ABSTRACT
The case was a 77-year-old woman with a history of coronary artery bypass surgery 9 years earlier. After the surgery, aortic stenosis appeared and gradually progressed. During follow-up, she presented with a high degree of mitral annular calcification (MAC). A mobile verrucous mass in the left ventricle attached to the calcified posterior mitral annulus. We replaced the aortic valve and resected the mass (size, 3×26 mm). The mass with a club-shape was hard but fragile. Pathological examination revealed that it was a calcified substance without cell components covered with a thin membrane. Immunostainings with CD31 and Factor VIII-related antigen, a vascular endothelial cell marker, were both positive. Thus, the resected mass was diagnosed as a detached calcified mitral annulus. In order to avoid embolic events, early resection would be appropriate for an MAC-related mobile mass.
ABSTRACT
Abstract A 68-year-old man previously subjected to radiotherapy had a prior aortic valve replacement due de radiation induced calcification of the aortic valve. Presently the patient developed severe calcification of the mitral valve ring leading to critical mitral valve stenosis. A supra annular implantation of an On X Conform valve was successfully achieved. The clinical course was uneventful, and the echocardiographic evaluation demonstrated a normal function of the valve. Different alternatives for the surgical management of this complication are discussed.
Subject(s)
Humans , Male , Aged , Calcinosis/complications , Heart Valve Prosthesis , Heart Valve Prosthesis Implantation , Mitral Valve Stenosis/surgery , Mitral Valve Stenosis/complications , Calcinosis/surgery , Calcinosis/diagnostic imaging , Echocardiography , Fluoroscopy , Mitral Valve Annuloplasty , Mitral Valve Stenosis/diagnostic imagingABSTRACT
<p>Calcified amorphous tumor (CAT) is a non-neoplastic cardiac mass composed of nodules of calcium with a background of amorphous fibrous material and was first described in 1997. This report describes a 61-year-old man, who had been on hemodialysis for 10 years and was referred to our hospital with a diagnosis of acute myocardial infarction. He had percutaneous coronary intervention (PCI) for stenosis of the left anterior descending artery (LAD). He was hospitalized and under medical treatment. A follow-up echocardiogram was performed and revealed a normal ejection fraction of 0.60. Moderate mitral annular calcification with mild-to-moderate mitral stenosis was seen. An ultrasound-mobile mass was visualized in the left ventricular outflow tract (LVOT). There was no hemodynamic evidence of LVOT obstruction on Doppler echocardiography. Transesophageal echocardiography showed a mobile mass attached to the LVOT in the mitral valve annulus that extended almost to the membranous septum. Due to the mobility of the mass and potential for embolism, surgical removal was advised. Concomitant procedures (coronary artery bypass grafting (CABG) and a full maze operation) were proposed because he still had symptoms of chest pain with myocardial ischemia and palpitations due to chronic atrial fibrillation. Surgery was performed through a median sternotomy on cardiopulmonary bypass. After aortic cross-clamping, the mass was approached through a horizontal incision in the ascending aorta. The white tumor was resected easily from the membranous septum. The operation was finished after CABG and a full maze procedure, and his clinical course was uneventful. Histological examination showed that the tumor contained many calcified nodules and fibrino-sanguineous deposits ; these findings are compatible with CAT.</p>
ABSTRACT
<p>A 79-year-old man, who had undergone aortic valve replacement due to severe aortic stenosis 2.5 years previously and permanent pacemaker implantation for sick sinus syndrome 2 months after aortic valve replacement, was admitted for congestive heart failure and suspicion of prosthetic valve endocarditis. However, he had a fever in spite of medical therapy, and transthoracic echocardiography revealed a 20 mm vegetation on the posterior mitral valve leaflet. He underwent emergency surgery on a diagnosis of infective endocarditis. The intraoperative examination showed annular abscess on the calcified mitral annulus, and a part of abscess had disintegrated, from which the vegetation arose. We performed maximal possible debridement of the infected tissue and mitral annulus reconstruction with a bovine pericardium. Subsequently, mitral valve replacement and annulus reinforcement with a prosthetic valve collared with a bovine pericardium were performed to prevent perivalvular leakage. The patient showed no recurrence of infection and perivalvular leakage at 1.5 years of follow-up.</p>
ABSTRACT
Caseous calcification of mitral annulus is a rare disease characterized by tumors of the mitral cusps. Operative case reports, however, are rare because this lesion seldom negatively affects hemodynamics. We encountered a 67-year-old female case of mitral regurgitation with caseous calcification of mitral posterior annulus due to ischemic heart disease and performed mitral valve replacement and CABG. The excision of the mitral thickened lesion resulted in a defect of the mitral annulus, which needed to be repaired with an autologous pericardial patch. We mainly report the intraoperative findings of this case.
