Aneurysm of the mitral-aortic intervalvular fibrosa (MAIF) is an exceptionally rare but a potentially catastrophic complication, commonly following aortic valve endocarditis. We present a 24-year-old male presenting with acute onset dyspnea secondary to MAIF aneurysm rupturing into a left atrium causing large shunt which was diagnosed on echocardiography. The MAIF aneurysm in the absence of infective endocarditis rupturing into left atrium is extremely rare.
How to cite this article: Moorthy N, Kumar S, Tewari S, Kapoor A, Sinha N. Mitral-aortic intervalvular fibrosa aneurysm with rupture into left atrium: An uncommon cause of acute dyspnea. Heart Views 2012;13:13-5
How to cite this URL: Moorthy N, Kumar S, Tewari S, Kapoor A, Sinha N. Mitral-aortic intervalvular fibrosa aneurysm with rupture into left atrium: An uncommon cause of acute dyspnea. Heart Views [serial online] 2012 [cited 2023 Mar 30];13:13-5. Available from: https://www.heartviews.org/text.asp?2012/13/1/13/96662
Introduction
Pseudoaneurysm of the mitral-aortic fibrosa (PMAF) or intervalvular fibrosa is an uncommon condition, consisting of a pulsatile cavity in the mitral-aortic junction communicating with the left ventricular outflow tract (LVOT). The most frequent cause is aortic valve endocarditis, particularly in prosthetic valves. [1,2] When intervalvular fibrosa pseudoaneurysm communicates to both the left ventricle (LV) and left atrium (LA), eccentric jet flow from the anterior to posterior mitral annulus may occur during systole and mimic mitral regurgitation due to perforation in the anterior leaflet.
Case Presentation
A 24-year-old male was referred to our emergency room with a history of acute dyspnea of 2 days duration associated with orthopnea. At admission, he had NYHA class IV dyspnea. He had no history of prolonged fever, cough, or chest pain. On physical examination, his blood pressure was 100/60 mmHg and heart rate was 112/min. Examination of the lungs and heart revealed extensive crackles, grade 4/6 pan systolic murmur at the apex and gallops. Abdominal examination was within normal limits. No skin lesions were noted and the extremities did not show any peripheral edema. There was no clinical evidence of acute rheumatic activity or infective endocarditis. Electrocardiography showed sinus tachycardia. The chest X-ray showed mild cardiomegaly with a cardiothoracic ratio of 0.55 with evidence of pulmonary edema. Routine blood investigations were within a normal range. The erythrocyte sedimentation rate (ESR) was 35 mm at 1 h. The C-reactive protein (CRP) level was 2.2 mg/dl and antistreptolysin O (ASLO) titer was normal.
Two-dimensional transthoracic echocardiogram (TTE) demonstrated a false aneurysm-like structure in the MAIF at the LVOT [Figure 1], [Video 1]. It also demonstrated the neck of pseudoaneurysm communicating with the LVOT and also a defect in the aneurysmal wall communicating with the LA. The LA and LV were dilated. There was no echocardiographic evidence suggestive of rheumatic heart disease or infective endocarditis. Color Doppler examination showed a communication between the echo-free space and LVOT and a turbulent flow through the defect in the aneurysmal wall into the LA [Figure 2], [Video 2] suggestive of supra-annular mitral regurgitation. Patient also had mild mitral valvular regurgitation. Cardiac systolic functions were normal. The mitral, aortic valve, and tricuspid valves were normal and there were no vegetations over mitral or aortic valves and no annular abscess. The diagnosis of a pseudoaneurysm of the MAIF was confirmed using transesophageal echocardiography (TEE). It demonstrated a large pseudoaneurysm of MAIF measuring 3.0 x 4.2 cm communicating with the LVOT through a narrow neck [Figure 3], [Video 3] and also rupture in its wall [Figure 4], [Video 4] resulting in communication between the LVOT and LA causing a large shunt. Serial blood cultures were class II symptoms at discharge.
