1.A Case Report on Extended Hemiarch Repair for Stanford Type A Aortic Dissection.
Arifumi TAKAZAWA ; Koki TSUCHIDA ; Akimasa HASHIMOTO
Japanese Journal of Cardiovascular Surgery 1993;22(2):131-134
We performed a surgical correction on a 53-year-old male patient, who had suffered from Stanford type A aortic dissection. The thoracic aorta was dilated along its whole length. Under retrograde cerebral perfusion, the correction consisted of extended Cooley's hemiarch repair and the closure of the tear, which was an entry into the pseudolumen of the descending thoracic aorta. The postoperative course was uneventful except a temporary DIC due to extensive thrombosis of the pseudolumen of the descending thoracic aorta. We think that the second operation of the descending thoracic aorta is unneccesary. Although the staged operation is generally approved for broad Stanford type A aortic dissection, we succeeded in a clinically curative one-staged operation using extended Cooley's hemiarch repair only with a median sternotomy.
2.Intermediate Results of Translocation of the Aortic Valve for Periannular Abscess Due to Active Infective Endocarditis and Introduction of a Sutureless Translocation Technique.
Shintaro NEMOTO ; Masahiro ENDO ; Hitoshi KOYANAGI ; Masaya KITAMURA ; Mitsuhiro HACHIDA ; Hiroshi NISHIDA ; Kiyoharu NAKANO ; Akimasa HASHIMOTO
Japanese Journal of Cardiovascular Surgery 1993;22(5):399-403
Periannular abscess and mycotic aneurysm due to infective endocarditis are very difficult conditions to treat surgically. Beginning in 1983, we introduced a translocation technique on 9 such cases. In particular, 7 patients who underwent a new sutureless translocation technique all showed an uneventful course and were discharged. There was no hospital death, but four patients died in the late period (2 heart failure, 1 ventricular tachycardia and 1 thrombotic valve). The sutureless translocation method consists of insertion of a composite valve into the ascending aorta (a ring was detached from an intraluminal ringed graft and a prosthetic valve was sutured to it at that point) and coronary artery bypass grafting to the right and left coronary arteries. Our new technique was simple, required only a short aortic clamping time (mean 173.9min) and there was no significant bleeding. This new translocation technique provides a solution for the treatment of periannular abscess and mycotic aneurysm due to infective endocarditis.
3.A Case of Catastrophic Pulmonary Bleeding That Occurred after Extensive graft Replacement of the Ascending, Transverse Aortic Arch and the Descending Thoracic Aorta.
Koki Tsuchida ; Akimasa Hashimoto ; Shigeyuki Aomi ; Touitsu Hirayama ; Masahiro Endo ; Hitoshi Koyanagi
Japanese Journal of Cardiovascular Surgery 1994;23(3):179-185
This report describes 5 patients in whom extensive graft replacement was performed using a combination of median sternotomy with antero- or postero-lateral thoracotomy: 3 of them received replacement from the ascending to the descending thoracic aorta through the transverse aortic arch, and 2 of them received replacement from the transverse aortic arch to the descending thoracic aorta. Four of the 5 patients had catastrophic pulmonary bleeding during surgery and died immediately after the surgery. Histological investigations on 3 of the 5 patients revealed the presence of bleeding in bilateral alveola; edema in the pulmonary parenchymal tissues; and heavy bleeding extensively in the lung which was especially intensive in the pulmonary hilum and caused necrosis of that region in one case. We presume that long periods of total heparinization (extracorporeal circulation time>240min) performed during lateral thoracotomy, were the most important cause of the pulmonary bleeding. Other factors that could cause pulmonary bleeding are (i) avoidance of use of a double lumen endotracheal tube, (ii) pulmonary congestion due to heart failure during surgery, and (iii) pulmonary injury caused by surgical manipulation. We therefore consider that extensive graft replacement of the thoracic aorta through lateral thoracotomy using a pump-oxygenator, is associated with a high risk of pulmonary bleeding when it takes longer than 240min, and it is essential to perform the graft replacement in the possible shortest time.
4.Effectiveness of Left Heart Bypass Combined with Oxygenation in the Surgical Treatment of Thoracoabdominal Aortic Aneurysm.
Arifumi Takazawa ; Akimasa Hashimoto ; Shigeyuki Aomi ; Hideaki Nakano ; Osamu Tagusari ; Fumitaka Yamaki ; Hiroyuki Sakahashi ; Hitoshi Koyanagi
Japanese Journal of Cardiovascular Surgery 1997;26(2):96-100
The surgical results of 9 patients (group II) who were treated for thoracoabdominal aneurysm using left heart bypass combined with oxygenation were compared to those of 16 patients (group I) using left heart bypass without oxygenation. The left heart bypass time in group II was longer than that in group I, and the operations performed in group II were more extensive with more intercostal and lumbar arteries being reconstructed than those in group I. Nevertheless, bleeding associated with transfusion was less in group II than in group I. Intraoperatively, hypothermia and hypoxemia developed in 44% and 31%, respectively of group I, whereas neither of these conditions occurred in group II. There were three operative deaths in group I, compared with one in group II. Paraplegia was encountered in one patient of group I, but in none of the patients in group II. There were a few patients with respiratory failure or other organ failures in both groups. Our results showed that left heart bypass combined with oxygenation offered more stable and effective respiratory as well as circulatory support for a long duration compared to conventional left heart bypass without oxygenation in the surgical treatment of thoracoabdominal aortic aneurysm.
