RU2200042C2 - Surgical method for treating cardiac ischemia disease - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves forming transmural canals in the myocardium of the left ventricle by means of laser radiation having 0.5-1.0 mm diameter. The canals are built using CO₂- laser radiation of 10.6 mcm wavelength, output power of 250-1000 W and exposure time equal to 0.03-0.1 s. EFFECT: long term service life of the built blood vessel.

Description

 The invention relates to medicine, namely to cardiac surgery, and is intended for the treatment of coronary heart disease with the diffuse nature of coronary artery disease.

 The most common methods of surgical treatment of coronary heart disease (CHD) are direct myocardial revascularization techniques: coronary artery bypass grafting, Kolesov surgery, and transluminal balloon angioplasty.

 A known method of treating coronary vessels by laser angioplasty by endovascular insertion of a fiber through the mouth of the coronary artery to an atherosclerotic plaque and exposure to it with laser radiation (Rabkin I. Kh., Natsalishvili Z. G. and other Laser recanalization of coronary arteries. The use of lasers in surgery and medicine. - Abstracts of the International Symposium of Laser Surgery and Medicine. Samarkand, 1988, p. 38 - 40).

 The disadvantage of this method is the high degree of trauma to the wall of the coronary artery due to the presence of sections that fall into the area of the laser beam due to the inevitability of a straight line crossing the laser beam of complex tortuosity of the passage of the vessel.

Known methods for treating coronary heart disease by performing channels in the left ventricular myocardium followed by suturing of the epicardium (Skobelkin OK Lasers in surgery. M: Medicine, 1989, pp. 230 - 238; Method for the treatment of coronary heart disease. RF patent 2075963, IPC ⁶ A 61 B 17/36, A 61 N 5/06, 1994).

 In the first case, the channels are performed with laser radiation up to 20 J and a pulse duration of 80 - 100 ms, a channel diameter of 200 - 280 μm, in the second case, the channels are formed with a diameter of 1.0 - 2.0 mm using a monofilament quartz fiber with a diameter of 400 μm by AIG Nd-laser with a wavelength of 1.06 μm, an output power of 20 - 30 W with an exposure of 0.5 - 1.5 s.

 The disadvantages of the known methods are that when the channels are formed, the cell membrane of the myocardium is significantly damaged and during healing a granulating tissue is formed, which subsequently fills the lumen of these channels, thereby reducing the functioning of the newly formed channel from the vascular bed. In this regard, over time, the blood supply to the ischemic myocardium decreases, and consequently, the duration of patient compensation decreases.

 The objective of the present invention is to reduce the invasiveness of the method.

The problem is achieved in that in the proposed method for the surgical treatment of coronary heart disease, transmural channels are performed in the myocardium of the left ventricle with a diameter of 0.5 - 1 mm using a CO ₂ laser radiation with a wavelength of 10.6 μm, output power of 250 - 1000 W at exposure 0.03 - 0.1 s.

 The method is as follows.

The treatment is carried out using a CO ₂ laser with an output power of 250 - 1000 W, generating laser radiation with a wavelength of 10.6 μm, which is delivered to the heart using a manipulator equipped with gold-plated copper mirrors with a focusing lens at the output.

With the help of coronarography, the localization and spread of the atherosclerotic process is established. A radioisotope study with Tl ²⁰¹ determines the functionality of an ischemic myocardium. The operation is performed on a working heart under endotracheal anesthesia. The sterile tip of the manipulator is installed on the heart in the ischemic zone, after which, upon the command of the surgeon, an ECG-synchronized laser pulse is applied to the myocardium with predetermined characteristics, for example, with a power of 800 W and a duration of 0.03 s. As a result of this effect, a through transmyocardial channel is formed in the ischemic zone of the left ventricle. Bleeding from the formed channel is stopped by pressing the tupfer for 2 - 2.5 minutes and, as a rule, does not require additional suturing. Similarly, in the zones of ischemia create several, for example 25 - 45 holes. After thrombosis from the side of the epicardium, channels filled with blood are formed, which form their own vascular bed, and also stimulate neoangiogenesis.

 In general, this vascular trunk provides compensatory blood supply to the ischemic myocardial site. As a result of treatment, long-term compensation of patients is achieved.

