Abstract: Objective To investigate the clinical effect of using zerobalanced ultrafiltration on postoperative lung function of coronary artery bypass grafting (CABG) patients under cardiopulmonary bypass (CPB). Methods Forty coronary artery bypass grafting patients in the First Affiliated Hospital of China Medical University from June 2006 to December 2008 were enrolled in this study, and were divided into two groups based on different ultrafiltration procedures. Patients in the experimental group (n=20), 14 males and 6 females, with an age of 65.43±8.31 years, underwent zerobalanced ultrafiltration and conventional ultrafiltration after CPB was carried out. Patients in the control group (n=20), 15 males and 5 females, with an age of 66.51±7.62 years, only underwent conventional ultrafiltration after temperature restoration. Preoperative pulmonary function and arterial blood gas were tested routinely. Airway resistance (Raw), oxygenation index (OI) and alveolar arterial oxygen difference [P(Aa)O2] were measured at the following points: before CPB, at the end of CPB, 6 hours, and 12 hours after operation. Postoperative mechanical ventilation time was also recorded. Results There was no significantly statistical difference between the two groups of patients in pulmonary function and arterial blood gas indexes before operation, and Raw, OI and P(Aa)O2 before CPB (Pgt;0.05). Nevertheless, at the points of 6 hours and 12 hours after operation, Raw [2.22±0.31 cm H2O/(L·s) vs. 2.94±0.42 cm H2O/(L·s), F=0.061, Plt;0.05; 1.89±0.51 cm H2O/(L·s) vs. 2.52±0.29 cm H2O/(L·s), F=0.096, Plt;0.05] and P(Aa)O2 (86.74±7.63 mm Hg vs. 111.66±7.49 mm Hg, F=0.036, Plt;0.05; 74.82±5.67 mm Hg vs. 95.23±6.78 mm Hg, F=0.059, Plt;0.05) of patients in the experimental group were significantly lower than those of patients in the control group. At the same points, OI of patients in the experimental group was significantly higher than that of patients in the control group (384.33±30.67 vs. 324.63±31.22, F=0.033, Plt;0.05; 342.24±23.43 vs. 293.67±25.44, F=0.047, Plt;005). Ventilator support time of the experimental group was shorter than the control group (15.44±3.93 h vs. 20.68±5.77 h,Plt;0.05). Conclusion Zerobalanced ultrafiltration can improve pulmonary function after coronary artery bypass grafting and shorten postoperative mechanical ventilation time.
Objective To investigate the risk factors of acute kidney injury(AKI)after onpump coronary artery bypass grafting(on-pump CABG) and off-pump coronary artery bypass grafting (off-pump CABG) in order to provide superior renal protective measure after operation. Methods The clinical data of 849 consecutive patients undergone coronary artery bypass grafting(CABG) in a single institution between January 1990 and August 2006 were retrospectively analyzed. A simplex module and a multivariate logistic regression model were constructed to identify risk factors for the development of AKI. Results AKI were occurred in 61 patients (11.8%,61/518) undergone off-pump CABG and 63 patients (19.0%,63/331) undergone onpump CABG. Peak of serum creatinine (Scr) after operation arrived at the 12th hour and 24th hour in patients undergone off-pump CABG and patients undergone on-pump CABG respectively. The rapidly recovering period of Scr in patients undergone off-pump CABG and on-pump CABG were from the 24th hour to the 48th hour and from the 48th hour to the 72th hour respectively.The results of the multivariate forward stepwise logistic regression analysis found that risk factors for the development of postoperative AKI following isolated CABG were associated with heavy body mass index(OR=1.190,1.179), emergent procedure(OR=2.737,3.678), diabetes(OR=1.705,2.042), peripheral vascular disease(OR=2.002,2.559),ejection fraction≤30%(OR=2.267,4.606), and New York Heart Association(NYHA) class Ⅲ and Ⅳ(OR=1.861,1.957) were risk factors for the development of postoperative AKI following offpump and on-pump CABG; pulse pressure≥60mmHg and triplevessel disease were risk factors for the development of postoperative AKI following off-pump CABG. But perioperative and postoperative intra aortic balloon pumping (IABP) could make protective effect on kidney for on-pump CABG (OR=0.146)which could lessen development of AKI. Conclusions It is critical period for AKI that renal protection strategies should be performed from general anesthesia until postoperative 48 hours (off-pump CABG) and 72 hours (on-pump CABG). AKI might be the most important stage in which a positive test should increase the physician’s awareness of the presence of risk for renal injury and then preventive or therapeutic intervention could be performed when the situation still is reversible.
