ObjectiveTo probe into the risk factors for postoperative surgical site infections in the Department of Cardiothoracic Surgery, and put forward correspondent preventive and treatment measures. MethodA total of 360 patients who underwent operations between February 2011 and March 2013 were the study subjects. The age, sex, basic diseases, surgical time, hospitalization time, surgical implants, and incision category were recorded carefully, and were analyzed for their correlation with surgical site infections. ResultsThere were 27 cases of surgical site infections with an infection rate of 7.50%. Age, hospitalization time, surgical time, basic diseases, surgical implants and incision category were risk factors for surgical site infections (P<0.05). ConclusionsBased on the analysis of risk factors for surgical site infections, we can help patients recover as early as possible by taking preventive measures beforehand.
【Abstract】 Objective To discuss the mechanism of growth hormone (GH) in infection and its safety. Methods Advances in the application of GH in infection of recent years were reviewed. Results In infectious patients, GH may promote protein synthesis, strengthen the immunity of body, and protect the integrity of intestinal barrier function. But some patients present GH resistance. The safety of GH for infectious patients needs further evaluation. Conclusion GH may play a supplementary role in infection therapy, but further research is needed.
ObjectiveTo investigate and evaluate the safety and efficacy of Bentall operation in the reoperation of patients with small aortic root or annulus.MethodsBentall procedure was performed in 24 patients with small aortic root or annulus in our hospital from September 2014 to December 2019. There were 18 males and 6 females with a mean age of 31-68 (45.70±15.27) years. All patients had undergone a previous replacement of the aortic valve including 20 patients receiving valve replacement, 2 patients aortic root replacement with a valved conduit and 2 patients bioprothesis replacement.ResultsThere was no early death in hospital and one death during the 30-day postoperative period. Re-thoracotomy due to bleeding was necessary in only 2 patients and no bleeding was related to the proximal anastomosis of the conduit. One patient performed pacemaker implantation for heart block after the procedure. The mean sizes of implanted aortic valve prosthesis were 22.75±1.78 mm. A mean gradient across the aortic valve prostheses in the postoperative echocardiographic examination was 11.17±2.24 mm Hg.ConclusionBentall procedure is safe and allows a larger size of prosthesis implantation in patients with small aortic annulus or root after previous aortic valve or complete root replacement, resulting in good postoperative hemodynamic characteristics and short-term clinical results.
Objective To explore the impact of ischemic postconditioning on ischemia-reperfusion injury in isolatedelderly rat hearts and their relation with P-Akt. Methods A total of 30 healthy elderly SD rats (21-23 months old, male or female) with their body weight of 450-500 g were divided into 3 groups: control group, ischemia-reperfusion group, and postconditioning group, with 10 rats in each group. Coronary artery blood flow,myocardial infarction size, phosphorylatedAkt (p-Akt) expression, and changes in myocardium and mitochondria were detected. Results Coronary artery blood flow of the postconditioning group was significantly higher than that of the ischemia-reperfusion group (6.4±1.2 ml/min vs.3.1±1.2 ml/min, P<0. 01), and myocardial infarction size of the postconditioning group was significantly smaller thanthat of the ischemia-reperfusion group (35.0%±2.0% vs. 55.7%±3.6%, Plt;0. 05). The expression of P-Akt was significantlyhigher, and myocardial fibers and mitochondria were preserved better in the postconditioning group than the ischemia-reperfusion group. Conclusion Ischemic postconditioning can protect isolated elderly rat hearts against ischemia-reperfusion injury, which may be related to P-Akt activation.
ObjectiveTo evaluate the operation status of the clinical departments of a hospital through the establishment of the evaluation index system and comprehensive evaluation model.MethodsThe data on workload, service difficulty, service efficiency, health economics and other related indicators of the clinical departments of a hospital from January to June 2018 were collected. The comprehensive evaluation model was constructed by comprehensive scoring method. The data of each index were centralized, then the comprehensive evaluation model of clinical departments was established and the scores were calculated by weighted summation. Microsoft Excel 2010 and SPSS 17.0 software were used for data processing.ResultsThere were certain differences in comprehensive scores and detailed indicators among different clinical departments. Ranked by comprehensive scores, the top three surgical departments were Department of Thoracic Surgery (1.45), Department of Breast Surgery (1.32), and Department of Vascular Surgery (1.22), and the top three internal departments were Department of Oncology (5.76), Department of Cardiology (3.47), and Department of Hematology (3.41).ConclusionsIn general, there are some differences in the operating conditions among different departments. There are also differences in the detailed indicators among different departments. The results can be used to find out problems and gaps, and finally improve the operation of the departments.