RU2300321C2 - Method for bilateral aortoannuloplasty in case of narrow fibrous aortal ring - Google Patents

Abstract

FIELD: medicine, cardio-vascular surgery.

SUBSTANCE: one should dissect fibrous aortal ring, dissect aortal root from two sides through the middle of noncoronary valve up to the bottom of anterior fold of mitral valve and through median commissural by capturing an intergastric septum for the depth of about 4-5 mm for the length of 5-10 mm. Moreover, one should control the degree of aortal root's widening with the help of a calculating caliber. Then it is necessary to suture in two kerchief-shaped xenopericardial patches into incisions for prosthetics of aortal valve. The innovation enables to adequately widen narrow aortal ring and implant a prosthesis of necessary diameter by keeping the stereometry of outflow route of left ventricle that causes favorable impact upon intracardiac hemodynamics and clinical state in post-surgical patients.

EFFECT: higher efficiency.

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Description

The invention relates to medicine, namely to the section of cardiovascular surgery. In surgery of aortic defects, the aortic ring is considered a narrow fibrous ring, which does not allow the implantation of an artificial heart valve of the required diameter. It is accepted that if an adult has a diameter of the aortic fibrous ring of less than or equal to 21.5 mm and a body surface area of more than 1.7 m ² , the ring is considered narrow (1). Implantation into a narrow fibrous ring of a prosthesis of obviously smaller diameter leads to a high gradient at the level of the aortic valve, which causes hyperfunction of the left ventricle and its hypertrophy, which is dangerous for the development of cardiac arrhythmias and ventricular fibrillation (sudden death).

There are various options for expanding the fibrous ring of the aorta. The Niks method of aortic annuloplasty is known (2), in which the aortic fibrous ring is dissected according to the commissure between the left coronary and non-coronary cusps, then the incision is continued to the base of the anterior cusp of the mitral valve without entering it through the mitral-aortic contact zone. A kerchief-shaped patch is sewn into the incision and the aortic valve is prosthetized.

The disadvantage of this method is the limited expansion of the fibrous ring (only one number), asymmetric dissection of the root, violating the functional stereometry of the aortic root.

The known method of aorto-ventriculoplasty according to Konno (3), in which the fibrous ring of the aorta is sequentially dissected; output section of the right ventricle and interventricular septum, followed by expansion of the excretory tract of the left ventricle and prosthesis of the aortic valve with a prosthesis of the required diameter.

The method is traumatic, with a high risk of developing atrioventricular block, heart attack of the interventricular septum, accompanied by high mortality. In addition, the expansion of the aortic root occurs asymmetrically, which also violates the functional stereometry of the outflow path of the left ventricle.

In order to eliminate the above drawbacks, reduce the risk of surgery and dangerous complications, expand the capabilities of the fibrous ring grafting technique and achieve aortic root symmetry, a method of bilateral aorto-annuloplasty is proposed.

The method is as follows. The operation is performed under cardiopulmonary bypass. After accessing the heart and connecting the cardiopulmonary bypass, in conditions of cardioplegic cardiac arrest, an aorta is opened by an arc-shaped incision and a narrow fibrous ring is cut through the middle of the necoronary valve down to the base of the anterior mitral valve leaf (Fig. 1).

The second stage dissects the fibrous ring on the opposite side through the medial commissure between the left coronary and right coronary valves (Fig. 2) towards the exit tract of the left ventricle with the transition to the interventricular septum, and the latter is cut to a depth of 4-5 mm over 5-10 mm (figure 3). The degree of expansion of the aortic root is controlled by a calculated caliber.

Two xenopericardial patches of a kerchief-like form (proline 4/0) are sewn into the dissected aortic root, the width of which at the level of the fibrous ring corresponds to the diameter of the implantable aortic prosthesis (Fig. 4), while the sutures fixing the aortic prosthesis in the patches are carried out from the outside, using synthetic or xenopericardial pads. Aortic prosthesis of the required diameter is implanted. Seal the aorta, comparing the tissue of the aorta and xenopericardial patches. The operation is completed in the usual manner.

Patient G. A. T-sov, medical history No. 183, 2003, clinical diagnosis: bicuspid aortic valve, combined aortic defect with a predominance of stenosis 4 tbsp. valve calcification. Relative mitral regurgitation. Ischemic heart disease. Angina of exertion 2 FC, HKIIA (IIIFC according to NYHA).

From the anamnesis: aortic defect was diagnosed in 2002. Complaints of shortness of breath during physical exertion (rise to the 3rd floor), paroxysmal pain behind the sternum of a compressive nature, cardiac arrhythmias, fatigue.

Objectively: a state of moderate severity, the skin is of normal color. The boundaries of the heart are not extended. Heart sounds are muffled, the rhythm is correct. The pulse is rhythmic 76 beats per minute, blood pressure - 140/90 torr. Systolic murmur is common with an epicenter of 2 m / r to the left of the sternum and on the aorta is pronounced. In the lungs, vesicular breathing, no wheezing. The liver is not enlarged.