Objective To summarize the experiences of surgical treatment for post infarction ventricular aneurysm and mi tral regurgitation, thus to improve surgical curative effect and survival rates . Clinical data of 37 patients with myocardial infarction complicated with ven tricular aneurysm and severer than moderate mitral regurgitation were retrospectively an alyzed between December 2000 and June 2007, all 37 patients underwent coron ary artery bypass grafting and reconstruction of left ventricular after aneurysm resection, mitral valve repair or replacement. Results Three patients died during hospital stay after surgery,mortality rate was 81%, of th em two died in renal failure, one died in brain complications.Thirty patients we re followed up, followup rate was 88.2%(30/34), with 4 patients missed. Follow up time ranged from 1 month to 6 years after surgery, 2 patients died in foll o wup period, of them one died in anticoagulant treatment failure complicated w ith the large cerebral infarction, one died of lung infection and heart failure. The inner diameter of le ft atrium and enddiastolic left ventricle reduced obviously than those before operation (30.1±3.5mm vs.39.3±3.7mm, P=0.004;48.4±4.3mm vs.61.2±5.1mm, P=0.003)by color doppler echocardiography examination at 6th month a fter su rgery.There was no obvious change in size of untouched ventricular aneurysm(diam eterlt;5cm). No regurgitation or slight regurgitation were observed in 12 patient s, mild regurgitation was observed in 2 patients and moderate in 1 patients. Conclusion According to different types of post infarctio n ventricular aneurysm and mitral regurgitation, constitution o f different surgical treatment programs, can result in favorable early and long-term curative effect. There’s marked improvement in most patients’cardiac f unction and survival rate.
Objective To evaluate the relationship between pattern of left ventricular dilation and functional mitral regurgitation (FMR) by echocardiography. Methods A single-center retrospective observational study was conducted on 117 patients with age of 31-77 years and left ventricular end diastolic dimension≥60 mm treated in our hospital from January 2013 through May 2016. These patients were divided into four groups by FMR degree: FMR-None/Trace (FMR-N/T group,n=33), FMR-Minor (FMR-Mi group,n=37), FMR-Moderate (FMR-Mo group,n=34) and FMR-Severe (FMR-Se group,n=13). We analyzed their basic information and echocardiographic parameters including left ventricular dimension, volume, systolic function, spherical index, regional wall motion score index, tenting height and area of mitral vavle as well as anterior/posterior angle. Results The incidences of inferior/posterior/lateral myocardial infarction and basal myocardial dyskinesia/aneurysm increased with the increase of FMR degree (FMR-N/T vs. FMR-Mi vs. FMR-Mo vs. FMR-Se: 12.1% vs. 18.9% vs. 44.1% vs. 46.2%,P=0.001 and 12.1% vs. 27.0% vs.47.1% vs. 53.8%,P=0.005, respectively). The tenting height and area of mitral valve, anterior/posterior angle, regional wall score index of the left ventricle where the papillary muscle was attached to had a positive correlation with FMR degree (P<0.05). Conclusion There is a relationship between regional left ventricular dilation and FMR. Evaluating and improving those parameters is very important when we choose the treatment strategy of functional mitral regurgitaion.
Objective To compare the clinical outcomes and safety of minimally invasive and routine mitral valve repair or replacement for patients with single mitral valve disease. Methods We retrospectively analyzed the clinical data of 67 patients with single mitral valve disease (without aortic valve and tricuspid valve lesion or other heart diseases including atrial septal defect) who underwent mitral valve repair or replacement in the First Affiliated Hospital of China Medical University between January and July 2011. The patients were divided into two groups according to different surgical approaches:the minimally invasive surgery group (n=29,8 males and 21 females,age 51.4±9.4 years) underwent minimally invasive mitral valve repair or replacement via right mini-thoractomy;and the routine surgery group (n=38,11 males and 27 females,age 53.6±11.9 years) underwent mitral valve repair or replacement via middle sternotomy. In the minimally invasive surgery group,9 patients underwent mitral valve repair while the other 20 patients underwent mitral valve replacement. And no patient underwent transition to routine operation. In the routine surgery group,15 patients underwent mitral valve repair and 23 patients underwent mitral valve replacement. Clinical outcomes and safety of the operations were compared between the two groups. Results There was no statistical difference in operation time between the two groups (207.9±18.1 min versus 198.4±27.5 min,P=0.076). The amount of postoperative drainage (126.7±34.5 ml versus 435.6±87.2 ml,P=0.000) and blood transfusion (red blood cell 1.4±0.8 U versus 2.3±1.1 U,P=0.000;blood plasma 164.3±50.4 ml versus 405.6±68.9 ml,P=0.000) of the minimally invasive surgery group were significantly lower than those of the routine surgery group. The cardiopulmonary bypass time (81.7±23.9 min versus 58.7±13.6 min,P=0.000) and aortic-clamping time (51.6±12.7 min versus 38.4±11.7 min,P=0.000) of the minimally invasive surgery group were significantly longer than those of the routine surgery group. The length of ICU stay (22.5±3.6 h versus 31.7±8.5 h,P=0.000),mechanical ventilation (7.4±3.2 h versus 11.2±5.1 h,P=0.000) and postoperative hospitalization (7.1±1.6 d versus 13.5±2.4 d,P=0.000) of the minimally invasive surgery group were significantly shorter than those of the routine surgery group. There was no statistical difference in postoperative complications between the two groups. Minimally invasive surgery group patients were followed up for 5.3±2.4 months with a follow-up rate of 72.4%(21/29). Routine surgery group patients were followed up for 5.5±3.8 months with a follow-up rate of 71.0%(27/38). There was no significant complication during follow-up in both two groups. Conclusion Minimally invasive mitral valve operation via right mini-thoracotomy is effective and safe with a good cosmetic result. Compared with routine operation,patients undergoing minimally invasive operation recover better and faster.
