Abstract: Objective To observe the changes in morphology, structure, and ventricular function of infarct heart after bone marrow mononuclear cells (BMMNC) implantation. Methods Twenty-four dogs were divided into four groups with random number table, acute myocardial infarction (AM I) control group , AM I-BMMNC group , old myocardial infarct ion (OMI) control group and OM I-BMMNC group , 6 dogs each group. Autologous BMMNC were injected into infarct and peri-infarct myocardium fo r transplantation in AM I-BMMNC group and OM I-BMMNC group. The same volume of no-cells phosphate buffered solution (PBS) was injected into the myocardium in AM Icontrol group and OM I-control group. Before and at six weeks of cell t ransplantation, ult rasonic cardiography (UCG) were performed to observe the change of heart morphology and function, then the heart was harvested for morphological and histological study. Results U CG showed that left ventricular end diastolic dimension (LV EDD) , left ventricular end diastolic volume (LVEDV ) , the thickness of left ventricular postwall (LVPW ) in AM I-BMMNC group were significantly less than those in AM I-control group (32. 5±5. 1mm vs. 36. 6±3. 4mm , 46. 7±12. 1m l vs. 57. 5±10. 1m l, 6. 2±0. 6mm vs. 6. 9±0. 9mm; P lt; 0. 05). LVEDD, LVEDV , LVPW in OM I-BMMNC group were significantly less than those in OM I-control group (32. 8±4. 2 mm vs. 36. 8±4. 4mm , 48. 2±12. 9m l vs. 60.6±16.5m l, 7. 0±0. 4mm vs. 7. 3±0. 5mm; P lt; 0. 05). The value of eject fraction (EF) in OM I-BMMNC group were significantly higher than that in OM I-control group (53. 3% ±10. 3% vs. 44. 7%±10. 1% ). Compared with their control group in morphological measurement, the increase of infarct region thickness (7. 0 ± 1. 9mm vs. 5. 0 ±2.0mm , 6.0±0. 6mm vs. 4. 0±0. 5mm; P lt; 0. 05) and the reduction of infarct region length (25. 5±5. 2mm vs. 32. 1±612mm , 33. 6±5. 5mm vs. 39. 0±3. 2mm , P lt; 0. 05) were observed after transplantation in AM I-BMMNC group and OM I-BMMNC group, no ventricular aneurysm was found in AM I-BMMNC group, and the ratio between long axis and minor axis circumference of left ventricle increased in OM I-BMMNC group (0. 581±0. 013 vs. 0. 566±0.015; P lt; 0. 05). Both in AM I-BMMNC group and OM I-BMMNC group, fluorescence expressed in transplantation region was observed, the morphology of most nuclei with fluorescencew as irregular, and the differentiated cardiocyte with fluorescence was not found in myocardium after transplantation. The histological examination showed more neovascularization after transp lantation both in AMI and in OM I, and significant lymphocyte infiltration in AM I-BMMNC group. Conclusion BMMNC implantation into infarct myocardium both in AMI and OMI have a beneficial effect, which can attenuate deleterious ventricular remodeling in morphology and st ructure, and improve neovascularization in histology, and improve the heart function.
Abstract: Objective To solve the problem that myocardial band of stale hearts treated by formaldehyde cann’t be used for research study. Methods Twenty sheep’s hearts and 20 pig’s hearts were randomly distributed to 3 groups, group 1: fresh pig’s hearts(n=10) and fresh sheep’s hearts (n=10) were dissected by Torrent-Guasp’s method; group 2: pig’s hearts (n=5) and sheep’s hearts (n=5) treated by formaldehyde were dissected by Torrent-Guasp’s method; group 3: pig’s hearts (n=5) and sheep’s hearts (n=5) treated by formaldehyde were dissected by new method. Results All samples in group 1 were successfully unrolled to a myocardial band composed of basal loop and apical loop. The dissecting of samples in group2 were difficult. The root of pulmonary artery and ascending aorta failed to be unfolded because fibrous tissue was tough, right and left fibrous trigone were too firm to be solved by hand. Cardiac muscle fibers couldn’t be stripped along myofibrillar trajectory since they were prone to break because of their friability. On the other hand, being dissected along nature myofibrillar trajectory, all samples in group 3 were successfully unrolled to a myocardial band composed of basal loop and apical loop. Furthermore, myofibrillar trajectory was clear and the exposure of crossing angle between apical ascending segment and descending segment was ideal. Conclusion With Torrent-Guasp’s method, the dissection of myocardial band of hearts was successful in fresh heart, but not in stale heart. On the other hand, with new method, the dissection of myocardial band of hearts was achieved in stale heart group. Our method in this research is a reliable way on dissection of myocardial band in stale hearts treated by formaldehyde.
