If one word is used to describe the development of congenital heart disease surgery in China, "hardship" would be the most appropriate. Generations of pioneers have used their ingenuity to overcome obstacles and promoted the development of the discipline. Seventy years of efforts have established the world's largest congenital heart disease treatment system. However, the huge number of potential patients, low early diagnosis rate and over-screening as well as the uneven developed diagnosis and treatment capabilities hinder the future development. The overall improvement of treatment of congenital heart disease in China lies on more efforts from our fellow experts. The publication of the "Chinese expert consensus on surgical treatment of congenital heart diseases" undoubtedly provides theoretical and practical guidance for the improvement of treatment.
Abstract: Tricuspid insufficiency founded in the setting of left-sided heart disease is usually secondary tricuspid insufficiency caused by tricuspid valve annular dilation. Some patients had rheumatic tricuspid valve diseases. Tricuspid valve repair rather than valve replacement is recommend for functional tricuspid regurgitation. Linear annuloplasty and ring annuloplasty are two main tricuspid valve repair methods. However, the indications for treatment of secondary tricuspid regurgitation remain controversial. The optimal surgical repair technique to eliminate secondary tricuspid regurgitation remains challenging. In this article, we review the assessment of tricuspid valve lesions, criteria for correction, and surgical management of secondary tricuspid insufficiency.methods. However, the indications for treatment of secondary tricus
Objective\ To test whether off pump coronary artery bypass grafting(OPCAB) has advantages over conventional coronary artery bypass grafting(CCABG).\ Methods\ Between January 1999 and February 2000, 170 patients with multivessel coronary disease underwent only coronary artery bypass grafting by one surgeon. They were divided into two groups, OPCAB group:88 cases underwent CABG with off pump and beating heart via sternotomy; CCABG group: 82 cases underwent conventional CABG with extracorporeal circulation....
Coronary artery bypass grafting (CABG) is an effective method for the treatment of coronary heart disease at present. However, there is still a high rate of vein graft occlusion after CABG, which has a serious impact on the short and long-term clinical results. Venous access technique has been considered as an important factor on affecting the long-term patency rate. Compared with harvesting technology of the open saphenous vein harvesting, no-touch technology retained the surrounding tissue and vascular adventitia of great saphenous vein, and it avoided the high pressure of expansion vein. After CABG was performed by using the no-touch technique, the vein grafts obtained a better short and long-term patency rate, but the effect still needs further clinical verification.
Objective To study the development of a physiologic fixation method and investigate the effect of physiologic fixation method on porcine aortic root and aortic valve leaflets. Methods Physiological fixer of aortic root was manufactured in a factory. The fixers with different diameter were made of organic glass. Porcine aortic root with ascending aorta and anterior leaflet of mitral valve and partial ventricular septum were dissected out from the fresh heart. The roots were attached to appropriately sized inflow and outflow spigots. Physiologic fixation was utilized to maintain aortic root and leaflets natural anatomical shape, the aortic root was pressurized to the inflow and outflow portions simultaneously, and the leaflets floated freely at zero-pressure differential with in the pressurized root. Results The process of physiologic fixation retained the properties of a native valve. The leaflets were much softer and extensible than those from valves fixed under low pressure. The results of pulsatile flow testing indicated that the effective orifice areas of predilation at 80mmHg were significantly greater than those of predilation at 40 mmHg(P〈0.05), while mean pressure differences were found to be lower comparatively(P〈0.05). This difference translates into a mode of valve function that more closely approximates that of the native aortic valve. Conclusion Physiologic fixation process retains the valve's natural anatomical shape as well as the underlying structure of the leaflets, providing improved flow characteristics.
Objective To provide a ventricular assist device for patients with heart failure, Fu Wai (FW) axial blood pump was developed for partly or totally to assist the left ventricular function. Vitro hemolysis and animals tests were also employed to test the hydromechanics and hemocompatibility of the FW left ventricular assist devices developed in Fu Wai hospital. Methods Using vitro test loop, FW axial blood pump has been used to evaluate the performance of hemolysis, the pump has also been tested for hemolysis characteristic through five sheep experiments. Results At 8 400 r/min, the pump generates 5 L/min flow against 100 mm Hg, the normalized index of hemolysis (NIH) was0.17±0.06 mg/L. The plasma free hemoglobin of in vivo tests was around 30 mg/dl. Conclusion The results obtained in vitro and in vivo testing indicate an acceptable design for the blood pump, further in vivo tests will be performed before clinical use.