ABSTRACT
Background: Mitral annular calcification (MAC) is degenerative, fibrous calcification of the mitral valve annulus. It is more common in people over 70 years old. It is a marker of increased cardiovascular risk which occurs in a graded fashion by MAC severity. The aim of this study was to evaluate the association of Mitral annular calcification with severity of coronary artery disease (CAD) in patients under 65 years old. Methods: A total of 140 patients with IHD were enrolled by purposive sampling. Study populations were divided into MAC group and non MAC group. MAC was detected by Trans-thoracic echocardiography as an intense echo-producing structure located at the junction of the atrio-ventricular groove and posterior mitral leaflet in parasternal long axis view. MAC is measured in millimeters from the leading anterior to the trailing posterior edge and quantified as mild to moderate (1 to 4 mm) and severe (>4 mm) considering its thickness. Assessment of angiographic severity of CAD was done in the same hospital stay by Vessel score, Friesinger score and Leaman score. Results: Patients of MAC and non MAC groups were similar in terms of age and sex. Smoking (p=0.001) and family history of IHD (p=0.03) were significantly higher in MAC group. Anterior MI was significantly higher in MAC group (p=0.03). Left main and TVD were significantly higher in MAC group (p=0.001, p=0.01) whereas normal vessels were more in non MAC group (p=0.001). Intermediate and high Friesinger score (e”5) were significantly higher in MAC group whereas low Friesinger score (<5) were more in non MAC group. There was significant (p=0.01) positive correlation between MAC and CAD severity in terms of vessel score (r=0.76) Friesinger score (r=0.75) and Leaman score(r=0.42). Multivariate logistic regression analysis showed that MAC was independent predictors of significant CAD (p=0.02, OR= 2.84). Conclusion: Echocardiographically detected mitral annual calcification (MAC) can be an independent predictor of significant coronary artery disease. There is positive correlation between severity of MAC and severity of CAD. Cheap, available and radiation free nature of the echocardiographic detection of MAC may be a marker of significant CAD.
ABSTRACT
Extensive calcification of the mitral annulus presents a formidable technical challenge to surgeons and increases the risk of serious complications such as intractable hemorrhage, atrioventricular disruption, and ventricular rupture during mitral valve surgery. We present a case of aortic and mitral valve replacements for a patient with extensive calcification of an intervalvular fibrous body. A 76-year-old woman was admitted with dyspnea on effort, leg edema and syncope. Transthoracic echocardiography showed severe aortic stenosis, and mitral stenosis with regurgitation, and extensive mitral annular calcification. Decalcification was performed with CUSA and we selected a trans-aortic-valve approach for decalcification of the intervalvular fibrous body. The calcification was left to a certain extent in order to preserve annular strength. Postoperative echocardiography showed no perivalvular leakage from either prostheses. The patient was transferred to a local hospital for further rehabilitation.