ObjectiveTo investigate the risk or protective factors for systemic embolism (SE) in patients undergoing bioprosthetic mitral valve replacement (MVR). Methods Between October 2002 and March 2013, a total of 146 patients underwent bioprosthetic MVR. There were 78 females and 68 males with mean age of 66.23±5.17 years. The primary reason of mitral valve disease was mitral valve degeneration or mitral valve leaflet prolapse in 40 patients, rheumatic heart valve disease in 101 patients, ischemic heart disease in 3 patients, infectious endocarditis in 1 patient, and mechanical peri-valvular leak in 1 patient. All patients were given anticoagulation therapy with warfarin for 3 months. Thereafter, antithrombotic medication was prescribed according to the surgeon's preference. The patients were followed up by telephone or mail for postoperative condition and SE events. ResultsSixteen (10.96%) patients developed SE events, including cerebral infarction in 13 cases, transient ischemic attack (TIA) in 2 cases and spleen infarction in 1 case. A total of 16 patients died during follow-up. The 1-year, 3-year, 5-year and 10-year cumulative survival rate after surgery was 95.2%, 93.6%, 92.5% and 88.3% respectively. Patients with SE events had lower rate of left atrial appendage obliteration than those without SE events (25.0% vs. 78.6%, P=0.015). Multivariate analysis showed that left atrial appendage obliteration was an independent protective factor for SE in patients undergoing bioprosthetic MVR (P=0.041). ConclusionLeft atrial appendage obliteration is a major protective factor for systemic embolism in patients undergoing bioprosthetic MVR no matter what antithrombotic medication is taken.
Objective To investigate clinical features and treatment strategy of cardiac complications caused by permanent pacemaker (PPM) implantation.?Methods?We retrospectively reviewed clinical records of 10 patients with cardiac complications caused by PPM who received surgical treatment in General Hospital of People’s Liberation Army from January 2003 to May 2010. There were seven males and three females with an average age of 62.9 years. One patient had an Atrial demand inhibited pacemaker (AAI) PPM and the other nine patients had a DDD PPM. Cardiac complications included infective endocarditis (IE) in 5 patients, tricuspid insufficiency (TI) in 4 patients and pulmonary artery thrombosis in one patient. According to their respective situation, these patients underwent different surgical treatment such as tricuspid valve plasty (TVP), tricuspid valve replacement and/or removal of PPM lead and vegetations as part of intensive debridement of the infected area.?Results?Postoperatively, all the patients were successfully discharged. Five patients whose PPM lines and leads were preserved in the surgery had normal PPM function. Three PPM-dependent patients whose PPM leads were removed in the surgery received a PPM reimplantation later. Nine patients were followed up for an average of 5.5 months and all these patients had a significantly improved quality of life. One patient after TVP had mild TI during follow-up. Conclusion Surgical treatment should be performed as early as possible when infection is too severeto control in patients with IE caused by PPM. PPM-induced TI may be hard to be diagnosed preoperatively, and transesophageal echocardiography or surgical exploration should be considered to establish the diagnosis. Measures should be taken to protect PPM if PPM lines and leads are preserved during operation. Patients whose PPM lines and leads are removed during the surgery need to choose a suitable time for PPM reimplantation.
ObjectiveTo analyze the early results and risk factors of surgical revascularization for patients with ischemic heart disease and left ventricular dysfunction. Methodsclinical data of 318 patients with ischemic heart disease and left ventricular dysfunction with left ventricular ejection fraction (LVEF)≤50% who underwent coronary artery bypass grafting (cABG) from January 2003 to July 2013 was retrospectively reviewed. There were 266 males and 52 females with a mean age of 62.6±9.2 years (range 36 to 83). seventy-six patients underwent off-pump cABG (oPcAB) and 242 patients underwent conventional cABG. Fifteen patients underwent concomitant mitral valve repair or replacement. The patients who underwent left ventricular aneurysmectomy (LVA) were excluded from this study. Perioperative data were collected including the risk factors, echocardiographic results, morbidities and mortalities. The risk factors were analyzed with the endpoints of adverse events and mortalities to find the elements that influence the early results of the procedure. ResultsThe EuroscorE Ⅱ predicted operative mortality rate was 2.78±4.02% (range 1.00% to 45.00%) and actual mortality rate was 1.9% (6/318). Three of 6 patients died from low cardiac output syndrome. Totaladverse events rate was 47.2% (150/318) including prolonged ventilation (25.2%), low cardiac output syndrome (6.3%),ventricular arrhythmia (4.4%), acute renal dysfunction (4.1%), myocardial infarction (3.8%), cerebralvascular accident(2.8%), and re-exploration for bleeding (0.6%). Compared with those preoperatively, the LVEF was significantly improvedfrom 42.14%±5.94% to 45.64%±8.33% (t=6.084, P=0.000), and the left ventricular end diastolic dimension (LVEDD) wassignificantly reduced from 53.96±6.28 mm to 48.64±7.50 mm (t=-9.681, P=0.000) postoperatively. The logistic multiplevariables regression analysis showed perioperative intra-aortic balloon pump (IABP) implantation was mutual risk factorof prolonged ventilation and low cardiac output syndrome. ConclusionSurgical revascularization is an effective optionfor patients with ischemic heart disease and left ventricular dysfunction, demonstrated by improved LVEF and reducedLVEDD. Low cardiac output syndrome is the main cause of operative death. Perioperative IABP implantation is mutualrisk factor of prolonged ventilation and low cardiac output syndrome. Meticulous perioperative management plays a keyrole in satisfactory early results.