RU2651891C1 - Method of the heart electric stimulation permanent endocardial electrodes removal - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to cardio surgery, and is intended to assist patients in removal of the previously implanted in the heart electrodes. According to the method, a tube is placed on the electrode, applying to the electrode a pulling force with the tube simultaneous displacement towards the heart to the place of the electrode fusion with its tissues, characterized by fact, that a pre-tensioner, which is a screw pair, is preliminary successively inserted into the tube until stop in the tube, electromagnetic vibrator and a clamping mechanism, with the help of a clamping mechanism fixing them on the electrode, by the tensioner extension creating a pulling force, transmitted to the electrode and the tube proximal end through the vibrator and the clamping mechanism, enabling the tube movement towards the heart with the electrode counter movement, with the increase in the resistance to the electrode pulling, switching on the electromagnetic vibrator, and providing the electrode separation from the heart through microfractures due to the vibrator oscillations transmitted to the tube proximal end and to the electrode in the region of the fusion with the heart.

EFFECT: technical result is in enabling of the safe electrode separation from the encapsulating it fibrous tissue in places of contact with the heart.

1 cl, 1 dwg

Description

The invention relates to medicine, namely to cardiac surgery, and is intended to provide modern high-tech care to patients to remove infected, broken and prognostically dangerous endocardial electrodes previously implanted in the heart through a blood vessel.

Currently, the issue of replacing pacemakers and deimplantation of compromised endocardial electrodes is given considerable attention, this is due to an increase in the total number of implants. In this regard, the need for treatment of complications associated with the implantation of pacemakers is growing. Infection, sepsis, treatment of injuries leads to the need for partial or complete removal of them, including the device and electrodes. And this carries a potential risk of significant complications.

A known method of removing the electrode, providing for the application to the tip installed in the tube, rotational (rotational) and axial movement to advance it through a blood vessel manually or by mechanical action (US patent No. 9149290 B2, IPC A61B 17/32, A61B 17/34 from 05.10 .2007, publ. 10/06/2015).

The disadvantage of this method is the need to use an additional tube, which increases the total diameter of the wound channel remaining after removal of the electrode, which contributes to an increase in trauma when removing the electrode. Given the fact that this channel directly communicates with the lumen of a blood vessel, the use of this method entails the development of more intense bleeding at the final stage of the operation. The force used to create a rotational movement of the conductor and to separate the fibrous tissue from the electrode cannot be measured in a clinical setting.

The closest technical solution, selected as a prototype, is a method of removing a pacemaker electrode from the heart through a blood vessel, including putting a telescopic tube on the electrode, applying a pulling force to the electrode manually while simultaneously moving the tube toward the heart. In the case of difficulty in removing the electrode from the heart tissue, it is removed using a conductor connected to a thin spiral. The conductor-spiral system is carried out in the central direction as far as possible, ideally to the area of contact of the electrode with the heart. Next, the system is activated by rotating the spiral around the conductor. In this case, its deformation occurs, fixing the conductor-spiral system in the electrode lumen. Due to this fixation, it becomes possible to apply traction to its intracardiac tip (US patent No. 5013310 A, IPC A61B 17/00 of 01/17/1989, publ. 05/07/1991).

The disadvantage of this method is the necessity of using an additional spiral structure and conductor inside the electrode, which leads to an increase in the time of operation and the complexity of the manipulations. Another disadvantage is the increase in the total diameter of the device for removing the electrode (separator) due to the use of the outer tube of the telescopic system, and, consequently, the increase in the diameter of the wound channel remaining after solving the clinical task of removing the electrode. In case of difficult removal of the electrode, a separator is used to ensure the rotation of the wire, and under the action of rotation, the electrode is separated from the tissue, which increases the morbidity when removing the endocardial electrodes from the heart.

The technical task of this invention is the safe separation of the electrode from the fibrous tissue encapsulating it in places of contact with the heart.

The technical problem is solved in that in the method of removing permanent endocardial electrodes for electrical stimulation of the heart, including putting the tube on the electrode, applying a pulling force to the electrode while simultaneously moving the tube toward the heart to the place where the electrode merges with the heart, according to the invention, additionally on the electrode until it stops in the tube sequentially put on the tensioner, vibrator and clamping mechanism, the latter being fixed to the electrode, by elongation of the tensioner create a pulling force that It is transmitted through the vibrator and the clamping mechanism to the electrode, and simultaneously transmitted through the tube to its proximal end, providing counter-traction and movement of the tube towards the heart during the oncoming movement of the electrode, and with a significant increase in resistance to elongation of the electrode, the vibrator is turned on, the vibrations from which are transmitted to the proximal end of the tube and on the electrode in the zone of fusion with the heart, ensuring the separation of the electrode from the heart through micro-destruction with minimal effort and minimizing negative consequences.

