Objective To study the significance on dynamic changes of serum vascular endothelial growth factor( VECF) and matrix metalloproteinase 9( MMP-9) in patients with acute cerebral infarction. Methods 123 patients with acute cerebral infarction were selected as research object, and they were the observation group, and 80 healthy peoples at the same time were selected as control group. Then the serum VEGF and MMP-9 in patients with acute cerebral infarction after pathogenesis at first,third,fifth,seventh and fourteenth day were detected,and the correction between the levels and infarct size,prognosis were studied. Results The serum VECF and MMP-9 of observation group compared with those of control group,the change showed increased first and decreased afterwards,but the levels were all higher than those of control group (P ＜ 0.01). There were correction between the levels and infarct size, prognosis.The serum VEGF[(369.3 ± 108.7,476.2 ± 118.4,551.5 ± 144.5,661.7 ± 164.6,437.6 ± 123.9)ng/L]and MMP-9[(333.8±101.4,459.7±119.9,370.3 ±119.5,320.5 ± 129.1,255.4 ± 101.6)ng/L] in poor prognosis patients after pathogenesis at first,third,fifth,seventh and fourteenth day were all higher than those of good prognosis patients ( P ＜0.01). Conclusion The serum VEGF and MMP-9 in patients with acute cerebral infarction showed dynamic change,and there was close relationship between the levels and infarct size.

Objective To build a digitized 3D model of the pulmonary venous system of Chinese people for the purpose of providing anatomic information of the pulmonary venous system for anatomic teaching,imaging diagnosis and surgical operation of pulmonary diseases. Methods The primal images from the first Chinese visible human data set of chest were converted into image sequence only cantaining the sections of pulmonary veins after manual registration and image segmentation.Then these images were imported into 3DMed software to build a 3D model of the pulmonary venous system through threshold registration algorithm. Results The three dimensional structures of the pulmonary venous system were reconstructed entirely.All reconstructed structures could be displayed individually or jointly,and could be rotated continuously on any plane.Conclusion The branches and the spacial characters of the pulmonary venous system can be clearly shown on the reconstructed 3D model.It will help anatomy teaching and provide morphological data for image diagnosis and lung operations.