Figure 1: Transthoracic echocardiography in a parasternal long-axis view showing an aneurismal sac posterior to aorta (arrow)
Figure 2: Transthoracic echocardiography in an apical four-chamber view showing an aneurismal sac in LA with rupture (arrow) into LA with color Doppler showing a turbulent jet resulting in supra annular MR and valvular MR
Figure 4: Transesophageal echocardiography in four chamber view showing aneurismal sac in MAIF with rupture (arrow) into LA with color Doppler showing a turbulent jet resulting in supra-annular MR
MAIF is the junction between the left half of the non-coronary cusp and the adjacent third of the left coronary cusp of the aortic valve and the anterior mitral leaflet. [3],[4] Pseudoaneurysm of the MAF is a rare but potentially life-threatening complication of aortic valve endocarditis, aortic valve surgery, or chest trauma. [2],[5] Aortic valve endocarditis is usually the main reason that predisposes the MAIF to perforate and form a pseudoaneurysm. Both direct extension of the infection from the aortic wall and the aortic jet striking the subaortic structures and anterior mitral leaflet may damage and infect the MAIF. [1] The relatively avascular tissue of this region contributes to the extension of infection and subsequent distortion.
Rupture of an MAIF pseudoaneurysm may give rise either to a pericardial tamponade, an eccentric jet of mitral regurgitation, or a direct communication between the LVOT and the LA. [1] In some instances, the pseudoaneurysm remains intact and progressive enlargement may compress the coronary arteries causing symptomatic coronary obstruction. [6],[7],[8] These false aneurysms are prone to rupture, embolize, or even cause further destruction of the aortic or mitral valve apparatus. [2],[9] When the pseudoaneurysm communicates with the ascending aorta or LV or LA; it may present as heart failure with a clinical picture similar to that of aortic or mitral regurgitation, respectively. Karalis and colleagues [1] described 24 (44%) complications involving 55 consecutive cases of aortic endocarditis, including 8 abscesses and aneurysms in interfibrosa, 7 interfibrosa perforations into the adjacent LA, and 9 anterior mitral aneurysms and perforations. However, in the present case, there was no evidence of the above-mentioned risk factors.
TEE is known to be superior to TTE in the visualization of valvular vegetations, abscesses, and other complications in patients with infective endocarditis. [10] TTE may show the aneurysm located behind the aortic root by the occurrence of systolic expansion and diastolic collapse seen by echocardiography. This should be differentiated from a typical aortic ring abscess which does not show this phenomenon. Color flow imaging is helpful in confirming this phenomenon. Both TTE and TEE can detect a pseudoaneurysm of the MAIF with sensitivity rates of 43% and 90%, respectively. [2] 3D echocardiography may provide excellent three-dimensional anatomical information and also help in guiding the appropriate surgical therapy.
The recommended treatment for PMAF is surgery even in asymptomatic patients [2] in order to prevent the development of complications. Resection and repair of the defect [11],[12] can be done with or without aortic valve replacement or homograft replacement of the aortic root. [2] When there is coronary involvement, a bypass may be necessary. [10],[13] Surgery for this condition is technically complex since patients often have a background of prior surgery; hence the associated morbidity and mortality are not negligible. If the anatomy of the MAIF aneurysm is suitable even percutaneous device closure of the aneurysm can be an option. [14]
To the best of our knowledge, it is rare for MAIF aneurysm to develop in the absence of aortic valve disease, infective endocarditis, prosthetic aortic valve, or trauma.
Conclusion
MAIF aneurysm even though commonly associated with aortic valve endocarditis may occur in isolation. MAIF aneurysm can rupture into LA and can result in large LV to left atrial shunt. Both TTE and TEE are quite sensitive in identifying the relationship as well as complication resulting from rupture into surrounding structures, and also help in guiding the appropriate surgical therapy.
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