Introduction

Paraprosthetic regurgitation occurs in approximately 7%–17% of patients undergoing mitral valve replacement and 2%–10% of patients undergoing aortic valve replacement¹1. Kliger C, Eiros R, Isasti G, Einhorn B, Jelnin V, Cohen H, et al. Review of surgical prosthetic paravalvular leaks: diagnosis and catheter-based closure. Eur Heart J. 2013;34(9):638-49.^,22. Hammermeister K, Sethi GK, Henderson WG, Grover FL, Oprian C, Rahimtoola SH. Outcomes 15 years after valve replacement with mechanical versus a bioprostetic valve: final report of the Veterans Affairs randomized trial. J Am Coll Cardiol. 2000;36 (4):1152-8.. Typically, this regurgitation is discrete and does imply major clinical complications; however, when it is moderate or severe, the consequences can be serious, leading to heart failure and/or hemolysis³3. Kim MS, Casserly IP, Garcia JA, Klein AJ, Salcedo EE, Carroll JD. Percutaneous transcatheter closure of prosthetic mitral paravalvar leaks: are we there yet? JACC Cardiovasc Interv. 2009;2(2):81-90.^,44. Buellesfeld L, Meier B. Treatment of paravalvular leaks through interventional techniques. Multimed Man Cardiothorac Surg. 2011;2011(924):mmcts.2010.004895.. It is estimated that approximately 1%–5% of cases develop to more clinically severe conditions¹1. Kliger C, Eiros R, Isasti G, Einhorn B, Jelnin V, Cohen H, et al. Review of surgical prosthetic paravalvular leaks: diagnosis and catheter-based closure. Eur Heart J. 2013;34(9):638-49.^,44. Buellesfeld L, Meier B. Treatment of paravalvular leaks through interventional techniques. Multimed Man Cardiothorac Surg. 2011;2011(924):mmcts.2010.004895.. The main causes of paraprosthetic regurgitation are calcification of the valvular annulus, infection, suture technique, and size and shape of the prosthesis¹1. Kliger C, Eiros R, Isasti G, Einhorn B, Jelnin V, Cohen H, et al. Review of surgical prosthetic paravalvular leaks: diagnosis and catheter-based closure. Eur Heart J. 2013;34(9):638-49.^,55. Sampaio RO, Silva FC Jr, Oliveira IS, Padovesi CM, Soares JA, Silva WM, et al. Evolução pós-operatória de pacientes com refluxo protético valvar. Arq Bras Cardiol. 2009;93(3):283-9..

Usually, surgical treatment is considered as the first treatment option for symptomatic patients⁴4. Buellesfeld L, Meier B. Treatment of paravalvular leaks through interventional techniques. Multimed Man Cardiothorac Surg. 2011;2011(924):mmcts.2010.004895.. In 1992, however, an alternative treatment via percutaneous occlusion of the paravalvular orifice was proposed for cases in which the patient faces high risk from surgical treatment⁶6. Hourihan M, Perry SB, Mandell VS, Keane JF, Rome JJ, Bittl JA, et al Transcatheter umbrella closure of valvular and paravalvar leaks. J Am Coll Cardiol. 1992;20(6):1371-7.

7. Ruiz CE, Cohen H, Del Valle-Fernandes R, Jelnin V, Perk G, Kronzon I. Closure of prosthetic paravalvular leaks: a long way to go. Eur Heart J Suppl. 2010;12(Suppl E):E52-62.^-88. Ruiz CE, Jelin V, Kronzon I, Dudy Y, Del Valle-Fernandez R, Einhorn BN, et al. Clinical outcomes in patients undergoing percutaneous closure of periprosthetic paravalvular leaks. J Am Coll Cardiol. 2011;58(21):2210-7..

Case Report

A 70-year-old male patient received a mechanical mitral prosthesis implant in 2002 during his fourth heart surgery. At that time, the patient presented multiple postoperative complications: septic shock requiring high doses of vasoactive medications, acute renal failure and atrial fibrillation, and prolonged hospitalization. After this period, the patient made good progress and had no limitations on daily activities, until 3 years previously, when he began to experience recurrent hematuria due to intravascular hemolysis. The patient was clinically followed until June 2012, when the hemolysis markedly worsened, in association with heart failure up to functional class III [New York Heart Association (NYHA)]. On physical examination, there was a regurgitant systolic murmur +++/4 in the mitral area and crackle at the base of the lungs.

