ObjectiveTo study the learning curve of minimal invasive coronary artery bypass grafting (MICS CABG) and the influence on the perioperative clinical effects by analyzing operation time.MethodsFrom March 2012 to November 2020, 212 patients underwent MICS CABG by the same surgeon. Among them, 59 patients (52 males and average age of 62.89±8.27 years) with single vessel bypass grafting were as a single-vessel group and 153 patients (138 males, average age of 59.80±9.22 years) with multi-vessel bypass grafting were as a multi-vessel group. Two sets of operation time-operation sequence scatter plots were made and learning curve was analyzed by cumulative summation (CUSUM) and regression method of operation time. The surgical data of each group before and after the inflection point of the learning curve were compared with the main clinical outcome events within 30 days after surgery.ResultsThere was no death, perioperative myocardial infarction and stroke in 212 MICS CABG patients and no transfer to cardiopulmonary bypass or redo thoracotomy. The learning curve conformed to the cubic fitting formula. In the single-vessel group, CUSUM (x operation number)=–1.93+93.45×x–2.33×x2+0.01×x3, P=0.000, R2=0.986, the tipping point was 27 patients. In the multi-vessel group, CUSUM (x)=y=2.87+1.15×x–1.29× x2+3.463×x3, P=0.000, R2=0.993, and the tipping point was 59 patients. The two sets of case data were compared before and after the learning curve and there was no statistical difference in main clinical outcomes within 30 days (mortality, acute myocardial infarction, stroke, perioperative blood transfusion rate), ventilator tube, and intensive care unit retention.ConclusionThe learning curve of MICS CABG conforms to the cubic formula, and the process transitions from single to multiple vessels bypass. To enter the mature stage of the learning phase, a certain number of patients need to be done. Reasonable surgical procedures and quality control measures can ensure the safety during the learning phase.
ObjectiveTo summarize the use of harmonic scalpel to harvest bilateral internal mammary artery in coronary artery bypass grafting (CABG). MethodsThe clinical data of 54 patients of bilateral skeletonized internal mammary artery harvesting for CABG in our hospital from January 2016 to May 2020 were analyzed retrospectively. There were 51 males and 3 females with a mean age of 62.37±9.56 years. ResultsAll patients went through the procedure unevently and discharged from hospital. The number of grafts was 4.07±0.85 per patient, the operation time was 267.21±47.00 min, mechanical ventilation time was 342.43±132.17 min and hospital stay was 12.21±4.43 d. ConclusionIt is safe and effective to use harmonic scalpel to harvest skeletonized bilateral internal mammary artery in CABG.
Objective To compare the clinical early results of on-pump and off-pump coronary artery bypass grafting re-operations (re-CABG)and introduce our experience. Methods From April 2000 to June 2006, 21 cases with coronary artery diease of re-CABG were performed in this hospital. 10 patients received off-pump CABG (off-pump group), and 11 underwent CABG re-operations with cardiopulmonary bypass CABG(on-pump group). There were no significant difference regarding gender, age, weight, diabetes, hypertension, left ventricular end-diastolic dimension (LVEDD) and left ventricular ejection fraction (LVEF) between two groups before operation. On-pump CABG procedures were performed on hypothermia cardiopulmonary bypass. Standard methods were used to finish off-pump CABG. Flow meters were utilized to measure the flow of grafts in both groups. Results No one in off-pump group needed to conver to on-pump CABG. There was no operative or late mortality. The operation time, respiratory support time, the volume of chest tube drainage, blood transfusion and postoperative hospital stay were less in off-pump group than those in on-pump group after operation. Early death occurred in 1 patient in on-pump group. The number of distal anastomosis were more in on-pump group than that in off-pump group. Conclusions Both off-pump CABG and on-pump CABG can be applied to CABG re-operations and achieved similar completeness of revascularization, similar early surgical results.
ObjectiveTo investigate the influence of 6% hydroxyethyl starch (HES, 130/0.4)on blood coagulation of patients after off-pump coronary artery bypass grafting (opCAB)by thromboelastography (TEG).
