Objective: To compare the efficacy between percutaneous coronary intervention (PCI) and conservative medication treatment in chronic total occlusions (CTO) patients. Methods: It was a meta-analysis.Articles on drug therapy and PCI for complete coronary artery occlusion were retrieved from Pubmed, Embase and Web of Science databases. The search time was from the database construction to May 10, 2020, and the following search criteria were used for the search "chronic total occlusion" "percutaneous coronary intervention" and "medical therapy". References from searched literatures were also searched to identify more eligible studies. Randomized controlled trials (RCT) and cohort studies comparing efficacy of PCI versus oral medication as well as medication as initial therapy option for CTO patients with single or multiple lesions were included. The primary endpoints included all-cause death, cardiac death, recurrent myocardial infarction, re-revascularization, major adverse cardiac events (MACE) and stroke. Data were analyzed with ReviewManager5.3.0 software. Pooled effect size RR and 95%CI were calculated by randomization effect model. Heterogeneity was evaluated by I². Bege test was used to evaluate publication bias. Subgroup analyses were performed for RCT and cohort studies. Results: A total of 1 079 articles were retrieved and 16 studies (RCT=4, cohort study=12) were included with 12 223 patients. Fourteen publications (RCT=4, cohort study=10) reported all-cause death post PCI and/or drug therapy. Results showed that risk of all-cause death was significantly lower in PCI group than in drug therapy group (RR=0.45,95%CI 0.39-0.53,P<0.001);subgroup analysis showed that risk of all-cause death was significantly lower in PCI group than in drug therapy group from cohort studies (RR=0.44,95%CI 0.38-0.52,P<0.001),but comparable in RCT (P=0.27). Thirteen studies (RCT=3, cohort study=10) reported cardiac death post PCI and/or drug therapy. Results showed that risk of cardiac death was significantly lower in PCI group than in drug therapy group (RR=0.44,95%CI 0.35-0.55,P<0.001);subgroup analysis showed that risk of cardiac death was significantly lower in PCI group than in drug therapy group in cohort studies (RR=0.43,95%CI 0.34-0.54,P<0.001),but not in RCT (P=0.25). Fourteen publications (RCT=4, cohort study=10) reported recurrent myocardial infarction post PCI and/or drug therapy. Results showed that risk of recurrent myocardial infarction was significantly lower in PCI group than in drug therapy group (RR=0.62,95%CI 0.44-0.88,P=0.007);subgroup analysis showed that risk of recurrent myocardial infarction was significantly lower in PCI group than in drug therapy group from cohort studies (RR=0.56,95%CI 0.40-0.78,P=0.000 5),but comparable in RCT (P=0.17). Fourteen publications (RCT=4, cohort study=10) reported re-revascularization post PCI and/or drug therapy. Results showed that risk of re-revascularization was comparable between PCI group and drug therapy group (P=0.91);subgroup analysis showed that risk of re-revascularization was comparable between PCI group and drug therapy group both in cohort study and RCT (P=0.60 and 0.41, respectively). Eleven publications (RCT=3, cohort study=8) reported MACE post PCI and/or drug therapy. Results showed that risk of MACE was significantly lower in PCI group than in drug therapy group (RR=0.74,95%CI 0.59-0.93,P=0.03);subgroup analysis showed that risk of MACE was significantly lower in PCI group than in drug therapy group in cohort studies (RR=0.72,95%CI 0.56-0.93,P=0.01), but not in RCT (P=0.8). Six publications (RCT=2, cohort study=4) reported stroke post PCI and/or drug therapy. Results showed that risk of stroke was comparable between PCI and drug therapy groups (RR=0.62,95%CI 0.32-1.20, P=0.15);subgroup analysis showed that risk of stroke was comparable between PCI and drug therapy groups both in cohort studies and RCT (P=0.48 and 0.32, respectively). Conclusion: Compared with oral drug therapy, PCI may have better efficacy for CTO patients based on results from this cohort study.
