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CASE REPORT

Use of autologous pericardium for mitral leaflet reconstruction in a child with endocarditis

Olcay Murat DisliI; Cemsit KarakurtII; Nevzat ErdilIII; Bektas BattalogluIII

DOI: 10.5935/1678-9741.20130042

ABBREVIATIONS AND ACRONYMS

IE: Infective endocarditis

TEE: Transesophageal echocardiography

INTRODUCTION

Infective endocarditis (IE) is a condition that is rarely observed among children. It is associated with a postoperative mortality rate of less than 5%. In general, mitral valve replacement is performed for the treatment of mitral valve regurgitation that develops as a result of infective endocarditis. However, recently performed clinical studies have shown that patients with isolated mitral valve IE may also benefit from mitral valve repair [1].

There are considerable technical difficulties associated with the surgical procedures involved when the mitral valve is affected by endocarditis. In the article, we describe a case of successful mitral endocarditis treatment by describing how valve repair was performed in this particular case.

 

CASE REPORT

Signs of infection accompanied by weakness and high fever were observed in a 9 year old boy, despite antibiotic administration for the previous 2 weeks. Severe mitral regurgitation 3x2 cm was observed during transesophageal echocardiography (TEE) (Figure 1A), and a perforation was identified on the posterior leaflet together with a considerably large mobile vegetation that had spread to the posterior wall of the left atrium. Blood cultures revealed the presence of Staphylococcus aureus, and abscesses were visible beyond the posterior leaflet on the adjacent wall. Standard cardiopulmonary bypass, with blood cardioplegia maintained at mild hypothermia, was used for surgery. During the procedure, the abscess was debrided and the mitral valve was reconstructed. Mitral repair was performed on the posterior mitral valve leaflet using quadrangular resection, and the body of the posterior valve and the locations of abscess resection were reconstructed with fresh autologous pericardium (Figure 2). Recovery from cardiopulmonary bypass was without any adverse events. Intraoperative TEE demonstrated competence for the valve. Following surgery, antibiotic treatment was administered for the ensuing 6 weeks, and recurrence of infection was not observed. No adverse events occurred during the postoperative period, and the mitral valve displayed minimal regurgitation. Mitral valve competence was measured 6 months after the surgery, and cardiac performance was eventually observed to be normal. (Figure 1B) Patient was discharged 14 days after the surgery, with perioral antibiotic therapy being continued following discharge. The bacterial mass was mostly composed of Gram positive bacteria within the vegetation, but no specific pathogen developed from the culture of the excised vegetation.s

 

 

 

 

DISCUSSION

According to the American College of Cardiology/American Heart Association 2006 Guidelines, mitral valve repair is strongly recommended in active infective endocarditis against the risk of infection with prosthetic materials [2]. Endocarditis surgery involves full excision of the infective and necrotic areas, which serves to restore the structure of the operated regions. For infective valve diseases, Carpentier [3] and Dreyfus et al. [4] have recommended the thorough debriding of the infected valve by means of direct surgical intervention at an early stage. Hence, the surgery is to be performed while infection is only limited to the area of the heart valve tissue, and before ventricular function is impaired in the patient. Tenório et al. [5] suggested that pericardial patch must comprise the body of the posterior leaflet to which the anterior leaflet will coopt during the systole. It is important that the coopting area between the leaflets presents at least 8 mm.

An independent risk factor associated with surgeries for mitral valve repair is annular abscesses. It is possible for pericardial patch or bovine pericardium to be employed for annular reconstruction. For coaptation between the two leaflets, annuloplasty can be performed while the mitral annulus is dilated. However, we chose not to follow this approach for this patient. By conserving subvalvular apparatus, it is possible to preserve left ventricular function and to increase the long-term survival of the patient. In patients with infective endocarditis there is a definite advantage of TEE to provide better visualization of the shape and size of a vegetation, as well as the surrounding tissues, severity of valvar regurgitation, and associated hemodynamics. Therefore, in this case, intraoperatively saline injection through the valves and TEE were performed to assess the adequacy and success of repair.

We infer from the abovementioned case that further emphasis should be placed on preserving the patient's native valve, regardless of the unfavorable clinical and pathological picture that the patient may display. This is especially important in child patients, since mitral repair reduces the risk of thromboembolism, and thereby removes the need for using anticoagulants that are difficult to manage in a pediatric population. Furthermore, an advantage of mitral repair is that it that removes the risk of prosthetic valve endocarditis. On the other hand, difficulties concerning its mechanical use are the potential patient-prosthesis mismatch and the eventual necessity of reoperation due to the child outgrowing the prosthetic valve. Mihaljevic et al. [6] have described patients with advanced endocarditis and annular destruction need to have their prosthesis replaced.

We consider that the percentage of repair can be increased by an active annulus. However, we also consider that the unstable preoperative hemodynamics nevertheless leads immediate valve replacement to be preferred over complicated valve repair for many surgeries, as this approach may have the benefit of shortening the surgery period and increasing the chances for survival.

 

CONCLUSION

Mitral valve repair with autologous tissue is an approach that is likely to yield better surgery and results. Improved late survival, elimination of the necessity for re-operation, and functional outcomes can be achieved by preserving the valve tissue. As such, the case described above demonstrates that valve repair is an alternative approach for the treatment of active infective endocarditis that affects the mitral valve in children.

REFERENCES

1. Iung B, Rousseau-Paziaud J, Cormier B, Garbarz E, Fondard O, Brochet E, et al. Contemporary results of mitral valve repair for infective endocarditis. J Am Coll Cardiol. 2004;43(3):386-92. [MedLine]

2. American College of Cardiology/American Heart Association Task Force on Practice Guidelines; Society of Cardiovascular Anesthesiologists; Society for Cardiovascular Angiography and Interventions; Society of Thoracic Surgeons, Bonow RO, Carabello BA, Kanu C, de Leon AC Jr, Faxon DP, Freed MD, et al. ACC/AHA 2006 guidelines for the management of patients with valvular heart disease: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to revise the 1998 Guidelines for the Management of Patients with Valvular Heart Disease): developed in collaboration with the Society of Cardiovascular Anesthesiologists: endorsed by the Society for Cardiovascular Angiography and Interventions and the Society of Thoracic Surgeons. Circulation. 2006;114(5):e84-231. [MedLine]

3. Carpentier A. Cardiac valve surgery: the "French correction". J Thorac Cardiovasc Surg. 1983;86(3):323-37. [MedLine]

4. Dreyfus G, Serraf A, Jebara VA, Deloche A, Chauvaud S, Couetil JP, et al. Valve repair in acute endocarditis. Ann Thorac Surg. 1990;49(5):706-11.

5. Tenório EM, Moraes Neto F, Chauvaud S, Moraes CR. Experience with the posterior leaflet extension technique for correction of rheumatic mitral insufficiency in children. Rev Bras Cir Cardiovasc. 2009;24(4):567-9. [MedLine] View article

6. Mihaljevic T, Paul S, Leacche M, Rawn JD, Aranki S, O'Gara PT, et al. Tailored surgical therapy for acute native mitral valve endocarditis. J Heart Valve Dis. 2004;13(2):210-6. [MedLine]

Article receive on Tuesday, September 4, 2012

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