MethodsOne hundred patients undergoing elective opCAB in Department of Cardiovascular Surgery, General Hospital of Shenyang Military Area Command between May and July 2013 were enrolled in this study. All the patients were randomly divided into 2 groups using random number table method with 50 patients in each group. In the experimental group (G1 group), there were 27 males and 23 females with their age of 64.9±4.4 years, who received intravenous 6% HES (130/0.4)20 ml/kg in 4 hours postoperatively. In the control group (G2 group), there were 31 males and 19 females with their age of 63.1±5.8 years, who received intravenous lactated ringers 20 ml/kg in 4 hours postoperatively. After postoperative ICU admission, full blood count, coagulation tests and TEG were examined. Chest and mediastinal drainage was recorded at 6 hours and 24 hours postoperatively.
ResultsThere was no statistical difference in chest and mediastinal drainage 24 hours postoperatively between the 2 groups (591.7±171.7 ml vs. 542.4±174.0 ml, P > 0.05). None of the patients received reexploration for bleeding. There was no statistical difference in hemoglobin, hematocrit, platelet count or traditional coagulation index between the 2 groups (P > 0.05). TEG showed no significant change in coagulation time after intravenous fluid infusion in either group. Reaction time was slightly extended in both groups, but there was no statistical difference in reaction time between the 2 groups (P > 0.05). Maximum amplitude (MA)of G1 group was significantly decreased after intravenous fluid infusion (55.9±10.0 mm vs. 62.8±7.9 mm, P < 0.05), but still within the normal range. There was no significant change in MA after intravenous fluid infusion in G2 group.
ConclusionIntravenous infusion of 6% HES (130/0.4)20 ml/kg can reduce platelet function and clot strength, but does not significantly increase postoperative chest or mediastinal drainage, or the incidence of postoperative reexploration for bleeding. It's safe to administer 6% HES (130/0.4)for patients after OPCAB.
Objective To investigate the effect of combined carotid endarterectomy (CEA) and offpump coronary artery bypass grafting (OPCAB) on patients with carotid arteriostenosis and coronary heart diseases. Methods A total of 121 consecutive patients with carotid arteriostenosis and coronary artery diseases underwent CEA and OPCAB between January 2003 and December 2009 in Nanjing First Hospital of Nanjing Medical University. There were 81 males and 40 females, with their ages ranged from 62 to 72 years (67.2±4.5 years). All patients had 3vessel coronary artery lesions, and there were 3 cases of left main coronary artery lesion. Unilateral carotid arteriostenosis (≥50%) occurred in 95 patients, and bilateral (≥50%) in 26 patients. The occurrence of stroke, myocardial infarction, angina pectoris and other complications after operation was observed, and followup was carried out. Results All patients underwent unilateral CEA including 50 on the right side and 71 left. The mean block time of carotid artery in CEA was 20.5±7.0 minutes. The average number of distal grafts per patient in OPCAB was 2.9±0.3. None of the patients had stroke or myocardial infarction and no perioperative death occurred. Eightyseven patients felt well in terms of their neuropsycho symptoms; 32 felt no change; and 2 worsened. Follow-up was done for all the patients with a follow-up rate of 100%. The mean time of the follow-up was 67.5±12.5 months. During this period, none of the patients manifested stroke, myocardial infarction or neuropsycho symptoms. Conclusion Concomitant OPCAB and CEA is a safe and effective procedure in patients with carotid arteriostenosis and coronary artery diseases. It can reduce the rate of postoperative stroke significantly. However, longterm outcome of the procedure needs operative experience accumulation, longterm follow-up and observation, and serious research and illumination.
