Objective : To investigate the surgical outcomes of left ventricular free wall rupture (LVFWR) and ventricular septal perforation (VSP) in terms of mechanical complications following acute myocardial infarction (AMI). Methods : Subjects comprised 26 patients (male : 12, female : 14, mean age : 74 years) who underwent surgery between 2001 and 2012. The LVFWR type was blowout in 2 cases and oozing in 5 cases. Immediately after diagnosis, 4 cases underwent intra-aortic balloon pumping (IABP) and 2 cases received extracorporeal membrane oxygenation (ECMO). LVFWR was repaired by suture and patch closure in 5 patients and by TachoComb in 2 patients. VSP was caused by anterior infarction in 15 cases and inferior infarction in 5 cases. IABP was inserted in 16 cases. VSP was repaired by the infarct exclusion technique in 17 patients, while 2 patients underwent suture or patch closure. Results : The operative mortality rate was 14.3% for LVFWR and 15.8% for VSP. The cause of operative death in 1 patient with blowout type LVFWR who was in a state of cardiopulmonary arrest on arrival, was low cardiac output syndrome (LOS). The causes of operative death in VSP included 2 patients with LOS and 1 patient who died suddenly 8 days postoperatively due to ventricular fibrillation. Two VSP patients underwent repeat surgery for residual shunt. The five-year Kaplan-Meier survival rates were 85% for LVFWR and 62% for VSP. Of 20 patients who received IABP preoperatively, the time from confirming LVFWR or VSP diagnosis after admission to IABP initiation was 103±45 (48-120) min in the survival group (n=17) and 259±174 (122-455) min in the operative mortality group (n=3). A significant difference was observed between the two groups (p=0.04). Conclusion : Therapeutic strategies including rapid diagnosis after admission, early insertion of IABP, and prompt surgery could improve the prognosis for patients with LVFWR and VSP following AMI.

A 24-year-old woman, under the treatment for atypical depression, visited our emergency room on foot with a chief complaint that she stabbed herself in the chest with a sewing needle. Chest X-ray and plain CT showed the needle penetrating the chest into the heart. There was no sign of pneumothorax or cardiac tamponade. She was hemodynamically stable. Echocardiography revealed atrial septal defect (ASD) by chance. We performed urgent surgery for needle removal and ASD closure through median sternotomy. The needle was easily recognized near the right ventricle apex. The right atrium was opened, but the needle was not seen through the tricuspid valve because of trabecular formation. After the needle was removed, ASD was closed using the direct suture method. The needle was 35 mm long. She was transferred to the psychiatry department on postoperative day 4 and had a good postoperative course.

The main objective of this study was to describe the long-term results of left internal thoracic artery grafting of the left anterior descending artery with a sternotomy or anterior minithoracotomy without using extracorporeal circulation. From March 1997 to February 2000, a median sternotomy was performed in 8 patients and a minithoracotomy in 22 patients. We compared and analyzed the findings of these groups. An emergency operation was performed in 75% of the patients in the median sternotomy group and in 27.3% of those in the minithoracotomy group (p=0.03). The operation time was 2.1h in the median sternotomy group and 3.9h in the minithoracotomy group (p<0.01). The early graft patency rate was 100% in the median sternotomy group and 90.4% in the minithoracotomy group (NS). The five-year actuarial survival rate was 100% in the median sternotomy group and 86.4% in the minithoracotomy group. The five-year cardiac event free rate was 100% in the median sternotomy group and 86.4% in the minithoracotomy group. In conclusion, the results for the median sternotomy group were comparatively better than for minithoracotomy group. Minithoracotomy and median sternotomy have differences in operation time, early graft patency and early outcome. The median sternotomy technique therefore remains an invaluable operative modality for the treatment of one-vessel disease.

Calcified amorphous tumor (CAT) is a non-neoplastic mass characterized by calcified nodules that was first reported in 1997. It is often associated with dialysis or mitral annular calcification (MAC). CAT is considered a risk factor for systemic embolism, but there has been no report of CAT damaging the native valve tissue and leading to valvular disease. An 81-year-old woman had shortness of breath on exertion starting 1 year previously, and was referred to our hospital with cardiac murmur detected on physical examination. Echocardiography showed evidence of severe mitral valve regurgitation with ruptured chordae tendineae of the posterior leaflet and a poorly mobile club-shaped structure protruding into the left ventricle and appearing to be continuous with MAC. She underwent elective mitral valve repair. A club-shaped calcification originating from MAC was found under the P2 segment, with ruptured P2 chordae tendineae immediately above it and mitral perforation in the contralateral A2 segment, which were likely to have resulted from direct damage by the hard structure. Mitral valve repair was successful with mass resection, triangular resection of the posterior leaflet P2 segment, and closure of the perforation. Histopathological findings of the mass were consistent with CAT, with no evidence of infection or malignancy. CAT may not only cause embolism but also grow while damaging the native valve tissue. It is important to closely follow-up and perform surgery in proper timing.

Here, we report a rare case in which the inlet pressure of the oxygenator increased three times in two operations, even though two different types of oxygenators were used. A 45-year-old man underwent mitral valve repair owing to posterior cusp (P2) prolapse. Immediately after median sternotomy, the patient went into anaphylactic shock. We immediately started cardio-pulmonary bypass. The inlet pressure in company A's oxygenator increased, and the oxygenator was immediately replaced with the same type of oxygenator. However, the same occurred, and the oxygenator was exchanged for one made by company B. Thereafter, the operation was completed without further oxygenator problems.Fifty-five days after the initial surgery, a second operation was performed to repair a pseudoaneurysm at the root vent cannulation site. After induction of general anesthesia, the patient went into anaphylactic shock, as before, but circulation was maintained. Cardio-pulmonary bypass was started using company B's oxygenator, as it gave no problems at the previous surgery. However, it had to be exchanged owing to inlet pressure elevation. Thereafter, cardio-pulmonary bypass was maintained without pressure elevation, and the operation was completed. The reasons for the inlet pressure elevations are unclear.