 106 for measuring the electrocardiogram (ECG) of the patient, thereby facilitating the operator's convenience. The method of attaching a device capable of measuring electrocardiogram to the catheter assembly is not described separately because it is a known technique. Fig. 6 (b) is an enlarged view of a dotted circle in Fig. 6 (a).

7 is a view showing an example where the tip of the ablation catheter assembly having a plurality of electrodes according to the present disclosure has a plurality of curves.

The ablation catheter assembly 160 having a plurality of electrodes according to the present disclosure includes a catheter body 161 and a plurality of electrodes 120,130, 140,150. Figure 7 (b) shows the wires 121, 131, 132, 141, 142, 151, 152 inside the catheter body 161. A wire 121 is connected to the electrode 120. The electric wires 141 and 142 are connected to the electrodes 140 and 140 and the electric wires 151 and 152 are connected to the electrode 150. The electric wires 151 and 152 are connected to the electrodes 130, Respectively. The manner in which the wires are connected to the electrodes is not described in the prior art.

7 (c) shows that the catheter body 160 is bent to the right when the wires 131, 141, and 151 are properly pulled.

7 (d) shows that the distal end portion 170 of the distal end portion of the catheter body 160 is further bent by pulling the wire 131 further in the state of Fig. 7 (c).

Fig. 7 (e) shows that in the state of Fig. 7 (c) the wire 132 is pulled so that the distal portion 170 of the distal end of the catheter body 160 is deflected in the opposite direction. The wire 120 preferably has sufficient elasticity to allow the catheter body 160 to return to a straight line when the force applied to the wires 131, 132, 141, 142, 151, 152 is removed. The number and positions of the wires can be variously arranged according to the shape of the curve to be formed on the catheter body 160. [

Hereinafter, various embodiments according to the present disclosure will be described.

(1) A catheter assembly comprising: a catheter body; A plurality of electrodes disposed along the longitudinal direction of the catheter body; And a wire connected to each of the plurality of electrodes, wherein each wire is individually moved so that the tip of the catheter body has a plurality of curves.

(2) A catheter assembly comprising a temperature sensor capable of measuring the temperature around the electrode.

(3) A device for measuring an impedance of an electrode.

(4) a hole for discharging a substance for controlling the temperature rise around the electrode.

(5) A catheter assembly wherein the substance for controlling the temperature rise is physiological saline.

(6) A catheter assembly comprising an electrocardiogram measuring device attached to the distal end of the catheter body.

(7) A catheter assembly wherein only a portion of the electrode is insulated.

(8) The catheter assembly of claim 1, wherein at least one electrode is disposed on a side of the catheter body.

Wherein two wires are symmetrically connected to each of the one or more electrodes disposed on the side of the catheter (9).

(10) A catheter assembly having a plurality of electrodes disposed in the same plane within a catheter body.

According to a catheter assembly having a plurality of electrodes disposed thereon according to the present disclosure. The utilization of the internal space of the catheter body can be enhanced by using the wires connected to the electrodes instead of the pulley wires to make a plurality of curves at the tip of the catheter body.

According to the catheter assembly having a plurality of electrodes according to the present disclosure, it is possible to remove various tissues at a time, shortening the procedure time, thereby making it easier for the patient and the operator.

In addition, according to the catheter assembly in which the plurality of electrodes are arranged according to the present disclosure, it is possible not only to heat the entire balloon but to heat only the necessary part of the balloon, thereby preventing unnecessary parts from being removed.

In addition, the ablation catheter assembly with the balloon according to the present disclosure can be used in various treatment fields for removing tissue by applying heat in addition to arrhythmia therapy. In addition to the ablation, the ablation catheter assembly can be used for treatment by simply applying heat to necessary tissues .

10, 30, 50, 80, 100, 160: ablation catheter assembly
15, 35, 36, 53, 54, 55, 56, 57, 83, 91,
60, 61, 62, 63, 64, 121, 131, 132, 141, 142:
12, 31, 51, 84, 92, 161: catheter body

Claims (10)

A catheter assembly comprising:
Catheter body;
A plurality of electrodes disposed along the longitudinal direction of the catheter body; And,
And an electric wire connected to each of the plurality of electrodes,
Wherein each wire moves independently so that a distal end of the catheter body has a plurality of curves. The method according to claim 1,
And a temperature sensor capable of measuring a temperature around the electrode. The method according to claim 1,
And an impedance measuring device for measuring the impedance of the electrode. The method according to claim 1,
And a hole for discharging a substance for controlling the temperature rise around the electrode. The method of claim 4,
Wherein the substance for controlling the temperature rise is physiological saline. The method according to claim 1,
And an electrocardiogram measuring device attached to a distal end of the catheter body. The method according to claim 1,
Wherein only a portion of the electrode is insulated. The method according to claim 1,
Wherein at least one electrode is disposed on a side of the catheter body. The method of claim 8,
Wherein two wires are symmetrically connected to each of the one or more electrodes disposed on the side. The method according to claim 1,
Wherein a plurality of electrodes are disposed in the same plane within the catheter body.

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