Laboratory examinations showed the following: lactate dehydrogenase (LDH) 3256 U/L [reference value (RV): 85‑227 U/L], haptoglobin 0.2 g/L (RV: 0.3–2.0 g/L), hemoglobin (Hb) 7.3 g/dL (RV: 13.0–18.0 g/dL), hematocrit (Hct) 22% (RV: 40.0-52.0%), and hemoglobinuria. Two‑dimensional transesophageal echocardiography demonstrated the mechanical prosthesis with normal mobility for its elements as well as moderate/significant periprosthetic regurgitation (Figures 1A and B) associated with maximum LA–LV diastolic gradient estimated at 13 mmHg (average, 4 mmHg). The valve area was estimated at 3.2 cm². Because of the difficulty in accurately determining the size of the regurgitant orifice and subsequently choosing the best occlusion device, we performed three-dimensional transesophageal echocardiography. This technique identified both anterior and posterior periprosthetic insufficiency: anterior gap of 22 mm along the long axis and posterior gap of approximately 12 mm (Figure 1C). Because of the risk of many postoperative complications (as in 2002) and the high surgical risk associated with a fifth heart surgery, in a joint decision along with the patient and family, we opted for percutaneous treatment.

Treatment

Two percutaneous devices, “Duct Occluder 8 mm × 6" and “5 mm VSD," were implanted, with a significant reduction in postimplant regurgitation (there was a decrease of approximately 70% in the anterior orifice) (Figure 2). A second 3D echocardiography (Figure 1D) was performed 45 days after the procedure and demonstrated good positioning of the occlusion devices and minimum residual paraprosthetic reflux. Six months after the procedure, the patient presented with a second-degree atrioventricular block, Mobitz II, and two episodes of presyncope; a DDD pacemaker was implanted. The patient improved to functional class I (NYHA). Physical examination at this time showed a slight systolic murmur of mitral regurgitation (+/4) and improved laboratory results (LDH 728 U/L, Hb 10.5 g/dL, Hct 32.3%).

Discussion

Paraprosthetic reflux is a significant complication of valve replacement surgery. Percutaneous closure of a paraprosthetic orifice is now considered a safe procedure, providing an alternative to surgery in patients with a high surgical risk. However, there are still few reports of percutaneous intervention in patients with paraprosthetic regurgitation.

In 2006, Pate et al.⁹9. Pate GE, Al Zubaidi A, Chandavimol M, Thompson CR, Munt BI, Webb JG. Percutaneous closure of prosthetic paravalvular leaks: case series and review. Catheter Cardiovasc Interv. 2006;68(4):528-33. published a study of 10 patients who were not candidates for surgery and underwent percutaneous closure of mitral paravalvular leak; this author noted a 70% success rate for this procedure, associated with clinical improvement. However, four patients required a second intervention.

In 2011, Sorajja et al.¹⁰10. Sorajja P, Cabalka AK, Hagler DJ, Rihal CS. Percutaneous repair of paravalvular prosthetic regurgitation: acute and 30-day outcome in 115 patients. Circ Cardiovasc Interv. 2011;4(4):314-21. published a study of 115 patients who underwent the percutaneous procedure, with technical success in 77% of cases and clinical improvement in 67%. The total number of complications 30 days after the procedure was 8.7%: death in two cases (1.7%), stroke in three cases (2.6%), vascular complications in one case (0.9%), hemothorax in four cases (3.5%), and emergency surgery in one case (0.9%).

In addition, in 2011, Ruiz et al.⁸8. Ruiz CE, Jelin V, Kronzon I, Dudy Y, Del Valle-Fernandez R, Einhorn BN, et al. Clinical outcomes in patients undergoing percutaneous closure of periprosthetic paravalvular leaks. J Am Coll Cardiol. 2011;58(21):2210-7. showed that in retrospective analysis of 43 patients, procedural success was observed in 86% of cases and clinical improvement was observed in 77%.

In this present case, 6 months after percutaneous treatment, the patient developed atrioventricular block and required a pacemaker. After an extensive review of the literature, we found no reports of second-degree atrioventricular block as a late complication of percutaneous closure of the paraprosthetic mitral valve orifice¹1. Kliger C, Eiros R, Isasti G, Einhorn B, Jelnin V, Cohen H, et al. Review of surgical prosthetic paravalvular leaks: diagnosis and catheter-based closure. Eur Heart J. 2013;34(9):638-49.. Even in the aortic position, where it may be more common considering the anatomy of the conduction system, there are no reports of this complication. The risk of this event (late implant pacemaker for AVB) seems to have been random, particularly in closing the paraprosthetic mitral orifice; however, it cannot be ruled out. Nevertheless, the fact the pacemaker was implanted 6 months after the procedure is also relevant, which in our view leaves it unclear whether a possible complication exists and is yet to be described. Therefore, this event should be noted and followed in the literature.

Therefore, we conclude that a percutaneous procedure to correct paraprosthetic regurgitation is feasible in patients with a high surgical risk and has a significant clinical impact.

References

Publication Dates

History