RU2026640C1 - Method for surgical treatment of ischemia - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: this method prescribes carrying out endovascular, surgical and distance revascularization by forming blind passage, the so-called laser ventriculo-coronary shunt of 1.5 to 2.5 mm in diameter and 5 to 10 mm deep, in wall of left ventricle via surgical access to axillary artery with X-ray TV monitoring under local anesthesia and heparinizing patient's organism with the aid of laser scalpel and vacuum sucker positioned in gap in radiopaque catheter provided with flexible drive by means of which laser scalpel is advanced into cavity of left ventricle. EFFECT: less injuries and more effective revascularization of myocardium. 2 dwg

Description

 The invention relates to surgical methods for surgical interventions on the heart, in particular to methods of surgical prophylaxis and treatment of acute myocardial infarction.

A known method of surgical treatment of coronary heart disease, which consists in the formation in the ischemic wall of the myocardium of channels using a CO ₂ laser, which pass through the entire thickness of the myocardium to the endocardium, inclusive.

 The disadvantage of the method of creating laser channels in the myocardium is the need to perform the main stage of surgery on a naked heart, which is associated with extensive and traumatic access, thoractomy. The operation is long in time, it is dangerous to bleed, and most importantly, the laser channels are performed with a diameter of 400 microns, which decreases by an order of magnitude during the year, and the hemodynamic effect of the intervention is significantly reduced.

 The aim of the invention is to reduce the morbidity and increase the effectiveness of revascularization of the ischemic myocardium. This goal is achieved by the fact that in the method of surgical treatment of coronary heart disease, including the formation of channels in the ischemic zone of the myocardium using a scalpel. According to the invention, a laser scalpel is used, while its working part, equipped with a vacuum suction cup, is placed into the lumen of a radiopaque catheter with a flexible drive at the distal end and carried out into the cavity of the left ventricle, after which it is successively fixed with a vacuum to the endocardium and form blind channels (laser ventriculo coronary bypass) with a diameter of 1.5-2.5 mm and a depth of 5-10 mm.

 The described method is implemented by a device containing a vacuum suction cup, a flexible drive, a mechanism for controlling the bending of the working end in a radiopaque catheter of the fiber.

 When a laser ventriculo-coronary shunt is formed in an ischemic myocardium, many small sinusoidal vessels open on its walls. Under pressure, blood enters the canal in both phases of the cardiac cycle, then, due to the higher pressure, this blood enters the open mouths of microvascular formations, in particular, sinusoids of the canal walls, and through them into the entire coronary system of the myocardium. Depending on the functional state of the coronary circulation, blood is discharged into the veins and vessels of Tebesia-Viessen or enters the arteries, and from there into the capillaries and is utilized by the myocardium. The abundant blood flow directly from the left ventricle to the laser ventriculo-coronary shunt and the increase in pressure in it contributes to the speedy flow of blood into the vascular system of the myocardium. The rhythmic contraction of the channel during the cardiac cycle, as it were, “squeezes” the blood from there, which is facilitated by the non-simultaneous contraction of various layers of the myocardium. The constant blood circulation through the newly formed laser ventriculo-coronary shunt, which is covered with endothelium on the 7th day after the operation, in the so-called “spongy layer” of the myocardium, rich in microvascular formations, contributes to the development of an additional newly formed functionally complete network of anastomoses with the coronary system of the heart.

 In FIG. 1-2 shows a device and a diagram of the main stage of the surgical treatment of coronary heart disease.

 The method includes the following sequence of operations: performing surgical access to the right axillary artery, mobilizing it, applying turnstiles, performing arteriotomy, introducing the working end of the device into the lumen of the artery, conducting it through a flexible conductor, bypassing the aoral valve under X-ray television control into the cavity of the left ventricle of the heart , the orientation of the working end relative to the ischemic myocardial wall, fixing the end face of the working end of the device to the endocardium and the implementation of a deaf laser channel in the myocardium, after extraction of the device from the arterial network - suture of the wound of the axillary artery, suture of soft tissues.

 A device for implementing the method of surgical treatment of coronary heart disease contains a remotely controlled working part and a control unit: a catheter 1, inside which a flexible conductor 2 is placed in the channel 3, the light guide 4, and also a vacuum suction cup 5 connected to a vacuum suction 6. The light guide 4 is composed of a laser energy source 7, and a flexible control rod for bending the working end 8 is connected to a screw 10 located on the control unit 9.

 A method of treating coronary heart disease using the device is as follows.

 In a patient with a diagnosis (angina pectoris, rest, pre-infarction, acute myocardial infarction in the first 2 hours from its onset), access to the axillary artery is performed. The artery is mobilized and taken to the turnstiles, after which an areotomy is performed. Under the x-ray television control, the working end of the catheter 1 is introduced into the formed lumen of the vessel and it is advanced into the ascending aorta. Upon reaching the zone of the aortic valve, the soft end of the flexible conductor is advanced from the canal of the catheter, which is carried out into the cavity of the left ventricle. Then, along the conductor into the cavity of the left ventricle spend the working end of the catheter 1.

 Information about the topography of the ischemic zone of the myocardium is established using ECG studies and coronary angiography in advance or during the intervention. Conductor 2 winds up in channel 3.

