Objective To explore the risk factors and short-term clinical effect of conversion to open thoracotomy during thoracoscopic lobectomy for lung cancer patients. Methods We retrospectively analyzed the clinical data of 423 lung cancer patients who were scheduled for thoracoscopic lobectomy between March 2011 and November 2015.There were 252 males and 171 females at median age of 60 (24-83) years. According to the patients who were and were not converted to thoracotomy, they were divided into a conversion group (378 patients) and a video-assisted thoracic surgery group (a VATS group, 45 patients). Then, clinical data of two groups were compared, and the risk factors and short-term clinical effect of unplanned conversions to thoracotomy were analyzed. Results Lymph nodes of hilar or/and interlobar fissure closely adhered to adjacent vessels and bronchi was the most common cause of unexpected conversions to thoracotomy in 15 patients (33.3%), followed by sleeve lobectomy in 11(24.4%) patients, uncontrolled hemorrhage caused by intraoperative vessel injury in 8 patients, tumor invasion or extension in 5 patients, difficulty of exposing bronchi in 3 patients, close adhesion of pleural in 2 patients, incomplete interlobar fissure in 1 patient. Conversion did translate into higher overall postoperative complication rate (P=0.030), longer operation time (P<0.001), more intraoperative blood loss (P<0.001). In the univariable analysis, the type of operation, the anatomical site of lung cancer, the lymph node enlargement of hilar in CT and the low diffusion capacity for carbon monoxide (DLCO) were related to conversion. Logistic regression analysis showed that the independent risk factors for conversion were sleeve lobectomy (OR=5.675, 95%CI 2.310–13.944, P<0.001), the lymph node enlargement of hilar in CT (OR=3.732, 95%CI 1.347–10.341, P=0.011) and DLCO≤5.16 mmol/(min·kPa)(OR=3.665, 95%CI 1.868–7.190, P<0.001). Conclusions Conversion to open thoracotomy during video-assisted thoracic surgery lobectomy for lung cancer does not increase mortality, and it is a measure of reducing the risk of surgery. Therefore, with high-risk patients who may conversion to thoracotomy, the surgeon should be careful selection for VATS candidate. And, if necessary, the decision to convert must be made promptly to reduce short-term adverse outcome.
Objective To explore the predictive value of different degrees of delirium after off-pump coronary aortic bypass grafting (OPCABG) for perioperative myocardial infarction (MI). Methods A retrospective analysis was conducted on the clinical data of patients who underwent OPCABG in the First Department of Cardiac Surgery at the First Hospital of Hebei Medical University between April 2018 and March 2024. Patients were divided into a mild delirium group, a moderate delirium group, and a severe delirium group based on the degree of delirium, and into a MI group and a non-MI group based on the occurrence of perioperative MI. Binary logistic regression analysis was used to investigate the predictive factors for secondary MI during OPCABG. The predictive value of different degrees of postoperative delirium for secondary perioperative MI was assessed using receiver operating characteristic (ROC) curves. Results A total of 436 patients were included, with 211 males and 225 females, and a median age of 51 (44.0, 57.75) years. Delirium occurred in 139 patients, with 52 in the mild delirium group, 29 in the moderate delirium group, and 58 in the severe delirium group. MI occurred in 101 patients, with 101 in the MI group and 335 in the non-MI group. Binary logistic regression analysis showed that severe delirium was an independent predictor of secondary MI during OPCABG [OR=23.979, 95% CI (11.572, 49.691), P=0.000]. ROC curve analysis revealed that the area under the ROC curve for predicting perioperative MI by severe postoperative delirium was 0.709, with a sensitivity of 0.546 and a specificity of 0.964. Conclusion Severe postoperative delirium can be used as an indicator to predict secondary MI during OPCABG.