 The proposed method is a combination of surgical treatment methods, which provides a significant increase in the duration of patient compensation by providing blood supply to ischemic myocardial sites.

 Due to the high energy of the directed action of laser radiation and the short duration of exposure, damage to the cell membrane of cardiomyocytes around the channel is minimal, which reduces the inflammatory response and stimulates neoangiogenesis. And although the fibrosing scar tissue narrows the channels formed in the myocardium, they retain their lumen and, anastomosing with native vessels, are included in the blood supply to the myocardium. As a result, the lumen of the canal is subsequently preserved, and the walls of the canals in structure approach the walls of normal vessels.

 With the claimed laser radiation power, it is possible to transept the wall of the left ventricle in 30 - 100 ms. This allows you to apply laser exposure in synchronization with the electrocardiogram (ECG) during the period of absolute refractory cardiac muscle (S-T segment of the electrocardiogram), which eliminates the occurrence of cardiac arrhythmias at the time of application of the laser pulse. Exposure to low-power radiation (less than 200 W) requires an increase in the pulse duration of more than 100 ms, which excludes the possibility of synchronization with the ECG and also leads to excessive myocardial trauma due to the effect of cutting the myocardium when the manipulator is displaced through which laser radiation is supplied, which leads to to intra- and postoperative complications.

 As practice has shown, it is advisable to use the maximum laser radiation power and exposure time from 30 to 100 ms, which is sufficient for the formation of transmural channels in the wall of the left ventricle in a particular patient, since the thickness of the myocardium in the affected area can vary from 0.8 to 2.5 see Accordingly, by changing the exposure time, it is possible to adjust the penetrating power of the laser pulse.

 The use of maximum laser radiation power does not lead to extensive myocardial damage, since the pulse energy at a power of 800 W and an exposure time of 40 ms is 32 J, and the application of such energy to the myocardium leads to the formation of a transmural channel 1 mm in diameter with a zone of reversible damage to cardiomyocytes around the channel in 5 to 10 cells, without damage to the surrounding structures of the heart.

 The implementation of channels with a diameter of less than 0.5 mm does not provide sufficient blood flow to the ischemic myocardial site.

 When performing channels with a diameter of more than 1 mm, the invasiveness of the surgical intervention sharply increases, which leads to complications.

 The diameter of the newly formed channels of 0.5 - 1 mm is close to the diameter of the natural vessels that feed the heart muscle, therefore it is optimal, while the channels form their own vascular bed, which stimulates the development of blood supply to previously not functioning capillaries.

 All of the above allows for an increase in the duration of functioning of the newly formed vessels, therefore, it increases the period for improving blood supply to ischemic areas of the heart, as a result of which the duration of compensation of patients increases.

Example. Patient M., 52, was hospitalized with a diagnosis of Multifocal atherosclerosis. IHD: atherosclerosis of the coronary arteries. Postinfarction cardiosclerosis. Angina of tension and rest IV FC. H 2A. Hemodynamically insignificant stenosis of the brachiocephalic arteries. Renal stone disease. Nephrogenic arterial hypertension. Operation: left-side anterolateral thoracotomy, the pericardium is dissected anterior to the phrenic nerve. Under the control of transesophageal echocardiography using a CO ₂ laser in a pulsed ECG-synchronized mode, 35 transmyocardial channels with a diameter of 1 mm were created on the front, anterolateral and posterolateral walls and the apex of the left ventricle. Bleeding was stopped by short-term pressing of the tupfer. Rare seams on the pericardium. Drainage on the posterior surface of the left pleural cavity. Layered closure of the chest wound. Aseptic dressing. During his stay in the hospital, angina attacks did not bother, shortness of breath was absent. After a month, the administration of nitroglycerin is irregular. From the 3rd to the 6th months after the operation, angina attacks do not bother, do not use nitroglycerin, and started working.

Claims (1)

A method for the surgical treatment of coronary heart disease, including performing transmural channels in the left ventricular myocardium using laser radiation, characterized in that the channels are formed with a diameter of 0.5 - 1.0 mm using a CO ₂ laser radiation with a wavelength of 10.6 μm, output power 250 - 1000 W at an exposure of 0.03 - 0.1 s.