Objective To understand the working pressure source of obstetric nurses in Kunming through a sample survey study, so as to provide a reference for obstetric nurses to adjust self-psychology and for clinical managers to relieve working pressure on obstetric nurses. Methods We gave a sampling survey on 249 obstetric nurses in provincial,municipal and private hospitals,and usedChinese nurse job stress scaleto collect the data for statistical analysis. Results Kunming obstetric nurses' working pressure mainly came from the workload and time allocation. The ten stressors with highest score of pressure were frequent highest score, too much work, low welfare benefits,too much useless paperwork, low social status,worry about mistakes at work, too high expectation of patients,too much non-nursing work, nursing work is not accepted by patients and their families, few nurses to work. Age,title and nature of the preparation had no effect on work stress. Public hospital nurses' working pressure was significantly greater than private hospitals. Conclusion Working pressure sources of obstetric nureses in Kuming are too much night shift,too much work,welfare berfits useless paperwork,social status,mistakes at work, patients expectation work is not accopted and staffing Hospital management and nuusing managers should doploy rationally human resoures on obstteic area,reasorabal scheduling.

Objective: To assess the application value of CT scanning in percutaneous pulmonary valve implantation (PPVI). Methods: A total of 19 patients with severe pulmonary regurgitation planed to receive PPVI in our hospital from 2014-05 to 2016-07 were studied. CT scan and transthoracic echocardiography (TTE) were conducted to collect the data of pulmonary root anatomy and to compare the difference of pulmonary annulus size measured by CT and TTE. The accuracy of pre-operative measurement was evaluated by the follow-up study at (1-26) months after the operation. Results: In all 19 patients, the mean anatomic measurements by CT were as follows: diameter of pulmonary annulus (24.3±3.5) mm, diameter of pulmonary sinotubular junction (25.4±4.0) mm, diameter at distal of main pulmonary artery (27.5±4.8) mm, diameter of right ventricular outflow tract (36.8±7.3) mm, length of main pulmonary artery (45.5±7.0) mm, diameter of left pulmonary artery (17.9±1.5) mm and diameter of right pulmonary artery (18.5±3.6) mm. The diameter of pulmonary annulus measured by CT was larger than TTE, P<0.05. During (1-26) months follow-up period, no patients suffered from stent fracture or translocation, peri-pulmonary valve regurgitation, obvious pulmonary regurgitation or coronary stenosis; 1 patient had increased flow rate at right pulmonary artery opening by stent blocking and 2 patients had residue mild stenosis of pulmonary valve. Conclusion: Pulmonary annulus size measured by CT and TTE was different; CT may precisely assess the morphology of pulmonary root with adjacent area which is important for pre-operative evaluation in PPVI patients.