 The orientation of the working part of the catheter 1 with respect to the ischemic wall of the myocardium is carried out using its bend, which is achieved by pulling the traction screw 10 and the rotation of the catheter 1 around the axis. After orientation of the bend of the working end of the catheter, its end should abut against the myocardial wall.

 The vacuum suction 6 is turned on and the end of the catheter to the endocardium is fixed using a vacuum suction cup, after which the laser energy source 7 is turned on and a dull laser ventriculo-coronary shunt is formed. If necessary, the manipulation is repeated up to 5 times.

 After the main stage of the operation is completed, the vacuum suction 6 is turned off, the flexible screw 10 for releasing the catheter 1 working end control rod is released and the device is removed from the arterial system, the suture of the arteriotomy wound is performed, and sutures are made on the soft tissues.

 Intervention is carried out under local anesthesia, in conditions of heparinization of the body with careful monitoring of ECG, blood pressure, central venous pressure.

 The main stage of the operation - the formation of a laser ventriculo-coronary shunt in the form of a blind channel in the myocardium - is performed to a depth of 5 to 10 mm. Since this depth is optimal, since it is in this layer that the first and second order arteries departing from the main coronary artery are located, communication with which a laser shunt with a left ventricular cavity increases the effectiveness of revascularization. It is in this layer of the myocardium that there is a dense network of anastomoses, tebesian vessels, sinusoid spaces that communicate with the coronary system of the heart and with the beginning of the functioning of the ventriculo-coronary shunt, there is additional blood supply to the myocardium in both systole and diastole.

 The diameter of the blind canal is 1.5-2.5 mm, which is optimal, since the diameter of the mouth of the coronary arteries precisely in such parameters provides the myocardium with sufficient blood supply even with large physical and emotional stresses. An important factor for substantiating the indicated diameter of the newly created ventriculo-coronary shunt is the exclusion of its blockage during prolonged functioning by thrombotic masses and hyperplasma elements of muscle and endocardial tissue due to channel formation by laser radiation and its endothelization on day 7 after surgery, which prevents regeneration, overgrowth of vascular growths connective tissue, which contributes to the long-term functioning of the newly created additional a source of blood supply to ischemic myocardium directly from the left ventricle.

 Under local anesthesia, surgical access to the right axillary artery was performed. The artery is mobilized, taken to the holders. A turnstile is placed on the proximal end of the vessel, and on the distal vascular clamp. 1.5 ml of heparin was injected into the patient's vein. An arteriotomy was performed, and the working end of the catheter was introduced into the arterial lumen formed, previously filled with physiological saline using vacuum suction. Under X-ray television control, the catheter is inserted into the ascending aorta, and then using the soft end of a flexible conductor, bypassing the aortic valve, into the cavity of the left ventricle. Then the working end with the help of traction was oriented with respect to the front wall of the left ventricle in the area of the projection of the envelope branch of the left coronary artery. The catheter moved forward until full contact with the endocardium. Then the vacuum suction was turned on and with the help of a vacuum suction cup the end of the catheter was fixed to the endocardium. Then the laser unit was turned on and a laser ventriculo-coronary shunt was formed. Manipulation is repeated in the area of the arterial system. Suture of an artery wound, suture of soft tissues. The intervention lasted 45 minutes. The operation was controlled by an ECG and performed under X-ray television control. The patient was discharged from the hospital on the 10th day. Examined after 0.5 years. There are no complaints. He returned to his previous work.

 The proposed method for the treatment of coronary heart disease in order to reduce the morbidity and increase the effectiveness of revascularization of the ischemic myocardium differs from the known simplicity of execution, low morbidity and the volume of surgical intervention due to the exclusion of manipulations on an open and stopped heart in cardiopulmonary bypass.

 The effectiveness of the proposed intervention is an order of magnitude higher than the known method due to the large area of contact of the arterialized blood with the coronary system distal to the occlusal and stenosing process in the coronary arteries, due to the newly formed, functionally complete, additional system of internal circulation, anastomosing and with the previous coronary network.

 The plasticity of the coronary system of the myocardium provides self-regulation of the required volume of inflowing blood through the ventriculo-coronary shunt, its utilization both in the mode of quiet operation and in experimental stressful conditions.

 In the absence of anatomical conditions for performing coronary artery bypass grafting, the method of autoarterialization of the ischemic myocardium by creating a ventriculo-coronary laser shunt can be the method of choice, and with direct myocardial revascularization (coronary artery bypass grafting) as an additional intervention performed before the application of aortocoronary bypass grafting, which helps to increase the prevention and the effectiveness of coronary artery bypass grafting. The proposed method of operation can serve as an emergency surgical aid in the first hours from the beginning of the development of myocardial infarction in order to treat it and reduce the area of myocardial damage by the necrotic process. The method of operation using this device does not have age restrictions, concomitant pathology, contributes to the continued life of patients with coronary heart disease.

Claims (1)

 METHOD FOR SURGICAL TREATMENT OF ISCHEMIC HEART DISEASE, including the formation of channels in the ischemic myocardial zone using a scalpel, characterized in that, in order to reduce trauma and increase the efficiency of myocardial revascularization, a laser scalpel is used, while its working part is equipped with a vacuum suction cup a radiopaque catheter with a flexible drive on the dietary end and is carried out into the cavity of the left ventricle, after which it is successively fixed with a vacuum to the endocardium and form blind channels with a diameter of 1.5 - 2.5 mm and a depth of 5 - 10 mm.

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