Abstract: Coronary artery bypass grafting (CABG) has become more and more popular, but how to decrease the thrombotic stenosis of saphenous vein grafts remains a tough problem clinically. Some researchers raised that aspirin resistance (AR) may be one of the most principal causes of graft thrombus and many correlative studies have been reported in recent years.In this article, we reviewed and analyzed the concept and evaluation criterion, incidence rate, mechanisms, clinic significance, and preventing strategy of AR, expecting to deepen the understanding of AR and help to optimize the antiplatelet therapy for postCABG patients with AR.
The bone marrow mononuclear cell(BMMNC) subset comprises mesenchymal stem cells, hematopoietic stem cells, endothelial progenitor cells. These cells can differentiate into cardiomyocytes, vascular endothelial cells and smooth muscle cells, and they can also release a wide array of cytokines that exert their effects on surrounding cells, including inducing neovascularization, preventing apoptosis of home cells and homing of endogenous systemic repairing cells. Many trials have been developed to evaluate the effect of bone marrow mononuclear cell transplantation in treating ischemia heart diseases in this country and others. Several routes have been used to deliver these cells to human myocardium or to the coronary circulation in these trials, such as intracoronary injection, intravenous infusion, direct injection into the ventricular wall, or transepicardial/transendocardial infusions,and the cells are constructed into fragmented cell sheets to improve cell retention, or some cytokines are used to enhance therapeutic effect. Although the results of the recent clinical trials in this area are rather conflicting, these therapeutic approaches seem to be promising forthe treatment of ischemic heart disease. In this review, many aspects of bone marrow mononuclear cell transplantation in myocardial infarction are summarized such as the mechanism, delivery routes, retaining of cells, homing, survival and future development, etc.
Abstract: Compared with mitral valve replacement, there areseveral advantages in mitral valvuloplasty, so recently more and more sights are caught on mitral valve repair. According to different etiology, the surgeon can apply annuloplasty, triangular resection, quadrangular resection, replacement or transposition of chordae tendineae and so on to treat mitral regurgitation(MR). With the development of minimally invasive surgical technology, robotic mitral valve reconstruction evolve rapidly and percutaneous interventional therapy also commence from lab to bedside.We believe surgeons can repair MR safely and successfully in the majority of patients with proficiency in the basic techniques.
Magneticaly labeled stem cells and magnetic resonance imaging(MRI) technology is an effective tracking method in vivo study, which has high spatial-temporal resolution. Gadolinium, which shows positive T1 signals and iron oxide showing negative T2 signals are the two often used contrast agents. The latter also include superparamagnetic iron oxide particle and ultrasmall superparamagnetic iron oxide particle. Transfection agents, e.g. poly-L-lysine and protamine sulfate,can enhance magnetical nanoparticles labeling stem cells. The biological characteristics of labeled stem cells did not seem to be altered. MRI can detect the labeled stem cells’ signals and also can track changes of signal in intensity and size with time past. In conclusion, MRI tracking magneticaly labeled stem cells represents a method for noninvasivly monitoring the existence and migration of engrafts.