ObjectiveThe pleural injury caused by harvesting internal mammary artery (LIMA) can significantly increase the possibility of early pleural effusion after off-pump coronary artery bypass grafting (OPCABG). We compared the differences in pleural effusion, pain severity, and early lung function in different treatments to find the optimal strategy.MethodsA total of 300 patients receiving OPCABG using LIMA with left pleural lesion were selected (176 males and 124 females, mean age of 63.1±8.7 years). After bypass surgery, patients with pleural rupture were randomly divided into three groups: group A (n=100) received a pericardial drainage tube and a left chest tube inserted from the midline (subxyphoid); group B (n=100) had a pericardial drainage tube and a tube placed in the sixth intercostal space at the midaxillary line; group C (n=100) with the broken pleura sutured, had a pericardial drainage tube and a mediastinal drainage tube inserted. All patients underwent pulmonary function testing and arterial blood gas analysis on postoperative days (PODs) 5. The three methods were analyzed and evaluated.ResultsTotal drainage: group B (852±285 ml)>group C (811±272 ml)>group A (703±226 ml); there was no significant difference between the group B and group C, but they were statistically different from the group A (P<0 05="" patients="" with="" pleural="" effusion="" after="" removal="" of="" drainage="" tubes:="" group="" a="" 13="" patients="">group B (7 patients)>group C (3 patients), and there was significant difference among the three groups (P<0 05="" pain="" sensation="" the="" day="" after="" extubation:="" group="" b="" 2="" 4="" 0="" 8="" 3="" 8="" 0="" 9="">group A (1.9±0.7, 3.3±0.8)>group C (1.1±0.6, 2.5±0.8), there was significant difference among the three groups (P<0 05="" pain="" sensationon="" on="" postoperative="" days="" 5:="" group="" b="" 0="" 3="" 0="" 2="" 0="" 6="" 0="" 5="">group A (0.3±0.3, 0.5±0.4)>group C (0.2±0.2, 0.5±0.3), and there was no significant difference among the three groups. Vital capacity on postoperative days 5: there was no significant difference between the group B and group C, and both groups were greater than group A (P<0.05). There was no difference in FEV1 and PCO2 among the three groups. Group C was better than group A in PO2 on postoperative day 5 (P<0.05).ConclusionSuturing the broken pleura during the operation can not only reduce the degree of postoperative pain but also have less pleural effusion and better pulmonary function. It can be used as the preferred method.
ObjectiveTo investigate the early clinical efficacy of minimally invasive cardiac surgery coronary artery bypass grafting (MICS CABG) via left intercostal small incision for multivessel coronary artery disease. MethodsThe patients who received off-pump CABG in the Central China Fuwai Hospital of Zhengzhou University from June 2021 to June 2023 were enrolled. Patients were divided into two groups according to the operative technique used, including a traditional midline sternotomy group and a left intercostal small incision group. The clinical data of the two groups were compared. ResultsA total of 143 patients were enrolled, including 70 patients in the traditional midline sternotomy group and 73 patients in the left intercostal small incision group. The age of the patients in the left intercostal small incision group and the traditional midline sternotomy group was (63.8±8.0) years and (63.0±7.8) years, respectively; the proportions of males were 69.9% and 74.3%, respectively. The differences were not statistically significant (all P>0.05). All patients in the two groups successfully completed the operation, and no patients in the left intercostal small incision group were converted to thoracotomy. The patients in the left intercostal small incision group showed less postoperative drainage within postoperative 24 hours [(239.4±177.7) mL vs. (338.0±151.9) mL, P<0.001], lower perioperative blood transfusion rate [32.9% (24/73) vs. 51.4% (36/70), P=0.028], higher postoperative myoglobin level within postoperative 24 hours [366.1 (247.9, 513.0) ng/mL vs. 220.8 (147.2, 314.9) ng/mL, P<0.001], shorter intensive care unit stay [45.5 (31.5, 67.5) h vs. 68.0 (46.0, 78.5) h, P=0.001] and postoperative hospital stay [(10.8±4.0) d vs. (13.1±5.3) d, P=0.028] compared to the traditional midline sternotomy group. There was no significant difference in the incidence of major adverse cardiac and cerebrovascular event between the two groups [2.7% (2/73) vs. 2.9% (2/70), P=1.000]. ConclusionCompared to the full median sternotomy, MICS CABG leads to a good clinical result with smaller trauma, faster overall recovery, and less perioperative blood transfusion.
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.
