RU2692660C1 - Annuloplasty procedure in reconstructive interventions on a mitral valve in patients with infectious endocarditis using an autologous tendon - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, particularly to cardiovascular surgery. Autologous transplant used is chemically untreated tendon of plantar muscle (TPM), for which it is pre-sampled. Under conditions of artificial blood circulation and cardioplegia access to mitral valve (MC), mitral valve inspection is performed, fibrous ring (FR) MC U-shaped poly-filament sutures on gaskets from autopericardium with prickings from left atrium. MC flaps are reconstructed, both ends of thread are sutured through thickness of tendon with pricks in direction of valve flap, receding from end of tendon. Second edge of the suture is fixed with a spacer from autopericardium, thread ends are tied. Cloth closure is performed auto-tendon fixing TPM nodal poly-filamentous sutures by means of edge suturing auto-tendon with endocardium in zone FR single-row continuous coined monofilament suture.

EFFECT: method enables minimizing a risk of postoperative complications.

4 cl, 1 ex

Description

The invention relates to medicine, namely to cardiovascular surgery and can be used in the surgical treatment of infective endocarditis (IE) with lesions of the mitral valve (MK).

The traditional method of surgical treatment of valvular pathology of the heart in infective endocarditis is the operation of valve prosthetics and the operation of valve reconstruction in cardiopulmonary bypass.

The advantages of valve-saving operations in case of insufficiency of the MK are confirmed by many extensive studies. The information that plastic surgery for insufficiency of the MC is the method of choice is contained in most modern clinical guidelines. Among the advantages of reconstructive interventions in the pathology of MK should indicate greater freedom from postoperative endocarditis, embolic complications and bleeding. [2, 5, 6, 8].

Traditional methods of reconstruction of MK include resection of the affected areas and suture plastic of the valves, as well as chord prosthetics with synthetic threads. The folding correction is surely complemented by annuloplasty of the annulus. There are various ways of annuloplasty MK: suture annuloplasty, using strips of biomaterial or synthetic fabric, annuloplasty MK on the support ring (annuloprosthetics FC). In most cases annulus rings consist of metal and synthetic fabric, although metal-based support rings are known, coated with xenomaterial, as well as biodegradable rings made of absorbable synthetic fabric. There are different types of support rings. A number of authors believe that with IE MK it is more preferable to use flexible support rings, which retain the ability of FC to move along with heart contractions [1, 3, 5].

Reconstructive surgery on the heart valves is accompanied by a lower risk of the return / recurrence of the infection. This is because a smaller amount of foreign material is used during valve reconstruction. However, traditional methods of AV valve reconstruction all the same imply the use of a significant amount of synthetic and other foreign materials and, as a result, give a certain percentage of infectious complications. One of the fundamental surgical principles of surgery for IE is to minimize the use of foreign material. Thus, the use of automaterial can be considered optimal from the point of view of its use in IE. As an automaterial for MK plastics, strips from autopericardium are used. Their main disadvantage is a high tendency to deform, unlike synthetic support rings, which for a long time "retains" the correct configuration of the AV valve and provides less pronounced regurgitation for a long time, which gives better long-term results. Flexible biodegradable support rings, in addition to a similar disadvantage, are nonetheless a foreign material [1, 4, 5, 8]. In this regard, the authors attempted to develop a method of annuloplasty MK using automaterial, similar in mechanical properties to a synthetic flexible support ring.

Autologous material is completely biocompatible. In most cases, before using an autopericardium, it is treated with glutaraldehyde in order to improve the mechanical properties (increase in elasticity and elasticity) [7, 9].

In surgery, various tendons are used as an automaterial for plastics. The tendon of the long palmar muscle (SDLM) and the tendon of the plantar muscle (SPM) are used in microsurgery, traumatology and orthopedics, plastic surgery. These tendons are rudiments and duplicate the function of other tendons, so their collection does not cause any impairment of the functions of the limbs. [one].

According to our research, the tendons in their cellular and tissue structure are close to the characteristics of such AV-clalan structures as the fibrous ring and valve chords. In addition, when comparing the mechanical properties of tendons and fibrous rings MK were obtained similar performance and (including strength and resistance to deformation).