Abstract: Objective To compare the midterm patency rates of individual and sequential saphenous vein grafts (SVG) as coronary bypass conduits of offpump coronary artery bypass grafting (OPCAB) and evaluate the impact of the grafting techniques (individual or sequential grafts) on the graft patencyafter OPCAB. Methods The clinical data of 398 patients in General Hospital of the People’s Liberation Army receiving OPCAB with individual and sequential grafts from June 2005 to March 2009 were retrospectively analyzed. There were 301 males and 97 females with their age ranged from 53 to 82 years (63.6±10.3 years). A total of 714 distal coronary anastomoses on 448 SVG were assessed by using 64multislice computed tomography (64MSCTA) at an average of 19.8±23.6 months (3 months to 5 years) after OPCAB procedure. The blood flow of grafts in the proximal segment of individual and sequential SVG and the patency rates of grafts and anastomoses were compared, and the effect of different locations on the patency rate of the anastomoses was analyzed. Results The mean blood flow in double SVG (37.11±16.70 ml/min vs. 25.15±14.24 ml/min, P0.042) and in triple SVG (37.56±19.58 ml/min vs. 25.15±14.24 ml/min, P=0.048) were both significantly higher than the flow in single SVG. The anastomoses on the sequential conduits had better patency (95.1% vs. 90.1%, P=0.013). The patency of sideto side anastomoses was better than that of endtoside anastomoses (97.0% vs. 93.1%, P=0.002) and that of the individual endtoside anastomoses (97.0% vs. 90.1%, P=0.041). There was no significant difference between distal anastomoses in sequential and those in single grafts (P=0.253). No significant difference was observed between the two methods in regard to the three major coronary systems (including the anterior descending branch, the right coronary artery, and the circumflex branch). However, anastomoses on sequential grafts had superior patency to those on individual grafts in the right coronary system (P=0.008). Conclusion The midterm patency of a sequential SVG conduit after OPCAB is excellent and generally superior to that of an individual one. The best runoff coronary artery should be placed at the distal end and the poor coronary vessels should be arranged in the middle of the grafts.
Objective To introduce alternative approach of right auxiliary artery cannulation through a 8 mm hemoshield graft for cardiopulmonary bypass and selective antegrade cerebral perfusion. Methods Twentythree cases of acute type A dissection and 7 cases of ascending aortic aneurysm, in which aortic arch was involved, were evaluated. An 4-5 cm long incision beneath right clavicle was made to expose auxiliary artery with auxiliary vein and brachial plexus intact. An 8 mm hemoshield graft was anastomosed to auxiliary artery and connected to the arterial end of cardiopulmonary bypass circuit. The auxiliary artery cannula was used for arterial perfusion and also used for selective antegrade cerebral perfusion. Fifteen total arch and 15 semi-total arch replacement were performed. The graft connecting auxiliary artery was simply ligated when cardiopulmonary bypass was concluded. Results Arterial perfusion flow and pressure through auxiliary artery were not significantly different from that of cannulation via ascending aorta. No significant postoperative cerebral deficits and complications of right upper limb associated with cannulation of auxiliary artery occurred. Conclusion Arterial perfusion through right auxiliary artery provides an excellent approach for surgery of acute type A dissection and ascending aortic aneurysm with optimized body perfusion and allows for antegrade cerebral perfusion during circulatory arrest.
Objective To compare vein graft patency after endoscopic great saphenous vein harvesting (EVH) and conventional open saphenous veinharvesting (OVH) in coronary artery bypass grafting (CABG), and to identify risk factors for vein graft stenosis. Methods The great saphenous vein was harvested using an EVH method in 60 patients, 34 males and 26 females, who underwent CABG in the General Hospital of PLA between May 2006 and May 2009. The mean patient age was 66.6±9.2 years in the EVH group.The OVH group had 60 patients (40 males and 20 females with a mean age of 65.7±10.6 years), chosen to match the clinical characteristics of the EVH group. 64multislice computed tomography (64MSCT) was used to evaluate vein graft patency at six months and two years postoperatively. We also collected and analyzeddata on possible risk factors for vein graft stenosis. Results The harvesting time was longer in the EVH group than in the OVH group (52.5±13.3 minutes vs. 36.1±18.0 minutes, t=2.13, P<0.05). The EVH group requireda greater number of repairs to veins than did the OVH group (2.2±13 vs. 0.9±0.6,t=2.60, P<0.05). There were no statistically significant differences invein length, number of vein grafts, or vein graft flow between the two groups. There was also no significant difference in vein graft patency between the EVH and OVH groups at six months postoperatively (96.2% vs. 94.5%) or at two years postoperatively (90.2% vs. 91.5%). The average of vein graft blood flow was a riskfactor for vein graft stenosis(t=2.61, P=001). Conclusion The EVH vein graft had a good patency rate at six months and two years after the surgery.