ABSTRACT
A 69-year-old woman had syncope and aphasia. Magnetic resonance imaging showed multiple cerebral infarctions in both hemispheres. Cardiogenic embolisms were suspected, but no arrhythmic causes were shown. Transesophageal echocardiography revealed a highly calcified mitral annulus (MAC) with a rough intraluminal surface and mild mitral regurgitation, but no thrombus or tumor in the left heart system. However, recurrent multiple cerebral embolisms occurred in spite of strict anticoagulation therapy. We speculated that spontaneous rupture of the MAC was the cause of the scattered cerebral embolisms, and we therefore planned to remove the MAC as safely as possible and to endothelialize the deficit of MAC with autologous pericardium. Operative findings revealed that the MAC in P2-P3 had ruptured longitudinally and the ostium of the left atrium was connected to the ostium of the left ventricle as an inter-atrioventricular tunnel beneath the posterior mitral annulus with a fragile calcified wall. The finding suggested that calcified particles that had peeled away from the MAC by normal heart beating resulted in the cerebral infarctions. Therefore, she underwent resection of the MAC and mitral valve replacement with reinforcement of the decalcified posterior mitral annulus between the posterior left ventricular wall and the left atrial wall using autologous pericardium, which enabled both appropriate insertion of a mechanical prosthetic valve and endothelial continuity covering the surface of the residual MAC. No systemic embolism has occurred for two and a half years after surgery. This is the first case report of cerebral embolism caused by a spontaneously ruptured MAC.
ABSTRACT
We report a case of a caseous calcification lesion originating from a calcified anterior mitral annulus. A 59-year-old woman on chronic hemodialysis was referred to our hospital due to an elevated brain natriuretic peptide value. Transthoracic echocardiography demonstrated moderate aortic valve stenosis with regurgitation and a pendulous mass in the left ventricular outflow tract, and therefore we perfomed. The patient underwent resection of the mass with aortic valve replacement. Pathological examination of the mass revealed interstitial calcium deposits but without tumors or inflammatory cells. We speculated that the cardiac mass was caseous calcification which originated from a severely calcified mitral annulus based on its echocardiographic and pathological features.
ABSTRACT
A 79-year-old man developed congestive heart failure. He was given a diagnosis of severe mitral regurgitation with calcification of the posterior mitral annulus and secondary tricuspid regurgitation. He had a history of esophageal resection with retrosternal gastric tube reconstruction about 20 years previously. We replaced the mitral valve with a mechanical prosthesis and performed tricuspid ring annuloplasty through a right parasternal approach. We did not risk resecting the calcified annulus, but fixed the prosthesis and annulus with the equine pericardium in between as a cushion and collar, to prevent perivalvular leakage. The postoperative course was uneventful.
ABSTRACT
Abstract Mitral annular calcification (MAC) and aortic valve alcification (AVC) are the most common valvular and perivalvular bnormalities in patients with chronic kidney disease (CKD). Both MAC and AVC occur at a younger age in CKD patients than in the general population. AVC progresses to aortic stenosis and mild aortic stenosis progresses to severe aortic stenosis at a more rapid rate in patients with CKD than in the general population. The use of calcium-free phosphate binders in such patients may reduce the calcium burden in valvular and perivalvular tructures and retard the rate of progression of aortic stenosis. Despite high rates of morbidity and mortality, the prognosis associated with valve surgery in patients with CKD is better than without valve surgery. Infective endocarditis remains an important complication of CKD, particularly in those treated with hemodialysis.
ABSTRACT
A 51-year-old woman with a 12-year history of chronic hemodialysis and secondary hyperparathyroidism suffered dyspnea induced by massive mitral regurgitation due to severe circular mitral annular calcification. Her anterior mitral leaflet was resected and successfully replaced with a 25mm SJM valve in the supra-annular position. The posterior leaflet was heavily calcified and adhered to the left ventricle. The flangeless prosthesis was directly implanted into the left atrial wall on the calcified annulus. Postoperative cine fluoroscopy and echocardiography showed good hemodynamic performance of the prosthesis without perivalvular leakage. In cases of mitral annular calcification due to chronic renal failure, the SJM valve is a more suitable valve prosthesis for replacement of the mitral valve in the supra-annular position. Supra-annular mitral valve replacement without a flange may give superior valve-performance compared to valves with a flange considering thrombogenicity and left ventricular function. However, we may still have to consider the indication of a supra-annular mitral valve replacement with a flange in cases with wide mitral annular calcification in the giant left atrium.