Using in the method the efforts of the tension and vibration of the electrode by means of a tensioner and a vibrator located between the tube and the clamping mechanism, provides a pulsed combination of static and vibrational force. This method reduces the pulling force to remove the electrode and reduces the risk of complications - perforation of the heart wall and other injuries when removing endocardial electrodes from the heart.

Vibration of the electrode allows to reduce the effort to remove it from the heart and blood vessels by reducing the total tension of the electrode during removal, provides cyclic instantaneous pressure forces on the tissue in the area of contact of the electrode with the heart, causing separation through micro-destruction of the tissue with a minimum probability of macroscopic injury.

The possibility of performing an operation by adjusting the force with a tensioner helps to reduce the likelihood of negative situations when removing the endocardial electrode, which largely eliminates the subjective factor during the operation.

Using the proposed method involves the manipulation of a single tube, the diameter of which is less than the diameter of a blood vessel, which creates a bleeding channel of a smaller diameter and reduces the amount of intraoperative blood loss.

The invention is illustrated by the drawing, which shows a device that allows you to implement a method of removing permanent endocardial electrodes for electrical stimulation of the heart.

When removing the endocardial electrode, static and vibrational forces are combined. For this purpose, a tube 2, a tensioner 3, which is, for example, a screw pair, a vibrator 4, for example, of an electromagnetic type, and a clamping mechanism 5, for example, a screw, are sequentially put on the electrode 6 until they stop against the heart wall with insignificant force, and in this position is fixed by a clamping mechanism 5 on the electrode 1. By stretching the tensioner 3 create a pulling force, which is transmitted through the vibrator 4 and the clamping mechanism 5 to the electrode 1 and simultaneously transmitted through the tube 2 to its proximal end providing counter-attraction and movement of the tube 2 towards the heart 6 during the opposite movement of the electrode 1, and with a significant increase in resistance to elongation of the electrode 1, a vibrator 4 is turned on, vibrations from which are transmitted to the proximal end of the tube 2 and to the electrode 1 in the zone of fusion with the heart 6, providing separation of the electrode 1 from the heart 6 through micro-destruction with minimal effort and minimizing the negative consequences.

Example. Patient K., 76 years old, was hospitalized at MBUZ KDC Health on 06/01/2016 with complaints of suppuration in the area of the ECS bed, hyperthermia up to 38.5 degrees. C, weakness, fatigue. From the anamnesis: sick for more than 10 years. The diagnosis was established: coronary heart disease, arrhythmic variant, persistent bradysystolic form of atrial fibrillation. In 2014, an ECJ pacemaker SJM Sustain VVIR with an endocardial ventricular electrode Tendril 58.0 was implanted. In February 2016, signs of suppuration of the pacemaker bed appeared. After examination of the patient revealed signs of infectious endocarditis. On 02.06.2016, under local anesthesia, the implantation of the ECS system, including the electrode, was performed. In this case, the method was used, sequentially putting the tube, tensioner, vibrator, clamping mechanism on the electrode, attaching them to the electrode, the tensioner applied force to the electrode, and when an increased resistance to extraction occurred, the vibrator was turned on and the tube was gradually advanced until it was removed from the heart. Complications after removing the electrode using this device were not observed. The patient was discharged on the 7th day of the postoperative period with recommendations for further observation and outpatient treatment.

The use of active systems has shown an increase in clinical effectiveness, a decrease in the time of deimplantation and the frequency of complications associated with the removal of endocardial electrodes. The proposed method reduces the application of mechanical force to the electrode and thereby reduces the risk of complications - perforation of the heart wall.

Claims (1)

A method of removing permanent endocardial electrodes for electrical stimulation of the heart, according to which a tube is placed on the electrode, a pulling force is applied to the electrode while simultaneously moving the tube towards the heart to the place where the electrode merges with its tissues, characterized in that the tensioner is subsequently put on the electrode until it stops in the tube , which is a screw pair, an electromagnetic vibrator and a clamping mechanism, using a clamping mechanism, fix them on the electrode, by lengthening n the tensioner creates a pulling force, transmitted through the vibrator and the clamping mechanism to the electrode and the proximal end of the tube, providing the tube to move towards the heart when the electrode moves counterclockwise, when the electrode pull resistance increases, the electromagnetic vibrator is turned on and the electrode is separated from the heart through micro-destruction due to vibrations of the vibrator, transferred to the proximal end of the tube and to the electrode in the zone of fusion with the heart.

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