5.Surgical Treatment for Ruptured Abdominal Aortic Aneurysm.
Takahiko Sakamoto ; Shigeyuki Aomi ; Arifumi Takazawa ; Mizuho Imamaki ; Hitoshi Koyanagi ; Akimasa Hashimoto
Japanese Journal of Cardiovascular Surgery 1998;27(1):19-23
Forty-four cases of ruptured abdominal aortic aneurysm were treated between January 1980 and December 1995. We classified the cases into three groups: Group I, 1980-1984; Group II, 1985-1989; and Group III, 1990-1995 and evaluated the surgical results, the preoperative states, the bleeding and blood transfusion volume and so on. The surgical results have improved every year and there were no surgical deaths during the past seven years. Most of the causes of previous surgical deaths were DIC (4 cases) and renal failure (3 cases). The volume of intraoperative bleeding was 7227.3±3293.4ml in Group I, 4176.0±2577.9ml in Group II and 1781.9±1877.0ml in Group III. The volume of intraoperative blood transfusion was 6975.5±2711.6ml in Group I, 4826.7±2596.6ml in Group II and 3542.4±1561.5ml in Group III. We decreased the volume of intraoperative blood transfusion significantly in Group III by using a Cell Saver. The surgical results have improved significantly due to the decrease of bleeding and blood transfusion under the rapid control of bleeding and the autotransfusion of shed blood using the Cell Saver. The technique of postoperative care also contributed to the more satisfactory results.
6.Sternotomy Approach in a Case of Giant Ascending Aortic Aneurysm and Annuloaortic Ectasia Previously Operated for Pure Pulmonary Stenosis.
Hiroyuki Tsukui ; Shigeyuki Aomi ; Toshio Kurihara ; Goro Ohtsuka ; Masaya Kitamura ; Hitoshi Koyanagi ; Akimasa Hashimoto
Japanese Journal of Cardiovascular Surgery 1998;27(1):67-70
A 29-year-old man, who had undergone valvotomy for pure pulmonary stenosis at 6 months of age, was admitted to our institution for surgical treatment of a giant ascending aortic aneurysm and annuloaortic ectasia. Chest MRI revealed a 14-cm ascending aneurysm in contact with the sternum. After establishing femoro-femoral bypass for hypothermia, a left lateral thoracotomy was perfomed at the 4th intercostal space. Pulmonary artery cannulation was performed for left heart venting, and the proximal aortic arch was dissected for aortic cross-clamping. Median sternotomy was performed under circulatory arrest at 18°C and the aortic arch was opened. Under retrograde cerebral perfusion, the proximal arch was replaced by an artificial graft, and then aortic root replacement was completed using a composite graft under CPB. The postoperative course was uneventful, and the patient was discharged on the 37th postoperative day. He has been well without any complications. This case suggests that our method of approach to the giant aortic aneurysm with sternal adhesion and aortic regurgitation, and the use of extracorporeal circulation in view of the annuloaortic ectasia is effective and safe in case of reoperation.
7.Composite Graft Replacement of the Aortic Root Using a New St. Jude Medical Aortic Valve Graft Prosthesis
Shigeyuki Aomi ; Akimasa Hashimoto ; Kiyoharu Nakano ; Kiroku Ooishi ; Nariaki Aoyagi ; Koh Tanaka ; Yoshimasa Nishi ; Alfonso-Tadaomi Miyamoto ; Ichiro Shimada ; Hitoshi Koyanagi
Japanese Journal of Cardiovascular Surgery 1995;24(4):222-226
The new St. Jude Medical aortic valve graft prosthesis was evaluated for composite graft replacement of the aortic root in 32 patients at three institutions. This study was performed in conformity with the Japanese Drugs, Cosmetics and Medical Instruments Act. The grafts were preclotted with blood of serum albumin: coronary artery reconstruction was performed employing the classical Bentall procedure (4 cases), Cabrol's procedure (14 cases), the interposition graft technique (8 cases) or the button technique (6 cases); concomitantly the aortic arch was replaced in one patient, and the mitral valve was replaced in two patients. One early death (3%) occurred as the result of shock sustained prior to establishing cardiopulmonary bypass. Postoperative complications included perivalvular leakage (one case), perioperative myocardial infarction (two cases), hepatitis (one case). There were no late deaths and no complications related to the SJM valve graft prosthesis. The SJM valve graft prosthesis is a safe and reliable prosthesis for use as a composite graft replacement of the aortic root.