Conservative Treatment/adverse effects* ; Death ; Humans ; Myocardial Infarction/complications* ; Percutaneous Coronary Intervention/methods* ; Stroke ; Treatment Outcome

Surgical operation in treating obesity and type 2 diabetes is popularizing rapidly in China. Correct prevention and recognition of perioperation-related operative complications is the premise of ensuring surgical safety. Familiar complications of the operation include deep venous thrombosis, pulmonary artery embolism, anastomotic bleeding, anastomotic fistula and marginal ulcer. The prevention of deep venous thrombosis is better than treatment. The concrete measures contain physical prophylaxis (graduated compression stocking and intermittent pneumatic compression leg sleeves) and drug prophylaxis (unfractionated heparin and low molecular heparin), and the treatment is mainly thrombolysis or operative thrombectomy. The treatment of pulmonary artery embolism includes remittance of pulmonary arterial hypertension, anticoagulation, thrombolysis, operative thrombectomy, interventional therapy and extracorporeal membrane oxygenation (ECMO). Hemorrhage is a rarely occurred but relatively serious complication after bariatric surgery. The primary cause of anastomotic bleeding after laparoscopic gastric bypass is incomplete hemostasis or weak laparoscopic repair. The common bleeding site in laparoscopic sleeve gastrectomy is gastric stump and close to partes pylorica, and the bleeding may be induced by malformation and weak repair technique. Patients with hemodynamic instability caused by active bleeding or excessive bleeding should timely received surgical treatment. Anastomotic fistula in gastric bypass can be divided into gastrointestinal anastomotic fistula and jejunum-jejunum anastomotic fistula. The treatment of postoperative anastomotic fistula should vary with each individual, and conservative treatment or operative treatment should be adopted. Anastomotic stenosis is mainly related to the operative techniques. Stenosis after sleeve gastrectomy often occurs in gastric angle, and the treatment methods include balloon dilatation and stent implantation, and surgical treatment should be performed when necessary. Marginal ulcer after gastric bypass is a kind of peptic ulcer occurring close to small intestine mucosa in the junction point of stomach and jejunum. Ulcer will also occur in the vestige stomach after laparoscopic sleeve gastrectomy, and the occurrence site locates mostly in the gastric antrum incisal margin. Preoperative anti-HP (helicobacter pylorus) therapy and postoperative continuous administration of proton pump inhibitor (PPI) for six months is the main means to prevent and treat marginal ulcer. For patients on whom conservative treatment is invalid, endoscopic repair or surgical repair should be considered. Different surgical procedures will generate different related operative complications. Fully understanding and effectively dealing with the complications of various surgical procedures through multidisciplinary cooperation is a guarantee for successful operation.
Anastomosis, Surgical ; adverse effects ; Anticoagulants ; therapeutic use ; Bariatric Surgery ; adverse effects ; Catheterization ; China ; Conservative Treatment ; Constriction, Pathologic ; etiology ; therapy ; Digestive System Fistula ; etiology ; therapy ; Endoscopy, Gastrointestinal ; methods ; Extracorporeal Membrane Oxygenation ; Gastrectomy ; adverse effects ; Gastric Bypass ; adverse effects ; Gastric Mucosa ; pathology ; Gastric Stump ; physiopathology ; surgery ; Gastrointestinal Hemorrhage ; etiology ; prevention & control ; surgery ; Hemostasis, Surgical ; adverse effects ; methods ; Hemostatic Techniques ; Heparin ; therapeutic use ; Humans ; Intermittent Pneumatic Compression Devices ; Intestine, Small ; pathology ; Laparoscopy ; adverse effects ; Margins of Excision ; Peptic Ulcer ; etiology ; therapy ; Postoperative Complications ; diagnosis ; prevention & control ; therapy ; Pulmonary Embolism ; etiology ; therapy ; Stents ; Stockings, Compression ; Thrombectomy ; Thrombolytic Therapy ; Venous Thrombosis ; etiology ; prevention & control ; therapy