The closest analogue of the developed method is the reconstruction of the mitral valve using the autotransplantation method with the tendon of the long palmar muscle (Gryaznoe DV, Zhdanov AI, Kovalev SA, Bulynin AV, Kinshov AN. Development of reconstructive operations on the mitral valve using the method of autotransplantation. Cardiovascular diseases. Bulletin of the ANSSA named after A. Bakulev RAMS. Peer-reviewed scientific and practical journal. Abstracts of the XXII All-Russian Congress of Cardiovascular Surgeons (November 27-30). Moscow. 2016; 17 (6 ): 238)

However, this method has limitations associated with the features of tendon extraction, which lie in the proximity of the neurovascular bundles, in particular the median nerve, as well as functionally important tendons, in particular, the flexor tendons of the hand, which increases the likelihood of their damage and dysfunction limbs. Also, the postoperative scar on the forearm can be considered as a significant cosmetic defect. In addition, the specified source does not specify the peculiarities of the suture attachment of auto-dryness to FC MK. The traditional annuloplasty technique on the ring used in this method included the imposition of single nodal joints without gaskets along the FC path, which determined an increased risk of thread cutting through the FC structures and tendons, which in turn resulted in a greater likelihood of inadequate reconstruction of MC and other complications. In addition, the nodes of polyfilament sutures fixing the auto-dryness left in the cavity of the left atrium, left loosely located, can be considered as a potential area of infection, which determines the increased risk of postoperative endocarditis.

Achievable technical result is to minimize the risk of postoperative complications, due to:

- use for attaching SPM to FC MK U-shaped seams on bilateral gaskets from autopericardium, minimizes the risk of cutting through the filaments and, as a result, reduces the risk of postoperative complications. Autopericardium used as a material for gaskets allows minimizing the use of foreign materials, which reduces the risk of infection recurrence;

- use as an auto transplant SPM, reduces the risk of damage to functionally important neurovascular bundles and tendons;

- fence as an auto transplant SPM, reduces the risk of cosmetic defect;

- closing of the knots of polyfilament sutures, fixing the SPM to FC with autocodile tissue with the help of a continuous blanket monofilament suture, avoids the contact of the multifilament yarn and its knots with blood, which reduces the risk of infectious complications;

- the use of autologous tendon allows to provide such mechanical parameters necessary for annuloplasty MK with IE, such as strength, elasticity and elasticity, which in other cases can only be achieved by using synthetic materials;

- minimal use of foreign material during the operation, minimizes the risk of postoperative endocarditis;

- the possibility of free modification of the form of FC with the help of sutures of the tendon allows to ensure optimal functioning of the valve;

- automaterial, unlike xeno- and allomaterial, provides fully immunological incompatibility of the implant;

- minimal severity of biodegradation of automaterial, allows to achieve a long-lasting effect of retaining the required configuration of FC, which allows to achieve the best long-term results;

- the presence of viable fibroblasts in the autograft allows to ensure adequate metabolism in the graft, fast and complete endothelization with minimization / absence of the risk of degradation and calcification.

The listed aspects of the technical result are achieved due to the following set of essential features:

As an autologous graft, a chemically untreated tendon of the plantar muscle (SPM) is used, for which it is previously collected,

under conditions of cardiopulmonary bypass and cardioplegia, access to the mitral valve (MK) is performed, an audit of the mitral valve is performed, a fibrous ring (FC) of the MK is pierced with U-shaped polyfilament sutures on autopericardial gaskets with injections from the left atrium,

perform the reconstruction of the MK valves; both ends of the thread are stitched through the thickness of the tendon with punctures in the direction of the valve leaf, retreating from the edge of the tendon,

Further, the second edge of the suture is reinforced with an autopericardial gasket, the ends of the threads are tied,

perform autocand tissue closure of SPM nodal polyfilament sutures by stitching by stitching the edge of autosoconfusion with the endocardium in the FC zone with single-row continuous blanket monofilament suture.

In addition, in addition:

- before performing the reconstruction of the MK valves, in the presence of evidence, resection of affected areas of the valves can be carried out.

- can be performed in the presence of indications prosthetic chords MK.

The length of the pickup flap of the tendon SPM (C) can be determined, for example, by the formula C = 2π1, where C is the desired length of the tendon flap, d is the maximum diameter of the fibrous ring of the MC.

The method is as follows.

The availability and suitability of the SPM for sampling are determined during the preoperative examination of the patient by performing functional tests.

Standard preoperative preparation. Sensor placement for intraoperative transesophageal echocardiography (PEEC).