Objective To investigate the impact of preoperative use of low-molecular-weight heparin (LMWH) on early outcomes of off-pump coronary artery bypass grafting (OPCAB) . Methods Clinical data of 809 patients undergoingisolated OPCAB from April 1st,2011 to September 30th,2012 in the First Affiliated Hospital of China Medical University were retrospectively analyzed. All the patients were divided into LMWH group and control group according to preoperative use of LMWH or not. In LMWH group,there were 386 patients including 290 male and 96 female patients with their age of 49-81 years,who routinely received anticoagulation therapy with LMWH (LMWH sodium or LMWH calcium,4 000 U twice a day,subcutaneous injection) after discontinuation of anti-platelet therapy until the day before surgery. In the control group,there were 423 patients including 321 male and 102 female patients with their age of 46-78 years,who didn’t receive LMWH or any other anticoagulant after discontinuation of anti-platelet therapy. Postoperative mortality,incidence of perioperative myocardial infarction (MI),operation time,amount of blood loss and transfusion,and incidence of postoperative acute renal injury were compared between the 2 groups. Results Intraoperative blood loss (296±94 ml vs. 249±81 ml,P=0.03),postoperative thoracic drainage (526±159 ml vs. 410±125 ml,P=0.02),blood transfusion (2.6±1.1 U vs. 1.4±0.9 U,P=0.04) and operation time (172±34 min vs. 154±41 min,P=0.04) of LMWH group were significantly larger or longer than those of the control group. There was no statistical difference in postoperative mortality(1.0% vs. 1.2%,P=1.00)or incidence of perioperative MI(4.4% vs. 3.8%,P=0.55)between the 2 groups. Conclusion For OPCAB patientswith stable ischemic heart disease,preoperative management without use of LMWH can decrease operation time and amountof blood loss and transfusion without increasing postoperative mortality or incidence of perioperative MI.
Objective To study the technical characteristics, clinical outcomes and short- and long-term results of minimally invasive multi-vessel coronary artery bypass grafting and to evaluate the feasibility and efficacy. Methods From April 2012 to December 2014, minimally invasive cardiac surgery for coronary artery bypass grafting (MICS CABG) in 11 patients was performed in the First Hospital of China Medical University. All patients were males and the average age was 62.7 (47.0-73.0) years. Eight patients with 3-vessel lesions and 3 patients with 2-vessel lesions. General anesthesia was performed with double lumen endotracheal intubation and single lung ventilation. The patient was positioned 15 degrees to 30 degrees in right lateral position. The left anterior and lateral incision was made at the fourth/fifth intercostal space with the length of 5-7 cm and 2/3 part of the incision located in the medial side of anterior axillary line. Left internal thoracic artery (LIMA) was harvested from the third intercostal space up to the subclavian vein and down to more than fifth intercostal space through the surgical window. Through the xiphoid and sixth intercostal space incision with the length of 1 cm, the Starfish and Octopus system were placed to fix apex and ascending aorta and target vessels were exposed. The proximal and distal anastomosis was done under the direct vision. The sequence of distal anastomosis was from posterior descending branch to obtuse/diagonal branch and left anterior descending branch. The chest and pericardial draining tubes were placed through the xiphoid and sixth intercostal space incision. Results The mean operation time was 4.1 (3.2–5.8) h. Five patients underwent the operation with the assist of cardiopulmonary bypass and the mean assisting time was 21.0 (17.0-38.0 ) min. The mean number of distal anastomosis was 2.8 (2.0-3.0) and LIMA was harvested and grafted in all 11 patients. The mean drainage was 425.0 (180.0-750.0) ml, mean ventilation time 7.8 (4.3-11.2) h, ICU stay 15.9 (11.0-38.0) h, and hospital time 7.7 (5.0-14.0) d. There was no operative death and re-exploration for bleeding. One patient was complicated by paroxysmal atrial fibrillation and one patient myocardial infarction. The average follow-up was 19.4 (12.0-36.0) months, and no chest pain, re-admission or re-intervention happened. Coronary artery CT angiographies demonstrated that all LIMAs were patent and 4 vein grafts were occluded and venous graft patency rate was 80.0% one year after surgery. Conclusion MICS CABG has the advantage of quick recovery, good cosmetic effect and low incision infection rate compared to the conventional CABG. Compared with robotic surgery, the cost of MICS CABG is low and the same as that of the conventional CABG. It is a new kind of CABG and could be performed following the learning curve under strict training of doctors and careful patient selection. With the good short- and middle-term results, MICS CABG needs to be evaluated for long-term graft patency rate, re-revascularization rate, and clinical evidence.