Practical Cardiopulmonary Bypass Circuit in Surgery of the Thoracic Aorta.
10.4326/jjcvs.28.13
- VernacularTitle:胸部大動脈手術における体外循環法の検討
- Author:
Gen-ya Yaginuma
;
Kazuo Abe
;
Yoshiyuki Okada
;
Michitoshi Ottomo
- Publication Type:Journal Article
- From:Japanese Journal of Cardiovascular Surgery
1999;28(1):13-18
- CountryJapan
- Language:Japanese
-
Abstract:
When performing surgery of the thoracic aorta, several supporting methods must be easily available to facilitate various grafting procedures which are selected as the most suitable method for each case. We report on a practical cardiopulmonary bypass (CPB) circuit which can be used in the surgical treatment of any thoracic aortic disease: aortic dissection, true aneurysm involving the aortic arch, descending aortic aneurysm or thoraco-abdominal aortic aneurysm. The circuit design is based on a percutaneous cardiopulmonary support system. We added some modifications to the system for managing CPB simply. The improved bypass circuit was applied in operations on 26 patients and yielded excellent clinical results. The advantages of the circuit are listed as follows: 1) If massive bleeding occurs during closed-circuit CPB, the blood can be sucked into a built-in hard shell reservoir on the venous side of the bypass, and can immediately be returned back into the bypass circuit. 2) Using clamping forceps it is possible to easily switch between closed-circuit CPB and conventional CPB using gravitational venous return. 3) Selective cerebral or other organ perfusion can be done by a built-in roller pump distal to the oxygenator. The perfusion line using the roller pump diverges from the main line using the centrifugal pump kept in a spinning state. If the hypothermic method is used, the lower body is perfused via a femoral arterial cannulation by the centrifugal pump, and the upper body by the roller pump with right subclavian arterial cannulation. When the cardiac rhythm changes to ventricular fibrillation in cooling the patient, the flow ratio of the lower body to the upper body must be 1:1, since retrograde perfusion from the femoral artery may cause cerebral infarction due to embolism of dislodged debris or thrombi from the aneurysm.