After the commencement of general anesthesia and the provision of asepsis of the surgical field in parallel with the implementation of standard preparatory procedures for mitral valve surgery, isolating and collecting the SMP from two 5-mm mini-incisions on the medial surface of the tibia. The length of the tendon graft to be taken is calculated from the ESP of CK using the formula for calculating the circumference of the circle C = 2π1, where C is the desired length of the tendon, d is the maximum diameter of the fibrous ring. The collected fragment of the SPM is temporarily placed in a sterile isotonic solution of sodium chloride at room temperature. The skin incisions of the lower leg are sutured. Sternotomy. Opening the pericardium. Acne on the ascending aorta, the wall of the right atrium. Heparinization. Cannulation of the ascending aorta, hollow veins. Cooling. Start of artificial blood circulation. Clamping the aorta. Antegrade pharmaco-cold cardioplegia. Opening the wall of the left atrium. Revision MK: assessment of the extent of the lesion, the question of reparability. Flashing FC MK U-shaped polyfilament seams 3-0 on gaskets from autopericardium from the side of FC. The necessary restoration of the MK configuration is achieved by overlaying P-seams of different width and depth. Performing resection of affected areas of the valves, antiseptic treatment of tissues. The plastic stage of reconstruction of the valves MK, prosthetic chords MK if necessary. Hemming to the specified fixing SPM polyfilament seams of the second gasket from autopericardium from the side of the SMP. Tying knot of auto-drying of nodes with the final three-dimensional modeling of the correct configuration of the MC and the required narrowing of the size of the FC. Remove excess flap fragments. Closing with an auto-dry tissue fixing SPM of nodal polyfilament sutures by stitching the edge of auto-dryness with the endocardium in the FC zone with a single-row continuous blanket monofilament suture 4-0. Hydraulic tests to evaluate coaptation. Warming. Evacuation of air. Double row seam on the PL. Removing the clamp from the aorta. Rhythm recovery. Control CHECK. Replenishment BCC. THE EX. After stabilization of hemodynamics, stop IC. Decanulation of great vessels. Standard reverse operation.

Example.

Patient H., 1976

Diagnosis: Secondary subacute infective endocarditis with mitral valve disease. Fibroelastic deficiency. Prolapse of the posterior cuspidum MK, vegetation MK, severe mitral valve insufficiency. Vegetation of the anterior leaf of MK, severe relative insufficiency of MK. Pulmonary hypertension. Hypertension 2. Н2Б. FKZ. Moderate multiple organ failure.

Complaints of shortness of breath with little physical exertion, pressing pain in the region of the heart, weakness, swelling of the lower extremities, impaired vision, hearing loss, difficulty in moving due to the restriction of mobility of the lower extremities.

10.04.2018 operation: reconstruction of the mitral valve (resection and prosthesis of the chords of the posterior cusp, annuloplasty with a fragment of the autologous tendon of the plantar muscle) under infrared conditions according to the method developed by us. Operation time 215 min; IR time 105 min; Aortic clamping time: 86 min.

In the postoperative period, a gradual decrease in the severity of heart failure. Healing by first intention. Postoperative complications were not identified, including in the late postoperative period.

Survey data after surgery: General clinical.

Blood test of 04/20/2018: the number of erythrocytes in 1 l of blood is 3.220 10 ~ 12 / l, the number of leukocytes in the blood is 29.020 10 ~ 9 / l, the number of platelets in the blood is 355.000 10 ~ 9 / l, f. blood. eosinophils% 1.000%, f. blood. d. neutrophils (myelocytes)% 2.000%, f. blood. , neutrophils (rod. poison.)% 9.000%, f. blood. , neutrophils (seg. poison.)% 71.000%, f. blood. the lymphocytes% 12.000%, f. blood. monocytes% 5.000%, hematocrit 30.500%, cf. red blood cell volume 94.700 fl, cf. hemoglobin content in the erythrocyte 31.400 pg, cf. conc. hemoglobin in erythrocytes is 331,000 g / l, the amount of hemoglobin in the blood is 101,000 g / l, soe per mm / hour is 45,000 mm / hour.

Biochemical from 04/13/2018: total protein 78.100 g / l, creatinine level in blood 100.000 μmol / l, glucose level 5.200 mmol / l, alat 42.000 u / l, amylase level 330.000 u / l, asat 83.000 u / l, total bilirubin 40.500 μmol / l, bilirubin free 5.500 μmol / l, bilirubin bound 35.000 μmol / l.

ECG 04/13/2018 - 04/23/18: Sinus rhythm. Marked changes in the myocardium of the left ventricle.

Radiography of the chest from 04.04.2018: Condition after median sternotomy. Lungs straightened. Roots extended. Sine free. The domes of the diaphragm are clear, the pleural layers are above the domes of the diaphragm. Heart - the boundaries are expanded. Aorta compacted.

