Objective To investigate the correlation between disease severity and pleural effu sion in patients with acute pancreatitis(AP).Methods A retrospective analysis was conducted on a prospectively collected database.The demographic,clinical,and laboratory data of 246 consecutive cases of AP in patients admitted to the Affiliated Union Hospital of Fujian Medical University between January 2008 to December 2012 were reviewed.Acute physiology and chronic health evaluation Ⅱ (APACHE Ⅱ) score and computed tomography severity index (CTSI) were used to evaluate the disease severity of AP.The relationship between the severity and pleural effusion was analyzed.Receiver operator characteristic (ROC) curve was used to compare the values of APACHE Ⅱ score and CTSI in predicting the prognosis of patients with pleural effusion.Results Among the 246 patients,there were 184 patients with pleural effusion and 62 patients without pleural effusion.The incidence of pleu ral effusion in AP was 74.8％.Further study showed that the difference in the incidences of pleural effusion between the severe group and the mild group was significant (P＜0.01).There was a trend that the more serious the patient's condition,the more the pleural effusion.Moreover,the levels of pleural effusion were significantly and positively correlated with the APACHE Ⅱ score (r=0.775,P＜0.01) and CTSI (r=0.525,P＜0.05).Logistic regression analysis showed that the factors significantly associated with pleural effusion formation were a high APACHE Ⅱ score and a high CTSI.Areas under the ROC curve of the APACHE Ⅱ score,CTSI and combined assessment were 0.798,0.687 and 0.812 for predicting mortality of the patients with pleural effusion.Through comparison of the areas under the ROC curve,there was a significant difference between the APACHE Ⅱ score and CTSI as well as combined assessment and CTSI (P＜0.05).Conclusions The disease severity was closely related to pleural effusion in patients with AP.Combining the two scoring systems to evaluate the disease severity and providing active treatment were important to improve the prognosis of patients with pleural effusion.

According to the pathological characteristics of symptomatic chronic thoracic and lumbar osteoporotic vertebral fracture (SCOVF), the different clinical treatment methods are selected, including vertebral augmentation, anterior-posterior fixation and fusion, posterior decompression fixation and fusion, and posterior correction osteotomy. However, there is still a lack of a unified understanding on how to choose appropriate treatment method for SCOVF. In order to reflect the new treatment concept and the evidence-based medicine progress of SCOVF in a timely manner and standardize its treatment, the clinical guideline for surgical treatment of SCOVF is formulated in compliance with the principle of scientificity, practicability and advancement and based on the level of evidence-based medicine.

OBJECTIVES: Due to the lack of large-sized pulmonary valved conduit products in clinical practice, hand-sewn expanded polytetrafluoroethylene (ePTFE) valved conduit has been used for right ventricular outflow tract (RVOT) reconstruction in many heart centers around the world. This study aims to summarize the early results of the ePTFE valved conduit and the sewing technology of the conduit in combination with the latest progress, and to provide a reference for the application of ePTFE valved conduit. METHODS: A total of 21 patients using ePTFE valved conduit for RVOT reconstruction in the Second Xiangya Hospital, Central South University from October 2018 to October 2020 were prospectively enrolled in this study. The age at the implantation of the conduit was 4.3 to 43.8 (median 15.1) years old, with weight of (38.9±4.1) kg. In this cohort, 14 patients underwent re-reconstruction of RVOT, including 12 patients with pulmonary regurgitation at 6.3 to 31.0 (median 13.8) years after tetralogy of Fallot (TOF) repair, and 2 patients with failed bovine jugular vein conduit (BJVC). Seven patients underwent Ross operations. Among them, 3 were for aortic valve stenosis, 2 were for aortic regurgitation, and 2 were for both stenosis and regurgitation. The ePTFE valved conduits were standard hand-sewn during the surgery. The 3 leaflets were equal in size with arc-shaped lower edge of the valve sinus. The free edge of the valve leaflets was straight with the length of about 1 mm longer than the diameter. The height of the valve sinus was 4/5 of the diameter. The junction of the valve leaflet was 3/4 of the height of the sinus. The designed leaflets were then continuous non-penetrating sutured into the inner surface of Gore-Tex vessel to make a valved conduit. Valved conduits with diameter of 18, 20, and 22 mm were used in 2, 9, and 10 cases, respectively. The surgical results, postoperative recovery time, and serious complications were summarized, and the changes of postoperative cardiac function status and hemodynamic status of the conduits were investigated. RESULTS: During the implantation of ePTFE valved conduit for RVOT reconstruction, 2 patients underwent mechanical mitral valve replacement with Ross operation, 2 patients with pulmonary regurgitation with repaired TOF underwent left and right pulmonary artery angioplasty, and 1 patient with failed BJVC underwent tricuspid valvuloplasty. The cardiopulmonary bypassing time for patients underwent re-reconstruction of RVOT was (130.9±16.9) min, with aorta clamping for 1 patient to repair the residual defect of the ventricular septum. The cardiopulmonary bypassing and aorta clamping time for Ross operation were (242.7±20.6) min and (145.6±10.5) min, respectively. The duration of postoperative ventilator assistance, intensive care unit stay, and hospital stay were 3.5 h to 7.7 d (median 17.1 h),11.2 h to 29.5 d (median 1.9 d), and 6.0 to 56.0 (median 13.0) d, respectively. All patients survived after discharge from hospital. The follow-up rate after discharge was 100% with median time at 15.0 (13.0 to 39.0) months. No death happened during the follow-up. One patient underwent stent implantation due to right coronary stenosis 2 months after Ross operation. One patient underwent balloon dilation due to right pulmonary artery ostium stenosis 1 year after re-reconstruction of RVOT. The cardiac function of all patients recovered to NYHA class I 6 months after operation. The peak pressure gradient across the valve measured by transthoracic echocardiography before discharge was (9.4±2.6) mmHg (1 mmHg=0.133 kPa), and (18.3±6.1) mmHg at the last follow-up. There was no significant increase in the gradient during the follow-up (P=0.134). No patient suffered from mild or more pulmonary regurgitation. CONCLUSIONS Hand-sewn ePTFE valved conduit is feasible for RVOT reconstruction. It is a promising material for RVOT reconstruction which can effectively meet clinical need. In our experience, the ePTFE valved conduit is simple to manufacture with satisfactory early outcomes.In the application of ePTFE valved conduit, attention should be paid to implantation indications and postoperative anticoagulation management, especially to the preparation details of the valved conduit, to obtain better function and durability of the conduit after implantation.
Adolescent ; Animals ; Cattle ; Constriction, Pathologic/surgery* ; Heart Valve Prosthesis/adverse effects* ; Heart Valve Prosthesis Implantation/methods* ; Humans ; Infant ; Polytetrafluoroethylene ; Prosthesis Design ; Pulmonary Valve Insufficiency/surgery* ; Retrospective Studies ; Treatment Outcome ; Ventricular Outflow Obstruction/surgery*