Objective To investigate the clinical application of the right grstroepiploic artery (RGEA) in offpump coronary artery bypass grafting (OPCAB). Methods We retrospectively analyzed the clinical data of the 38 patients who underwent RGEA grafts for OPCAB between December 2008 and July 2009 in the First Affiliated Hospital of Nanjing Medical University. According to the difference of grafts, 76 patients undergoing OPCAB were divided into two groups. In the RGEA group, there were 38 patients including 36 males and 2 females with an age of 65.87±6.29 years. For the patients in this group, OPCAB was carried out with RGEA and other routine conduits as grafts. The control group had 38 patients including 35 males and 3 females with an age of 66.68±6.24 years. They underwent OPCAB with left internal mammary artery (LIMA), radial artery (RA), or saphenous vein (SV) as grafts. The intraoperative and postoperative clinical data for patients in both groups were analyzed and compared. Results All operations were carried out without serious complications like reoperation for bleeding, functional delayed gastric emptying, or severe infection, and no operative death occurred. Compared with the control group, operative time in the RGEA group was longer (295.53±45.16 min vs. 262.50±42.44 min,P=0.001), the number of anastomotic stomas [CM(159mm]was less (4.71±0.56 vs. 5.29±0.92, P=0.002), and less intraoperative plasma was consumed (194.74±186.30 ml vs. 565.79±382.70 ml, P=0.000). The 24 h drainage loss (394.71±205.36 ml vs. 536.32±258.85 ml, P=0.008), the blood cell consumption (1.67±1.48 U vs. 2.81±2.48 U, P=0.010) and the postoperative hospital stay (12.47±3.20 d vs. 15.47±9.31 d, P=0.035) were significantly lower in the RGEA group compared with those in the control group. Meanwhile, the time of postoperative mechanical ventilation time was longer in the RGEA group than that in the control group (1 398.82±1 349.94 min vs. 985.39±170.30 min, P=0.036). Seventytwo patients were followed up for a period from 9 to 17 months with 4 cases lost. No myocardial ischemia occurred in both groups of patients. Conclusion RGEA is an effective arterial conduit for OPCAB. It needs high technology and takes long operative time to apply RGEA in OPCAB.
ObjectiveTo evaluate the changes of the flow parameters before and after the anastomotic port exploration and dredging during coronary artery bypass grafting by using the transit time flow measurement (TTFM).MethodsA total of 167 patients who underwent continuous coronary artery bypass grafting and anastomotic port exploration and dredging surgery in Beijing Anzhen Hospital from 2018 to 2019 were enrolled in this study. There were 136 male and 31 female patients aged 41-82 (58.35±17.26) years. If the probe entered and exited the anastomotic port smoothly, it was recorded as a non-resistance group; if the resistance existed but the probe could pass and exit, it was recorded as a resistance group; if the probe could not pass the anastomotic port for obvious resistance, it was recorded as the stenosis group. In the stenosis group, the grafts were re-anastomosed and the flow parameters were re-measured by TTFM.ResultsA total of 202 anastomotic ports were carried out by exploration and dredging. Among them, 87 anastomosis (43.1%) were in the non-resistance group, and there was no significant change in the blood flow volume (BFV) and pulsatility index (PI) before and after exploration and dredging (6.16±3.41 mL/min vs. 6.18±3.44 mL/min, P=0.90; 7.06±2.84 vs. 6.96±2.49, P=0.50). Sixty-four anastomosis (31.7%) were in the resistance group, the BFV was higher after exploration and dredging than that before exploration and dredging (17.11±7.52 mL/min vs. 4.96±3.32 mL/min, P<0.01), while the PI was significantly smaller (3.78±2.20 vs. 8.58±2.97, P<0.01). Fifty-one anastomosis (25.2%) were in the stenosis group, and there was no significant change in the BFV and PI before and after exploration and dredging (3.44±1.95 mL/min vs. 3.48±2.11 mL/min, P=0.84; 10.74±4.12 vs. 10.54±4.11, P=0.36). After re-anastomosis, the BFV was higher (16.48±7.67 mL/min, P<0.01) and the PI deceased (3.43±1.39, P<0.01) than that before exploration and dredging.ConclusionThe application of anastomotic exploration and dredging can reduce the occurrence of re-anastomosis, and promptly find and solve the stenosis of the distal coronary artery, improve the poor perfusion of distal coronary, and thus improves the prognosis of patients.