Examination results: ECG - the axis of the heart is deflected to the left, the sinus rhythm, heart rate - 54 beats. in min, violation of intraventricular conduction. Moderately severe left atrial hypertrophy, pronounced left ventricle with overload. Marked myocardial changes in the septum, apex, side wall.

X-ray: focal-infiltrative changes in the lungs were not detected, the pulmonary pattern is strengthened. SLK - 51%, elongated 4 arcs, enlarged left ventricle.

ECHO-KG: ejection fraction of 53%, BWW of the left ventricle - 121 ml, BWC of the left ventricle - 56 ml, cdr of the left ventricular - 5.0 cm, concentric left ventricular myocardial hypertrophy. The ascending aorta is 43 mm, the arch is 28 mm, the diameter of the fibrous ring is 23 mm. Valves of the aortic valve are altered by calcification. Elements of calcification pass to the fibrous ring and the zone of mitral-aortic contact. Systolic pressure gradient - 121-136 mm Hg, aortic regurgitation is negligible. The area of the mitral foramen is 3.26 cm ² , mitral regurgitation is insignificant in volume. Pulmonary artery pressure is normal.

Coronarography: type of blood flow right, stenosis of the right coronary artery in the middle third of 68%.

Operation January 30, 2003. Bilateral aorto-annuloplasty, aortic valve prosthetics with the St.Jude-25 mechanical prosthesis. Coronary artery bypass grafting of the right coronary artery.

At the operation - aortic valve calcification passing to the fibrous ring and the mitral-aortic contact zone. The diameter of the fibrous ring is 22-23 mm. After excision of the aortic valve and decalcification, aortic root was dissected along the non-coronary valve to the base of the anterior mitral valve valve. Monitoring the adequacy of aortic root expansion with a design gauge number 25, the caliber does not pass into the outflow tract of the left ventricle. The aortic root was dissected according to the medial (coronary) commissure with approach to the interventricular septum, after which the calculated caliber freely passes into the outflow tract of the left ventricle. Two xenopericardial patches were sewn into the sections of the aortic root, after which the St.Jude-25 prosthesis was implanted. The aorta is sealed by matching two patches and the walls of the aorta. Then performed aorto-coronary artery bypass grafting of the right coronary artery.

The course of the operative period without complications. Sinus rhythm, conduction disturbances and signs of myocardial malnutrition no.

Control ECHO-KG: ejection fraction of 65%, there are no violations of local and global contractility of the left ventricular myocardium. KdLZh-92 ml, kdlZh-4,5 cm, concentric left ventricular myocardial hypertrophy. In the aortic position, the shadow of a mechanical prosthesis works without failures, the opening amplitude is sufficient. Gradient on the prosthesis 12 mm Hg The diameter of the ascending aorta is 40 mm, at the level of the fibrous ring 27 mm.

The proposed method of bilateral aorto-annuloplasty allows the implantation of an adequate diameter aortic prosthesis with a narrow fibrous ring of the aorta, without highly traumatic reconstructive surgery on the right ventricle and dissection of the interventricular septum. Bilateral aorto-annuloplasty allows to achieve optimal functional stereometry of the aortic root, as evidenced by the low gradient on the prosthesis. The absence of complications characteristic of aortic prosthetics (disorders of atrioventricular conduction and coronary blood flow) indicate the safety and accessibility of this method.

Literature

1. Davydova G. B., Skopin I.I., Nikitina T.G. Clinical and hemodynamic characteristics of aortic valve prosthetics with small-diameter prostheses // Thoracic and cardiovascular surgery. - 2001. - No. 1. - S.16-21.

2. Nunez L., Aguado M.G., Pinti A.G. Enlargement of the aortic annulus by resecting the comissure between the left and non-coronary cusps // Texas Heart Inst J. - 1983. - Vol. 10. - P.301.

3. Konno S., Imai Y., Nacajima M. A new method for prosthetic valve replasement in congenital aortic stenosis associated with hypoplasia of the aortic valve ring // J Thorac Cardiovasc Surg. - 1975 .-- Vol. - 70. - P.909-917.

Claims (1)

A method of bilateral aortoannuloplasty with a narrow aortic fibrous ring, including dissection of the fibrous ring and aortic valve prosthesis, characterized in that the aortic root is dissected from both sides through the middle of the necoronary valve to the base of the anterior mitral valve valve and the medial commissure approaching the interventricular septum, to a depth of 4-5 mm over 5-10 mm, while the degree of expansion of the aortic root is controlled by a design gauge, after which it is sewn into sections There are two xenopericardial patches of a kerchief shape and prosthetics of the aortic valve with a prosthesis of the required diameter.

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