The changes of procalcitonin level in children with bacterial pneumonia and its clinical significance / 中国基层医药

Objective To observe the changes and clinical significance of procalcitonin(PCT) level in children with bacterial pneumonia.Methods The levels of PCT,hs-CRP and WBC were detected in 31 pneumonia children pre and post antibiotic treatment,and the changes were observed.Results The PCT levels of the 31 patients were all increased before treatment.After cured,PCT level of 28 cases returned to normal.But in the 28 normal cases,WBC level increased in 10 cases(35.7％),and hs-CRP level elevated in 4 cases(14.3％).In the other 3 cases,the PCT levels decreased from 5.69ng/mL,1.25ng/mL and 0.83ng/mL at admission to 0.51ng/mL,0.55ng/mL and 0.52ng/mL,respectively.And in these 3 cases,there was one case with the levels of WBC and hs-CRP respectively ascended,in which WBC level descended from 13.1 × 109/L to 12.1 × 109/L and hs-CRP level reduced from 20.92mg/L to 7.38mg/L.Conclusion The sensitivity of the index PCT is the highest at the accurate time phase of bacterial pneumonia,which can guide the reasonable use of antibiotics.

Fluid-structure interaction analysis based on a 3D finite element model of human left ventricular / 生物医学工程学杂志

A 3D model of heart configurations and interior structures has been constructed using Visual C++ visualization toolkit based on the Dataset of Visible Chinese Human. The finite element model of left ventricular is obtained from the heart structure model. Both ventricular wall and blood in the cavity are modeled by finite element mesh. The fluid-structure coupling of the left ventricle and blood has been constructed using an arbitrary Lagrange-Euler algorithm. Based on these models, the fluid-structure interaction of the left ventricle and blood in the filling phase is simulated. The simulation result successfully reproduced the biphasic filling flow consisting of early rapid filling and atrial contraction, which is similar to the clinical observation. This study provides a feasible method with which we can use image-based fluid-structure simulation to analyse the structure and haemodynamics properties of heart. It could be applied in heart functional investigations and clinical applications.