Echocardiography 11.04.18: КДР 54, КСР 39, ФВ 52, МЖП, ЗСЛЖ 14 and 13, ПЖ 26, ПП 38, ЛП 43, МК - prosthetic ring, speed 162 cm / s, PGD 11 mm Hg, СГД 3.8 mm Hg, regurgitation 2 tbsp. TC - in antiphase, ring, max speed 135 cm / s, PGD 8.4 mm Hg, SRD 3 mm Hg, regurgitation 1 tbsp.

Literature

1. Belousov A.E. Plastic, reconstructive and aesthetic surgery. St. Petersburg: Hippocrates; 1998;

2. Gryaznoe D.V., Kovalev S.A., Zhdanov A.I., Bulynin A.V., Kobtseva T.M., Gryaznoe D.Yu. et al. Comparison of hospital and long-term results of reconstructive operations on the mitral valve in infective endocarditis and other types of its pathology. Bulletin of the National Medical-Surgical Center. N.I. Pirogov. 2015; 10 (4): 19-26.

3. Muratov P.M., Malashenkov A.I., Shamsiev G.A., Babenko S.I., Soboleva N.N., Bockeria L.A. The results of surgical treatment of active infective endocarditis of the mitral valve. Annals of surgery. 2005; 2; 32-8.

4. Shikhverdiev N.N., Averkin I.I., Marchenko S.P., Badurov R.B. Options for the use of autopericardium in cardiac surgery. Bulletin of the Russian Military Medical Academy. 2012; 37 (1): 274-279.

5. Byrne J. G., Rezai K., Sanchez J. A., Bernstein R. A., Okum E., Leacche M., et al. Surgical Management of Endocarditis: The Society of Thoracic Surgeons Clinical Practice Guideline. Ann Thorac Surg. 2011; 91: 2012-9.

6. Habib G, Lancellotti P, Antunes M. J., Bongiorni M. G., Casalta J. P., Del Zotti F., et al. 2015 ESC Guidelines for the Endocarditis of the European Society of Cardiology (ESC). Endorsed by: European Association for Cardio-Thoracic Surgery (EACTS), the European Association of Nuclear Medicine (EANM). Eur. Heart J. 2015; 36 (44): 3075-128. DOI: 10.1093 / eurheartj / ehv319.

7. Hetzer R., Rankin J.S., Yankah C.A. Mitral valve repair. The biological solution. Springer. 2011; 271.

8. Nishimura R.A., Otto C.M., Bonow R.O., Mack M.J., Carabello B.A., McLeod C.J., et al. 2017 AHA / ACC Focused Aid / ACC Guideline: AHA / ACC Guideline for Patients With A Heart Rate Case Study Circulation. 2017; 135 (22). DOI: 10.1161 /CIR.0000000000000503.

9. Salvador L., Cavarretta E., Minniti G., Di Angelantonio E., Salandin V., Frati G., et al. Autologous pericardium annuloplasty: a "physiological" mitral valve repair. J Cardiovasc Surg (Torino). 2014; 55 (6): 831-9.

10. Shuhaiber J.H., Shuhaiber H.H. H. Plantaris tendon graft for atrioventricular valve repair: A novel hypothetical technique. Tex Heart Inst J. 2003; 30: 42-4.

Claims (4)

1. Annuloplasty method for reconstructive interventions on the mitral valve in patients with infective endocarditis using an autologous tendon, characterized in that chemically untreated plantar muscle tendon (SPM) is used as an autologous graft, cardioplegia access to the mitral valve (MK), perform a revision of the mitral valve, flashing the fibrous ring (FC) MK U-shaped by with filament seams on autopericardial gaskets with injections from the left atrium; MK valves are reconstructed; both ends of the thread are stitched through the thickness of the tendon with punctures in the direction of the valve leaf, retreating from the edge of the tendon; perform autocand tissue closure of SPM nodal polyfilament sutures by stitching by stitching the edge of autosoconfusion with the endocardium in the FC zone with single-row continuous blanket monofilament suture. 2. The method according to p. 1, characterized in that additionally before performing the reconstruction of the valves MK resection of the affected areas of the valves. 3. The method according to p. 1, characterized in that it additionally perform prosthetics chords MK. 4. The method according to p. 1, characterized in that the length of the flap of the tendon SPM (C) is determined by the formula C = 2πd, where C is the desired length of the flap of the tendon, d is the maximum diameter of the fibrous ring MK.